Acute Febrile Encephalopathy

Unravelling the Impact: Pulmonary Side Effects of Anti-Seizure Medications

Background: Epilepsy is a chronic brain condition affecting over 50 million people worldwide. Several new anti-seizure medications (ASMs) have been introduced to treat epilepsy in recent decades.

Objective: Nearby the specific therapeutic action, ASMs, like other types of pharmacotherapy, can produce various side effects. In this review, we shall analyze the different pharmaceutical classes of ASMs, their mechanism of action, and their interaction with the respiratory system.

Methods: This manuscript is based on a retrospective review of English publications indexed by Pubmed, UpToDate and datasheets published by the European Medicines Agency and the Food and Drug Administration (FDA), using various terms reminiscent of ASMs and pulmonary function.

Results: ASMs act on organism homeostasis in different ways, acting on lung function directly and indirectly and playing a protective or damaging role. A damaging direct lung involvement ranged from infections, hypersensitivity reactions, and respiratory depression to other structured pulmonary diseases. Meanwhile, a damaging indirect effect, might be constituted by pulmonary artery hypertension. On the other hand, a protective effect might be the expression of developmental processing, decreasing airway remodelling in asthma patients, vascular remodelling in pulmonary hypertension and, nonetheless, anti-inflammatory and immunomodulatory actions.

Conclusion: An adequate awareness of ASMs effects on the respiratory system seems essential for better managing frail individuals or/and those predisposed to respiratory disorders to improve our patients' clinical outcomes.

Neurological Manifestations of Influenza Virus and RSV Infections in Children

The most significant viral contributors to acute respiratory tract infections in children are Respiratory Syncytial Viruses (RSV) and influenza virus, causing substantial seasonal respiratory infections annually. Furthermore, severe neurological complications, notably seizures and encephalopathy, can be attributed to these viruses. Children with chronic or pre-existing neurological conditions are particularly susceptible to increased morbidity and sequelae. An active area of research to date is focused on the potential mechanisms of viral neurological invasion, which could be relevant for future therapeutic strategies. Influenza virus is frequently an important cause of epidemic or pandemic disease causing high costs of hospitalization and primary care. Furthermore, different subtypes of influenza viruses can induce various influenza-associated neurological complications, varying from mild (i.e., headache) to severe (i.e., meningoencephalitis and acute necrotizing encephalopathy), both in adults and children. While affecting the respiratory tract, RSV can also give rise to neurological manifestations, potentially resulting in long-term neurological impairment. Neurological changes associated with RSV encompass seizures, lethargy, ataxia, febrile or epileptic states, central apnea, difficulties in feeding or swallowing, tone abnormalities, strabismus, abnormalities in cerebrospinal fluid, and encephalopathy. Patients infected with RSV can also develop neuromotor difficulties or present learning impairment. In conclusion, viral respiratory infections can result in significant extrapulmonary symptoms, potentially leading to enduring health consequences in affected children. Substantial research efforts are necessary to prevent or treat these infections, particularly within the most vulnerable populations.

A Case Series of Appendicitis and Pseudo-appendicitis in a Paediatric Intensive Care Unit

Introduction: Appendicitis is a common childhood condition that can be diagnostically challenging. Severe cases may necessitate support in the critical or intensive care unit. These “critical appendicitis diagnoses” have rarely been described.

Case Description: We retrospectively reviewed the Paediatric Intensive Care Unit (PICU) database of the Hong Kong Children’s Hospital and identified cases of suspected and confirmed appendicitis. Clinical features, radiologic findings and final diagnosis of each case were summarized and reported in this case series. We review six anonymized cases of appendicitis managed in a PICU to illustrate the different age spectrum and clinical manifestations of the condition. Rupture of the inflamed appendix, peritonitis and pancreatitis were some of the complications encountered. Crohn’s disease was found in one case as an underlying diagnosis. Also, one girl clinically diagnosed with appendicitis was found to be a case of ruptured hepatoblastoma with no appendicitis (i.e., pseudoappendicitis).

Conclusion: Prompt diagnosis, surgical removal of the inflamed appendix, and use of appropriate antimicrobials when indicated are essential in reducing mortality and morbidity associated with severe appendicitis. Significant premorbid conditions such as acute myeloid leukemia, Mitochondrial Encephalopathy Lactic Acidosis Syndrome (MELAS), inflammatory bowel disease and complications may be present in patients needing intensive care as is illustrated in the present cases. Pseudoappendicitis is an important differential diagnosis. Imaging is crucial and useful in establishing and confirming the diagnosis of appendicitis and pseudo-appendicitis in these PICU cases.

Adenovirus Meningoencephalitis and Neurocysticercosis Co-infection: First Case from India

Background: Adenovirus generally causes upper and lower respiratory tract infections. It is common in children and occasionally in adults. Neurological involvement is rare, which may be mild aseptic meningitis to potentially fatal acute necrotizing encephalopathy. Recently, viruses have been reported increasingly to cause CNS infections. Viral aetiology typically varies with age.

Case Presentation: Here, we report an unusual adenovirus meningoencephalitis with a co-infection of neurocysticercosis in an immunocompetent adult patient. An 18-year-old healthy female student was admitted with fever and headache for 11 days and progressive altered behaviour for 5 days, followed by altered sensorium for 3 days. This variable and unusual presentation of adenoviral infection involving CNS provoked diagnostic difficulties, but with the help of advanced diagnostics, especially molecular, exact aetiology was detected. Even with the neurocysticercosis infection in this patient, the outcome was not adversely affected.

Conclusion: This unusual co-infection with a successful outcome is the first case of this type in literature.

A Review of Current and Prospective Treatments for Channelopathies, with a Focus on Gene and Protein Therapy

Reduced cell surface expression or the malfunctioning of ion channels gives rise to a group of disorders known as channelopathies. To treat the underlying cause, the delivery and/or expression of a functional ion channel into the cell membrane of the cell of interest is required. Unfortunately, for most channelopathies, current treatment options are only symptomatic and treatments that rectify the underlying damage are still lacking. Within this context, approaches that rely on gene and protein therapy are required. Gene therapy would allow the expression of a functional protein, provided that the cellular machinery in the diseased cell could correctly fold and traffic the protein to the cell membrane. Whereas protein therapy would allow the direct delivery of a functional protein, provided that the purification process does not affect protein function and a suitable delivery vehicle for targeted delivery is used. In this review, we provide an overview of channelopathies and available symptomatic treatments. The current state of gene therapy approaches mainly using viral vectors is discussed, which is followed by the role of nanomedicine in protein therapy and how nanomedicine could be exploited for the delivery of functional ion channels to diseased cells.

Significance of Beta-Blocker in Patients with Hypertensive Left Ventricular Hypertrophy and Myocardial Ischemia

Background: Arterial Hypertension (HTN) is a key risk factor for left ventricular hypertrophy (LVH) and a cause of ischemic heart disease (IHD). The association between myocardial ischemia and HTN LVH is strong because myocardial ischemia can occur in HTN LVH even in the absence of significant stenoses of epicardial coronary arteries.

Objective: To analyze pathophysiological characteristics/co-morbidities precipitating myocardial ischemia in patients with HTN LVH and provide a rationale for recommending beta-blockers (BBs) to prevent/treat ischemia in LVH.

Methods: We searched PubMed, SCOPUS, PubMed, Elsevier, Springer Verlag, and Google Scholar for review articles and guidelines on hypertension from 01/01/2000 until 01/05/2022. The search was limited to publications written in English.

Results: HTN LVH worsens ischemia in coronary artery disease (CAD) patients. Even without obstructive CAD, several pathophysiological mechanisms in HTN LVH can lead to myocardial ischemia. In the same guidelines that recommend BBs for patients with HTN and CAD, we could not find a single recommendation for BBs in patients with HTN LVH but without proven CAD. There are several reasons for the proposal of using some BBs to control ischemia in patients with HTN and LVH (even in the absence of obstructive CAD).

Conclusion: Some BBs ought to be considered to prevent/treat ischemia in patients with HTN LVH (even in the absence of obstructive CAD). Furthermore, LVH and ischemic events are important causes of ventricular tachycardia, ventricular fibrillation, and sudden cardiac death; these events are another reason for recommending certain BBs for HTN LVH.

Seroprevalence of Pertussis Antibodies and Infection Risk Among Female Medical Students

Objectives: Pertussis seroprotection among neonates depends on maternal antibodies before receiving their first childhood acellular pertussis (DTaP) vaccination. Therefore, childbearing women need to have adequate seroprotection, either before conception or during the antenatal period, to protect their neonates from contracting neonatal pertussis. Given the global rise in neonatal pertussis incidence, there is a need to address the importance of protection against this infection by promoting booster vaccinations among female medical students as a preventive measure for their future generation. This paper addresses a part of our study on the seroprevalence of anti-PT IgG antibodies in female medical students who are more prone to acquire infections from the patients during their clinical rotations.

Methods: A cross-sectional study was conducted for three months by recruiting female medical students of RAK Medical and Health Sciences University, Ras Al Khaimah, UAE. The antibody levels (IgG) of pertussis (anti-PT) in blood sera of the study population were quantitated by enzyme-linked immunoassay. A 60 – 125 IU/mL titer was considered the positive titer level (p-value <0.05 being statistically significant).

Results: Among 90 ethnically different student participants (mean age of 21 years), forty-four percent (n=40) showed detectable titers of anti-PT IgG antibodies. Whereas fourteen percent of participants (n=13) had high positive titers above 125U/mL, four percent (n=3) showed positive titers ranging from 60-125IU/mL. Two percent (n=2) were in borderline with 55 - <60IU/mL and twenty three percent (n=21) were < 55IU/mL titres. The mean ± SD of IgG titers was 42 ± 74.93 IU/mL with a range of 0-267 IU/mL.

Conclusion: Only forty-four percent had detectable titers of anti-PT IgG antibodies, among whom fourteen percent (n=13) had high positive titers indicating recent infection. The results signify a low level of seroprotection among female medical students that emphasizes the need to promote booster vaccination for the high-risk group who work in the health profession.

The Role of NF-κB in Myocardial Ischemia/Reperfusion Injury

Acute myocardial infarction (AMI) is a threat to human life and physical health worldwide. Timely reperfusion is very important to limit infarct size and protect ischemic myocardium. Unfortunately, it has also caused severer myocardial damage, which is called “myocardial ischemia/ reperfusion injury (MIRI)”. There is no effective clinical treatment for it. Over the past two decades, biological studies of NF-κB have improved the understanding of MIRI. Nuclear Factor-κB (NF-κB) is a major transcription factor associated with cardiovascular health and disease. It is involved in the release of pro-inflammatory factors and apoptosis of cardiomyocytes. Recent studies have shown that inhibition of NF-κB plays a protective role in acute hypoxia and reperfusion injury. Here we review the molecular regulation of NF-κB in MIRI, better understanding of NF-κB signaling mechanisms related to inflammation and crosstalk with endogenous small molecules. We hope this review will aid in improving therapeutic approaches to clinical diagnosing. This review provides evidence for the role of NF-κB in MIRI and supports its use as a therapeutic target.

COVID-19 in Pediatrics: A Systematic Review of Current Knowledge and Practice

Introduction: SARS-CoV-2 is the novel coronavirus that causes severe acute respiratory syndrome and could afflict individuals from all walks of life. Children are usually asymptomatic or represent non-specific mild to moderate symptoms; therefore, they often remain undiagnosed and could be potential reservoirs and silent carriers of the virus. Despite the global attention to COVID-19 and its importance in public health, some clinical and paraclinical aspects of this disease in children are still unclear. Thus, we conducted a comprehensive systematic review of available literature to reflect on the current knowledge and practice of the disease among children.

Methods: This study was a systematic review of current evidence conducted in October 2020. We performed a systematic search using the keywords in online databases. The investigation adheres to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) checklist to ensure the reliability and validity of extracted literature and results.

Results: We selected and reviewed 23 most related studies out of 1744 identified papers in an initial online search based on the inclusion and exclusion criteria of the present review; of whom 13 were original research studies, and 10 were letters to the editors, commentaries, viewpoints, consensus statements, and perspectives. Although due to the origin of the current pandemic, China was the country with the most publications (12 articles), data from several countries have been included in this review.

Conclusion: COVID-19 can also affect children and cause systemic disease with several internal organ involvements. However, the prevalence, severity, and diversity of the symptoms in children are less than in adults. Cough and fever appear to be some of the most common symptoms, followed by other symptoms such as gastrointestinal manifestations. Comorbidities increase the risk of severe COVID-19 in children, and those without underlying conditions are very unlikely to suffer from severe disease. Mental health issues such as anxiety and depression due to the isolated situation caused by pandemics are common findings in children of early ages and should be seriously considered in current practice.

Adenosine Dysfunction in Epilepsy and Associated Comorbidities

Epilepsy, a complex neurological syndrome with dominant symptoms and various comorbidities, affects over 70 million people worldwide. Epilepsy-related comorbidities, including cognitive and psychiatric disorders, can impede therapy for epilepsy patients, leading to heavy burdens on patients and society. Adenosine has an anti-epileptic and anticonvulsive function in the brain. Several studies have shown that, through adenosine receptor-dependent and -independent mechanisms, adenosine can influence the development and progression (epileptogenesis) of epilepsy and its associated comorbidities. As the key enzyme for adenosine clearance, adenosine kinase (ADK) can exacerbate epileptic seizures not only by accelerating adenosine clearance, but also by increasing global DNA methylation through the transmethylation pathway. Therefore, adenosine augmentation therapies for epilepsy can have dual functions in the inhibition of epileptic seizures and the prevention of its overall progress. This review has three main purposes. First, we discuss how maladaptive changes in the adenosine pathway affect the development and progress of epilepsy in both receptor-dependent and receptor-independent ways. Second, we highlight the important influence of associated comorbidities on the prognosis of epilepsy and explore the role of adenosine in these comorbidities. Finally, we emphasize the potential of adenosine augmentation therapies in restoring normal adenosine signaling in the epileptic brain. Such treatments could effectively improve the prognosis of patients who are resistant to most antiepileptic drugs (AEDs), and thus bring new challenges and opportunities in the treatment of epilepsy patients.

The Potential Role of Pro-Inflammatory and Anti-Inflammatory Cytokines in Epilepsy Pathogenesis

Within the pathophysiology of epilepsy, as a chronic brain disorder, the involvement of neuroinflammation has been extensively implied. Recurrent seizures of epilepsy have been associated with elevated levels of immune mediators that seem to play a pivotal role in triggering them. Neurons, glia, and endothelial cells of the blood-brain barrier (BBB) take part in such inflammatory processes by expressing receptors of associated mediators through autocrine and paracrine stimulation of intracellular signaling pathways. In this milieu, elevated cytokine levels in serum and brain tissue have been reported in patients with an epileptic profile. Noteworthy, interleukin (IL)-1β, IL-6, and tumor necrosis factor-alpha (TNF-α) are the proinflammatory cytokines mostly associated, in literature, with the pathogenesis of epilepsies. In this review, we examine the function of these cytokines in connection with transforming growth factor-beta (TGF-β), IL-8, IL-12, IL-18, and macrophage inflammatory protein (MIP) as potential proinflammatory mediators in the neuropathology of epilepsy.

Atypical Manifestations of Severe Acute Respiratory Syndrome Coronavirus 2 Infection in Children: A Systematic Review

Background: In December 2019, a local outbreak of pneumonia was presented in Wuhan (China) and quickly identified to be caused by a novel coronavirus, Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2). The disease caused by SARS-CoV-2 was named COVID-19 and was soon declared a pandemic because of the millions of infections and thousands of deaths worldwide. Children infected with SARS-CoV-2 usually develop the asymptomatic or mild type of disease compared to adults. They are also more likely to have atypical and non-specific clinical manifestations than adults.

Methods: A literature search was performed through PubMed and Scopus to summarize the extrapulmonary manifestations of SARS-CoV-2 infection in children since the beginning of the pandemic. Peer-reviewed papers in English were retrieved using the following keywords and combinations: ‘pediatric,’ ‘child,’ ‘infant,’ ‘neonate,’ ‘novel coronavirus,’ ‘SARS-CoV-2,’ ‘COVID 19’ and ‘gastrointestinal,’ ‘renal,’ ‘cardiac,’ ‘dermatologic’ or ‘ophthalmologic’. We included published case series and case reports providing clinical symptoms and signs in SARS-CoV2 pediatric patients.

Results: Although fever and symptoms of upper respiratory infection are the most frequently presented, a variety of other atypical presentations has also been reported. The clinical spectrum includes dermatological, ophthalmological, neurological, cardiovascular, renal, reproductive, and gastrointestinal presentations. In addition, a rare multi-inflammatory syndrome associated with SARS-- CoV-2 infection has been reported in children, often leading to shock and requiring inotropic support and mechanical ventilation.

Conclusion: Clinicians need to be aware of the wider range of extrapulmonary atypical manifestations of SARS-CoV-2 infection in children, so that appropriate testing, treatment, and public health measures can be implemented rapidly.

Relationship between Augmentation Index and Wall Thickening Fraction during Hypotension in an Animal Model of Myocardial Ischemia-Reperfusion and Heart Failure

Aims: Non-invasive indices to evaluate left ventricular changes during ischemic heart failure are needed to quantify the myocardial impairment and the effectiveness of therapeutic manoeuvres. The aims of this work were to calculate the Wall Thickening Fraction (WTF) and the Augmentation Index (AIx) and to assess the relationship between WTF and AIx using data obtained from an animal model with heart failure followed by a myocardial ischemia stage and a reperfusion stage.

Methods: Nine Corriedale sheep that had been monitored for 10 minutes during a basal stage underwent 5-minute myocardial ischemia, followed by 60-minute reperfusion. Seven of them were subjected to an induced heart failure through an overdose of halothane, two of which were treated with intra-aortic counterpulsation during the reperfusion stage. The remaining two animals were monitored during their ischemia-reperfusion stage.

Results: Data obtained in the 5 animals suffering from heart failure followed by myocardial ischemia showed that: a) heart failure induction determined decrease in cardiac output, cardiac index and systolic and diastolic aortic pressure (AoP) with respect to their basal values (p<0.05), b) myocardial ischemia decreased the WTF compared with basal and induced heart failure values (p<0.05), c) during the reperfusion stage accompanied by induced heart failure, WTF increased with respect to values observed during the ischemia induction stage (p<0.05); nevertheless, basal values were not recovered after reperfusion (p<0.05). During this 60-minute stage, systolic and diastolic AoP values were lower (p<0.05) than those at the basal stage.

Conclusion: AIx and WTF values calculated from synchronically recorded values of aortic pressure and left ventricular wall thickness during the reperfusion stage in all animals (n = 9) showed a negative correlation (p<0.05). Analysed data provided evidence of a negative relationship between a left ventricular index of myocardial function and an arterial index obtained from AoP waves.

Personalized Medicine Using Cutting Edge Technologies for Genetic Epilepsies

Epilepsy is the most common chronic neurologic disorder in the world, affecting 1-2% of the population. Besides, 30% of epilepsy patients are drug-resistant. Genomic mutations seem to play a key role in its etiology and knowledge of strong effect mutations in protein structures might improve prediction and the development of efficacious drugs to treat epilepsy. Several genetic association studies have been undertaken to examine the effect of a range of candidate genes for resistance. Although, few studies have explored the effect of the mutations into protein structure and biophysics in the epilepsy field. Much work remains to be done, but the plans made for exciting developments will hold therapeutic potential for patients with drug-resistance. In summary, we provide a critical review of the perspectives for the development of individualized medicine for epilepsy based on genetic polymorphisms/mutations in light of core elements such as transcriptomics, structural biology, disease model, pharmacogenomics and pharmacokinetics in a manner to improve the success of trial designs of antiepileptic drugs.

Diagnostic Value of Assessment of Serum Cortisol, Hepcidin and Thyroid Hormones Levels in Neonates with Late-Onset Sepsis

Background: Neonatal sepsis is a clinical syndrome characterized by symptoms and signs of infection in the first twenty-eight days of life. Serum thyroid, cortisol and hepcidin are affected by neonatal sepsis.

Aim of the Work: The aim of this study was to assess the diagnostic value of serum thyroid hormones including free triiodothyronine (free TT3) and free tetraiodothyronine (free TT4), serum cortisol and hepcidin levels through comparison of their concentrations between normal neonates and neonates with high probable late-onset sepsis.

Patients and Methods: This case-control study was carried out on 40 neonates with suspected high probable late-onset neonatal sepsis based on clinical and laboratory finding who were admitted to NICU of Pediatric Department, Tanta University, Egypt in the period from April 2017 to May 2019 (group I) and 40 healthy neonates matched in age and sex as a control group (group II). For patients and controls, blood culture, highly sensitive C-reactive protein (H-s CRP), serum hepcidin, serum cortisol and thyroid hormones levels including free TT3 and free TT4 were assessed.

Results: There were no significant differences between studied groups regarding weight, gestational age, sex and mode of delivery. H-s CRP, serum cortisol and hepcidin were significantly higher in group I than group II while serum-free TT3 and free TT4 were significantly lower in group I compared with controls (group II). There was significantly lower H-s CRP, serum hepcidin and cortisol and significantly higher serum-free TT3 and free TT4 in group I after antibiotic therapy compared to the same group before treatment while there were no significant differences between group I after antibiotic therapy and control group (group II) regarding the same parameters. There was a significant positive correlation between H-s CRP and serum hepcidin and cortisol in group I while there was a significant negative correlation between H-s CRP and free TT3 and free TT4. ROC curve of specificity and sensitivity of H-s CRP, serum hepcidin, cortisol, free TT3 and free TT4 in the prediction of neonatal sepsis shows that serum hepcidin had the highest sensitivity and specificity with 95% and 90% respectively followed by serum cortisol, H-s CRP, free TT3 and lastly free TT4.

Conclusion and Recommendations: Neonates with high probable sepsis had significantly higher serum cortisol and hepcidin and significantly lower free TT3 and free TT4 compared with healthy neonates. These findings may draw our attention about the use of these markers in the diagnosis of neonatal sepsis which can help in early treatment and subsequently better prognosis.

Childhood Infectious Encephalitis: An Overview of Clinical Features, Investigations, Treatment, and Recent Patents

Background: Infectious encephalitis is a serious and challenging condition to manage. This overview summarizes the current literature regarding the etiology, clinical manifestations, diagnosis, management, and recent patents of acute childhood infectious encephalitis.

Methods: We used PubMed Clinical Queries as a search engine and used keywords of “encephalitis” AND “childhood” Patents were searched using the key term “encephalitis” in google.patents.- com and patentsonline.com.

Results: Viral encephalitis is the most common cause of acute infectious encephalitis in children. In young children, the clinical manifestations can be non-specific. Provision of empiric antimicrobial therapy until a specific infectious organism has been identified, which in most cases includes acyclovir, is the cornerstone of therapy. Advanced investigation tools, including nucleic acid-based test panel and metagenomic next-generation sequencing, improve the diagnostic yield of identifying an infectious organism. Supportive therapy includes adequate airway and oxygenation, fluid and electrolyte balance, cerebral perfusion pressure support, and seizure control. Recent patents are related to the diagnosis, treatment, and prevention of acute infectious encephalitis.

Conclusion: Viral encephalitis is the most common cause of acute infectious encephalitis in children and is associated with significant morbidity. Recent advances in understanding the genetic basis and immunological correlation of infectious encephalitis may improve treatment. Third-tier diagnostic tests may be incorporated into clinical practice. Treatment is targeted at the infectious process but remains mostly supportive. However, specific antimicrobial agents and vaccines development is ongoing.

The Protective of Baicalin on Myocardial Ischemia-Reperfusion Injury

Background: The aim of this study was to explore the inhibitory effect of baicalin on myocardial apoptosis induced by Ischemia-Reperfusion (I/R).

Methods: Sprague Dawley rats' heart and myocardial cells I/R model were established in vivo and vitro, then 100 mg/kg and 10 μmol/l baicalin were administrated, respectively. The experiment was randomly divided into 4 groups (n=10): Control; I/R; IR+DMEM; and I/R+baicalin groups. Postoperation, the Left Ventricular (LV) End-Diastolic Pressure (LVEDP), the maximum velocity of LV contraction (dP/dtmax) and the maximum velocity of LV diastole (dP/dtmin) were recorded by the transthoracic echocardiography; the myocardial apoptosis percentage was analyzed by Annexin VFITC/ PI and TUNEL staining, and the apoptosis gene and protein were detected by RT-PCR and western blot. Furthermore, the protein expression of the calcium-sensing receptor (CaSR) and ERK1/2 phosphorylation were observed by western blot and Fura-2-acetoxymethyl ester. Moreover, primary rats’ cardiomyocytes were cultured and ERK1/2 specific inhibitor PD98059 was added to the culture medium. The cell survival rate, vitality and apoptosis were detected by MTT, lactate dehydrogenase (LDH) and TUNEL staining assay Kit, respectively.

Results: Our present study showed that baicalin significantly improved LV hemodynamic parameters and myocardial apoptosis in myocardial I/R injury rats. Furthermore, we found that baicalin could down-regulate the protein expression of CaSR, but up-regulate the protein expression of ERK1/2. Furthermore, when the cells were pretreated with ERK1/2 inhibitor PD98059, the cells survival rate significantly decreased, but LDH activity and apoptosis significantly increased. The results indicated that the effect of baicalin on myocardial I/R injury could be inhibited by ERK1/2 inhibitor.

Conclusion: In conclusion, our data suggests that baicalin attenuates I/R-induced myocardial injury maybe through the suppression of the CaSR/ERK1/2 signaling pathway.

The Advances on the Protective Effects of Ginsenosides on Myocardial Ischemia and Ischemia-Reperfusion Injury

Ginseng is a traditional medicine with a complex chemical composition, wide bioactivity and unique pharmacological action. Many studies have confirmed that ginsenosides are the active ingredients of ginseng, and ginsenosides have always been the focus of different researchers. With the development of modern separation and analysis technology, more than 150 kinds of ginsenosides have been isolated. The ginsenosides Rb1, Rb2, Rc, Rg1 and Re account for more than 80% of total ginsenosides, and other saponins, such as Rd, Rg3 and Rh2, which are minor constituents, accounting for only a small portion of the total amount. In recent years, ginsenosides have been found to possess strong pharmacological activities, such as antioxidation, clearing of oxygen free radicals, reducing calcium overload and anti-apoptosis. Ginsenosides play a protective role in ischemia-reperfusion injury. This paper reviews the protective effects of ginsenosides on myocardial ischemia and ischemiareperfusion injury.

Epstein-Barr Encephalitis in a Child with Congenital Human Immunodeficiency Virus Infection: A Case Report Calling for No Forgetfulness

Background: In resource-rich settings, the rate of mother-to-child transmission of human immunodeficiency virus (HIV) has dramatically decreased by virtue of a combination of preventive strategies during the last two decades.

Case Presentation: We present a case of progressive developmental milestone loss in a toddler with previously unknown congenitally acquired human immunodeficiency virus (HIV) infection, complicated by an Epstein-Barr virus (EBV) coinfection.

Conclusion: Our report underscores the differential diagnosis between HIV encephalopathy and EBV encephalitis and the vertical transmission of the HIV infection, which constitutes an alarming issue in terms of public health.

Antiviral Drug Targets of Single-Stranded RNA Viruses Causing Chronic Human Diseases

Ribonucleic acid (RNA) viruses associated with chronic diseases in humans are major threats to public health causing high mortality globally. The high mutation rate of RNA viruses helps them to escape the immune response and also is responsible for the development of drug resistance. Chronic infections caused by human immunodeficiency virus (HIV) and hepatitis viruses (HBV and HCV) lead to acquired immunodeficiency syndrome (AIDS) and hepatocellular carcinoma respectively, which are one of the major causes of human deaths. Effective preventative measures to limit chronic and re-emerging viral infections are absolutely necessary. Each class of antiviral agents targets a specific stage in the viral life cycle and inhibits them from its development and proliferation. Most often, antiviral drugs target a specific viral protein, therefore only a few broad-spectrum drugs are available. This review will be focused on the selected viral target proteins of pathogenic viruses containing single-stranded (ss) RNA genome that causes chronic infections in humans (e.g. HIV, HCV, Flaviviruses). In the recent past, an exponential increase in the number of available three-dimensional protein structures (>150000 in Protein Data Bank), allowed us to better understand the molecular mechanism of action of protein targets and antivirals. Advancements in the in silico approaches paved the way to design and develop several novels, highly specific small-molecule inhibitors targeting the viral proteins.

Chimeric Antigen Receptor-Engineered T-Cells - A New Way and Era for Lymphoma Treatment

Background: Patients with refractory or relapsed diffuse large B-cell lymphoma have a poor prognosis with the current standard of care.

Objective: Chimeric Antigen Receptor T-cells (CAR T-cells) are functionally reprogrammed lymphocytes, which are able to recognize and kill tumor cells. The aim of this study is to make progress in this area.

Methods: A mini-review was achieved using the articles published in Web of Science and PubMed in the last year and the new patents were made in this field.

Results: The responses to CAR T-cell products axicabtagene ciloleucel and tisagenlecleucel are promising; the objective response rate can reach up to 83%, and the complete response rate ranges between 40 and 58%. About half of the patients may have serious side effects, such as cytokine release syndrome and neurotoxicity. Current and future developments include the improvement of CAR T-cell expansion and polyfunctionality, the combined use of CAR T-cells with a fusion protein between interferon and an anti-CD20 monoclonal antibody, with checkpoint inhibitors or small molecule sensitizers that have apoptotic-regulatory effects. Furthermore, the use of IL-12-expressing CAR T-cells, an improved technology for the production of CAR T-cells based on targeted nucleases, the widespread use of allogeneic CAR T-cells or universal CAR T-cells obtained from genetically engineered healthy donor T-cells are future developments actively considered.

Conclusion: CAR T-cell therapy significantly improved the outcome of patients with relapsed or refractory diffuse large B-cell lymphoma. The advances in CAR T-cells production technology will improve the results and enable the expansion of this new immunotherapy.

Impaired Myocardial MIF/AMPK Activation Aggravates Myocardial Ischemia Reperfusion Injury in High-Fat Diet-Induced Obesity

Background: Obese patients are more sensitive to myocardial ischemia, which has been linked with high mortality rates. The following study investigates the effects of impaired macrophage Migration Inhibitory Factor (MIF)/AMP-Activated Protein Kinase (AMPK) activation on increased susceptibility to myocardial ischemia/reperfusion (I/R) in high-fat diet-induced obesity.

Methods: Male C57BL/6J mice were fed with a normal diet (10% kcal as fat, lean group) or a high-fat diet (60kcal as fat, obese group) for 12 consecutive weeks. To detect the MIF expression and AMPK activation in response to I/R in isolated hearts from lean and obese mice, myocardial samples were collected from left ventricular areas at different time points. To determine whether MIF supplementation is protective against I/R injury, recombined MIF (10 ng/mL) was applied before ischemia. Myocardial infarct size was estimated by triphenyltetrazolium staining. Western blot was used to detect myocardial MIF expression, AMPK activation and membrane glucose transporter 4 (Glut4) expression.

Results: The expression of MIF was remarkably higher in obese group compared to lean group. Ischemia increased myocardial MIF expression and phosphorylation of AMPK in lean mice, whereas it had no significant effect on obese mice. Furthermore, administration of recombinant MIF increased ischemic AMPK activation and membrane Glut4 expression in both lean and obese mice, while it reduced the infarct size in lean mice only.

Conclusion: An impaired MIF/AMPK activation response and consequent reduced membrane Glut4 expression may play an important role in increasing myocardial susceptibility to I/R in obesity.

Methotrexate overdose in clinical practice

Background: A folic-acid antagonist, methotrexate, is one of the most commonly prescribed drugs with its expanding use in clinical practice. The drug requires regular monitoring given its wide range of adverse effects including bone marrow suppression, hepatic or renal dysfunction, gastrointestinal distress, mucocutaneous damage, and neurotoxicity. The toxicity usually occurs rapidly and leads to severe neutropenia, sepsis, and advanced renal failure that are difficult to manage.

Methods: This review is an update for the clinicians to understand the pharmacology, clinical features, laboratory evaluation, and treatment of patients with methotrexate overdose. High-quality literature of the past six decades was collected and reviewed in this article. Several landmark articles were reviewed using PubMed, EMBASE Ovid, and the Cochrane Library, that have important implications in current clinical practice.

Results: Methotrexate overdose has complex toxicokinetic and produces myriad clinical features mimicking conditions of lesser severity. Organ dysfunction related to bone marrow, kidney or central nervous system is lifethreatening. The management should focus on high-quality supportive care, antidotal therapy (folinic acid and carboxypeptidase- G2) and plasma alkalization.

Conclusion: In accordance with the dictum “prevention is better than cure”, the author emphasizes on the role of patient education, regular clinical observation, and laboratory monitoring for prompt recognition and diagnosis of methotrexate overdosing at the earliest stage.

Valproic Acid and Epilepsy: From Molecular Mechanisms to Clinical Evidences

After more than a century from its discovery, valproic acid (VPA) still represents one of the most efficient antiepileptic drugs (AEDs). Pre and post-synaptic effects of VPA depend on a very broad spectrum of actions, including the regulation of ionic currents and the facilitation of GABAergic over glutamatergic transmission. As a result, VPA indirectly modulates neurotransmitter release and strengthens the threshold for seizure activity. However, even though participating to the anticonvulsant action, such mechanisms seem to have minor impact on epileptogenesis. Nonetheless, VPA has been reported to exert anti-epileptogenic effects. Epigenetic mechanisms, including histone deacetylases (HDACs), BDNF and GDNF modulation are pivotal to orientate neurons toward a neuroprotective status and promote dendritic spines organization. From such broad spectrum of actions comes constantly enlarging indications for VPA. It represents a drug of choice in child and adult with epilepsy, with either general or focal seizures, and is a consistent and safe IV option in generalized convulsive status epilepticus. Moreover, since VPA modulates DNA transcription through HDACs, recent evidences point to its use as an anti-nociceptive in migraine prophylaxis, and, even more interestingly, as a positive modulator of chemotherapy in cancer treatment. Furthermore, VPA-induced neuroprotection is under investigation for benefit in stroke and traumatic brain injury. Hence, VPA has still got its place in epilepsy, and yet deserves attention for its use far beyond neurological diseases. In this review, we aim to highlight, with a translational intent, the molecular basis and the clinical indications of VPA.

Travelers’ Diarrhea: A Clinical Review

Background: Travelers’ diarrhea is the most common travel-related malady. It affects millions of international travelers to developing countries annually and can significantly disrupt travel plans.

Objective: To provide an update on the evaluation, diagnosis, treatment, and prevention of traveler’s diarrhea.

Methods: A PubMed search was completed in Clinical Queries using the key term “traveler’s diarrhea”. The search strategy included meta-analyses, randomized controlled trials, clinical trials, observational studies, and reviews. The search was restricted to English literature. Patents were searched using the key term “traveler’s diarrhea” from www.freepatentsonline.com.

Results: Between 10% and 40% of travelers develop diarrhea. The attack rate is highest for travelers from a developed country who visit a developing country. Children are at particular risk. Travelers’ diarrhea is usually acquired through ingestion of food and water contaminated by feces. Most cases are due to a bacterial pathogen, commonly, Escherichia coli, and occur within the first few days after arrival in a foreign country. Dehydration is the most common complication. Pretravel education on hygiene and on the safe selection of food items is important in minimizing episodes. For mild travelers’ diarrhea, the use of antibiotic is not recommended. The use of bismuth subsalicylate or loperamide may be considered. For moderate travelers’ diarrhea, antibiotics such as fluoroquinolones, azithromycin, and rifaximin may be used. Loperamide may be considered as monotherapy or adjunctive therapy. For severe travelers’ diarrhea, antibiotics such as azithromycin, fluoroquinolones, and rifaximin should be used. Azithromycin can be used even for the treatment of dysentery whereas fluoroquinolones and rifaximin cannot be used for such purpose. Recent patents related to the management of travelers’ diarrhea are discussed.

Conclusion: Although travelers’ diarrhea is usually self-limited, many travelers prefer expedient relief of diarrhea, especially when they are traveling for extended periods by air or ground. Judicious use of an antimotility agent and antimicrobial therapy reduces the duration and severity of diarrhea.

Febrile Infection-Related Epilepsy Syndrome (FIRES): An Overview of Treatment and Recent Patents

Background: New-Onset Refractory Status Epilepticus (NORSE) refers to a clinical presentation in a patient without active epilepsy or other existing relevant neurological disorder, with new onset of refractory status epilepticus in the absence of a clear acute or active structural, metabolic, or toxic cause. Febrile Infection-Related Epilepsy Syndrome (FIRES) is a subset of NORSE that requires a febrile infection between 24 hours and 2 weeks prior to the onset of refractory status epilepticus, with or without fever at the onset of status epilepticus, and with no restriction to the age of the patient. The literature on FIRES is scarce.

Objective: This article reviews the pathophysiology, clinical features, and various treatment modalities in the treatment of FIRES.

Methods: A Medline/Pubmed search was conducted using Clinical Queries with the key terms "Febrile Infection-Related Epilepsy Syndrome", “FIRES”, "New-Onset Refractory Status Epilepticus" and “NORSE”. The search strategy included meta-analyses, randomized controlled trials, clinical trials, reviews and pertinent references. Patents were searched using the key term "FIRES", “NORSE” and “Febrile Epilepsy Syndrome” from www.google.com/patents, www.uspto.gov, and www.freepatentsonline.com.

Results: FIRES almost invariably begins with a mild nonspecific febrile illness in an otherwise healthy individual. Twenty-four hours to two weeks later, seizures begin and quickly become very frequent and worsen, becoming status epilepticus. Seizures can be simple motor, complex partial or secondary generalized. The exact etiology is not known. It is possible that the syndrome is caused by an inflammatory or autoimmune mechanism.

Seizures in FIRES are notoriously very difficult to treat. Treatment modalities include, among others, various antiepileptic drugs, ketogenic diet, intravenous corticosteroids, intravenous immunoglobulin, and burst-suppression coma. The outcome is poor; most children are left with significant cognitive disability and refractory epilepsy. Recent patents for the management of FIRES are discussed.

Conclusion: FIRES is a rare epilepsy syndrome of unclear etiology in which children, usually of school age, suddenly develop very frequent seizures after a mild febrile illness. Seizures in FIRES are typically difficult to treat. The prognosis is poor.

Medical Complications in Anorexia and Bulimia Nervosa

Background and Objective: Anorexia Nervosa (AN), Bulimia Nervosa (BN) and their variants are characterized by persistent alteration of eating behaviour, such as restricted intake or bingeing and purging, as well as excessive concerns about body shape and body weight. Purging behaviour may include self induced vomiting and/or abuse of laxatives, diuretics and physical hyperactivity. Unlike other psychiatric disorders, patients suffering from AN and BN have a high prevalence of many different medical complications, through the sequelae of undernutrition and purging, often with a serious impairment of health status and quality of life. This article describes the main diagnostic and clinical aspects of medical complications in AN and BN.

Results: The medical complications of ED are extremely variable and can occur with only modest biological and physical damage up to extremely serious and life-threatening conditions; the mortality rate of young subjects with AN is 4 - 11% with a risk of death about 12 times higher than that of subjects of the same age of the general population. The management of the medical-internship aspects of AN and BN is rightly placed within complex and articulated programs of interdisciplinary treatment with different levels of intensity of care (outpatient, semi-residential/residential, hospital in cases of emergency/medical and/or psychiatric emergency).

Conclusion: the results of the investigations carried out, describe the functions of the various organs and apparatuses and the alterations detected, the possible complications and physiological adaptations to malnutrition.

Connexin43 and Myocardial Ischemia-Reperfusion Injury

Background: Recently, the treatment and prevention of ischemic cardiomyopathy is one of the emerging research topics in the cardiovascular field. Gap junction is the basic structure of cardiac electrophysiology. Connexin is the basic unit of gap junctions. Connexin43(CX43) is the most abundant member of Cx family in the heart, the normal expression of Cx43 is important for heart development, electrically coupled cardiomyocytes activities and coordination of myocardial function. The connection between Cx43 and myocardial ischemia/reperfusion or reperfusion injury has become the focus of current research.

Methods: We undertook a structured search of bibliographic database for peer-reviewed research literature using a focused review question and inclusion/exclusion criteria. The quality of retrieved papers was appraised using standard tools. The characteristics of screened papers were described, and a deductive qualitative content analysis methodology was applied to analyze the interventions and findings of included studies using a conceptual framework.

Results: Twenty-one papers were included in the review, eight papers outlined the relationship of Cx43 and reperfusion arrhythmias. Eight papers pointed out the effect on the infarct size of Cx43.

Conclusion: The findings of this review confirm that Cx43 is the most abundant member of Cx family in the heart and is vital for myocardial protection during ischemia/reperfusion process and for ischemia/reperfusion injury. Many of its mechanism are still not very clear and require future research in the future.

Ketogenic Diets in the Treatment of Epilepsy

Background: Although a larger number of antiepileptic drugs became available in the last decades, epilepsy remains drug-resistant in approximately a third of patients. Ketogenic diet (KD), first proposed at the beginning of the last century, is complex and has anticonvulsant effects, yet not completely understood. Over the last decades, different types of ketogenic diets (KDs) have been developed, namely classical KD and modified Atkins diet (MAD). They offer an effective alternative for children and adults with drug-resistant epilepsies.

Methods: We review several papers on KDs as an adjunctive treatment of refractory epilepsy of children and adults, discussing its efficacy and adverse events. Because of the heterogenous, uncontrolled nature of the studies, we analyzed all studies individually, without a meta-analysis.

Results: KDs may be considered first choice treatment in some specific metabolic conditions, such as glucosetransporter type 1 and pyruvate dehydrogenase deficiencies, and mitochondrial complex I defects. Preliminary findings indicate that KDs may be specifically effective in some epileptic syndromes, such as West syndrome, severe myoclonic epilepsy of infancy, myoclonic-astatic epilepsy, febrile infection related epileptic syndrome, and drug-resistant idiopathic generalized epilepsies or refractory status epilepticus. Short term adverse events are usually mild in both children and adults, including gastrointestinal symptoms, hyperlipidemia, and hypercalciuria; potential long term adverse effects include nephrolitiasis, decreased bone density, and liver steatosis. Possible atherosclerotic effects remain a concern. Patients on KDs should be carefully monitored in specialized centers during initiation, maintenance and withdrawal periods, in order to minimize such adverse events, and to improve compliance. Although the majority of KD trials on children and adults with drug-resistant epilepsies are openlabel, uncontrolled studies based on small samples, an increasing number of randomized controlled trials have provided better quality evidence on its efficacy in recent years.

Conclusion: There is a need for future randomized clinical trials aimed to confirm the efficacy of KDs in specific epileptic syndromes, and to provide further information about some practical unsolved problems, i.e. for how long KD treatment should be continued.

Treatment of Epileptic Encephalopathies

Background: Epileptic encephalopathies represent the most severe epilepsies, with onset in infancy and childhood and seizures continuing in adulthood in most cases. New genetic causes are being identified at a rapid rate. Treatment is challenging and the overall outcome remains poor. Available targeted treatments, based on the precision medicine approach, are currently few.

Objective: To provide an overview of the treatment of epileptic encephalopathies with known genetic determinants, including established treatment, anecdotal reports of specific treatment, and potential tailored precision medicine strategies.

Method: Genes known to be associated to epileptic encephalopathy were selected. Genes where the association was uncertain or with no reports of details on treatment, were not included. Although some of the genes included are associated with multiple epilepsy phenotypes or other organ involvement, we have mainly focused on the epileptic encephalopathies and their antiepileptic treatments.

Results: Most epileptic encephalopathies show genotypic and phenotypic heterogeneity. The treatment of seizures is difficult in most cases. The available evidence may provide some guidance for treatment: for example, ACTH seems to be effective in controlling infantile spams in a number of genetic epileptic encephalopathies. There are potentially effective tailored precision medicine strategies available for some of the encephalopathies, and therapies with currently unexplained effectiveness in others.

Conclusions: Understanding the effect of the mutation is crucial for targeted treatment. There is a broad range of disease mechanisms underlying epileptic encephalopathies, and this makes the application of targeted treatments challenging. However, there is evidence that tailored treatment could significantly improve epilepsy treatment and prognosis.

Cardioprotective Utility of Urocortin in Myocardial Ischemia- Reperfusion Injury: Where do We Stand?

Background: There has been a constant pursuit for development of newer therapies which can contribute to the relatively nascent field of cardioprotection in the setting of myocardial ischemiareperfusion injury. One novel cardioprotective agent among others, that has shown promising results in the limited number of research studies undertaken till now, is Urocortin. Urocortins are peptides belonging to the Corticotropin-Releasing Hormone family.

Results: Acting through a variety of downstream mechanisms, urocortin has been shown to alter cellular metabolism and modulate the mechanism of cell death occurring as a result of ischemia-reperfusion injury. New evidence continues to accumulate in support of urocortin’s beneficial role in cytoprotection.

Conclusion: We present here an updated review largely focused on the various mechanisms through which urocortin alters cellular metabolism, and discuss the clinical potential of urocortin’s cardioprotective ability in myocardial ischemia-reperfusion injury.

Clinical Uses of Melatonin in Neurological Diseases and Mental and Behavioural Disorders

Background: Melatonin is a molecule with numerous properties applicable to the treatment of neurological diseases. Among these properties are the following: potent scavenger of oxygen and nitrogen reactive species, anti-inflammatory features, immuno-enhancing nature, and modulation of circadian rhythmicity. Furthermore, low concentrations of melatonin are usually found in patients with neurological diseases and mental disorders. The positive results obtained in experimental models of diverse pathologies, including diseases of the nervous system (e.g., Alzheimer's disease, Parkinson's disease, multiple sclerosis, amyotrophic lateral sclerosis, Huntington's disease, epilepsy, headaches, etc.) as well as mental and behavioural disordes (e.g., autism spectrum disorders, attention-deficit hyperactivity disorders, etc.), have served as a basis for the design of clinical trials to study melatonin's possible usefulness in human pathology, although the satisfactory results obtained from the laboratory “bench” are not always applicable to the patient's “bedside”.

Objective: In this article, we review those papers describing the results of the administration of melatonin to humans for various therapeutic purposes in the field of neuropathology.

Conclusion: Clinical trials with strong methodologies and appropriate doses of melatonin are necessary to support or reject the usefulness of melatonin in neurological diseases.

New Pharmacological Approaches to the Prevention of Myocardial Ischemia- Reperfusion Injury

Background: Early reperfusion of the blocked vessel is critical to restore the blood flow to the ischemic myocardium to salvage myocardial tissue and improve clinical outcome. This reperfusion strategy after a period of ischemia, however, may elicit further myocardial damage named myocardial reperfusion injury. The manifestations of reperfusion injury include arrhythmias, myocardial stunning and micro-vascular dysfunction, in addition to significant cardiomyocyte death. It is suggested that an overproduction of reactive oxygen species, intracellular calcium overload and inflammatory cell infiltration are the most important features of myocardial ischemia-reperfusion injury.

Objective: In this review, various pharmacological interventions to treat myocardial reperfusion injury including the antioxidant flavonols, hydrogen sulfide, adenosine, opioids, incretin-based therapies and cyclosporin A which targets the mitochondrial permeability transition pore are discussed.

Conclusion: The processes involved in reperfusion injury might provide targets for improved outcomes after myocardial infarction but thus far that aim has not been met in the clinic.

Neurological Disorders in Medical Use of Cannabis: An Update

Background & Objective: Medical cannabis is increasingly used as a treatment or adjunct treatment with different levels of efficacy in several neurological disorders or related symptoms (such as multiple sclerosis, autism, Parkinson and Alzheimer disease, Tourette’s syndrome, Huntington’s disease, neuropathic pain, epilepsy, headache), as well as in other medical conditions (e.g. nausea and vomiting, glaucoma, appetite stimulation, cancer, inflammatory conditions, asthma). Nevertheless, a number of neurological adverse effects from use of medical cannabis on the short- and on the longterm have been reported, in addition to other adverse health events.

Conclusion: It has been noticed that the use of medical cannabis can lead to a paradoxical effects depending on the amount of delta-9-tetrahydrocannabinol (THC) -like cannabinoids the preparation contain. Accordingly, some neurological disorders or symptoms (e.g. multiple sclerosis, seizures, epilepsy, headache) may be caused or exacerbated by the same treatment supposed to cure them. The current review presents an update of the neurological adverse effects resulting from the use of cannabis for medical purposes, highlighting the need to weigh the benefits and risks, when using cannabinoidbased treatments.

Neurological Aspects of Medical Use of Cannabidiol

Background: Cannabidiol (CBD) is among the major secondary metabolites of Cannabis devoid of the delta-9-tetra-hydrocannabinol psychoactive effects. It is a resorcinol-based compound with a broad spectrum of potential therapeutic properties, including neuroprotective effects in numerous pathological conditions. CBD neuroprotection is due to its antioxidant and antiinflammatory activities and the modulation of a large number of brain biological targets (receptors, channels) involved in the development and maintenance of neurodegenerative diseases.

Objective: The aim of the present review was to describe the state of art about the pre-clinical research, the potential use and, when existing, the clinical evidence related to CBD in the neurological field.

Method: Collection of all the pre-clinical and clinical findings carried out investigating the effects of CBD alone, not in combination with other substances, in the neurological arena with the exclusion of studies on neuropsychiatric disorders.

Results: Laboratory and clinical studies on the potential role of CBD in Parkinson’s disease (PD), Alzheimer’s disease (AD), multiple sclerosis (MS), Huntington’s disease (HD), amyotrophic lateral sclerosis ALS), cerebral ischemia, were examined.

Conclusion: Pre-clinical evidence largely shows that CBD can produce beneficial effects in AD, PD and MS patients, but its employment for these disorders needs further confirmation from well designed clinical studies. CBD pre-clinical demonstration of antiepileptic activity is supported by recent clinical studies in human epileptic subjects resistant to standard antiepileptic drugs showing its potential use in children and young adults affected by refractory epilepsy. Evidence for use of CBD in PD is still not supported by sufficient data whereas only a few studies including a small number of patients are available.

Challenges with Mosquito-borne Viral Diseases: Outbreak of the Monsters

Background: The viruses responsible for mosquito-borne diseases are on an exploring mode, expanding their horizon, adapting to the situation and comfortably making their presence felt globally, from South Africa to Asia, Europe and United States. The current global scenario and recent documentations indicate towards the real monsters, outbreak of Zika, dengue and chikungunya viruses. Zika, dengue and chikungunya viruses are positive sense single-stranded RNA arbovirus and so their initial symptoms are almost 80% similar and all three are spread by mosquitos which bite during the day. Zika virus may damage brain by targeting the neuron cells in babies, and thereby it is very perilous to pregnant women.

Dangerous Type: A less common but highly dangerous type of dengue is one which causes haemorrhagic fever and shock syndrome which are lethal. Chikungunya is not as lethal as Zika and dengue are, but it triggers joints pain which could last for months and even for years.

Conclusion: The vaccines against Zika, dengue and chikungunya viruses are at different stages of development. The challenges associated with the epidemic wave of Zika, dengue and chikungunya viruses have been explained and the current status of drug/ vaccine development against these viruses has been reviewed.

Status Epilepticus: An Overview

Status epilepticus (SE) is an emergency situation, where immediate and effective treatment is required in least possible time as it is associated with neuronal damage, systemic complications, substantial morbidity and mortality depending on status type, duration, age and etiology. In the past few years, morbidity and mortality rate were improved, probably may be due to aggressive use of anti-epileptic drugs in emergency situations. Present literature gives an overview of the conditions leading to SE and its management guidelines in hospital and out of hospital setting emphasizing on the available drug therapies.

New Molecular Targets of Anticancer Therapy – Current Status and Perspectives

Molecularly targeted anticancer therapy involves the use of drugs or other substances affecting specific molecular targets that play a part in the development, progression and spread of a given neoplasm. By contrast, the majority of classical chemotherapeutics act on all rapidly proliferating cells, both healthy and cancerous ones. Target anticancer drugs are designed to achieve a particular aim and they usually act cytostatically, not cytotoxically like classical chemotherapeutics. At present, more than 300 biological molecular targets have been identified. The proteins involved in cellular metabolism include (among others) receptor proteins, signal transduction proteins, mRNA thread matrix synthesis proteins participating in neoplastic transformation, cell cycle control proteins, functional and structural proteins.

The receptor proteins that are targeted by currently used anticancer drugs comprise the epithelial growth factor receptor (EGFR), platelet-derived growth factor receptor (PDGFR) and vascular endothelial growth factor receptor(VEGFR). Target anticancer drugs may affect extracellular receptor domains (antibodies) or intracellular receptor domains (tyrosine kinase inhibitors).

The blocking of the mRNA thread containing information about the structure of oncogenes (signal transduction proteins) is another molecular target of anticancer drugs. That type of treatment, referred to as antisense therapy, is in clinical trials.

When the synthesis of genetic material is disturbed, in most cases the passage to the next cycle phase is blocked. The key proteins responsible for the blockage are cyclines and cycline- dependent kinases (CDK). Clinical trials are focused on natural and synthetic substances capable of blocking various CDKs.

The paper discusses the molecular targets and chemical structure of target anticancer drugs that have been approved for and currently applied in antineoplastic therapy together with indications and contraindications for their application.

Sodium Channel Blocking Activity and In-vivo Testing of New Phenylimidazole Derivatives

We previously reported the discovery of diphenylimidazoles as potent sodium channel blockers, potentially useful in the treatment of epilepsy. In this work we further explore the structural requirements necessary for the potency of these derivatives with the aim to understand which structural modifications of the original scaffold could be tolerated in order to retain activity. We have synthesized new compounds working on the 2-position of the imidazole ring. First we have introduced a carbonyl spacer, that was subsequently reduced to alcohol. Both carbonyl and alcohol derivatives have been tested for their ability to block NaV1.6 sodium channel subtype in vitro and for their antiepileptic activity in rodent acute seizures models.

Management and Treatment of Dengue and Chikungunya - Natural Products to the Rescue

Neglected tropical diseases (NTDs) flourish mostly in impoverished developing nations of the world. It is estimated that NTDs plague up to 1 billion people every year thereby inducing a massive economic and health burden worldwide. Following explosive outbreaks mostly in Asia, Latin America, Europe and the Indian Ocean, two common NTDs namely, Chikungunya and Dengue both transmitted by an infected mosquito vector principally Aedes aegypti have emerged as a major public health threat. Given the limitations of conventional medicine in specifically targeting the Chikungunya and Dengue virus (CHIKV and DENV), natural products present an interesting avenue to explore in the quest of developing novel anti; mosquito, CHIKV and DENV agents. In this endeavor, a number of plant extracts, isolated phytochemicals, essential oils and seaweeds have shown promising larvicidal and insecticidal activity against some mosquito vectors as well as anti CHIKV and DENV activity invitro. Other natural products that have depicted good potential against these diseases include; the symbiotic bacterial genus Wolbachia which can largely reduce the life span and infectivity of mosquito vectors and the marine Cyanobacterium Trichodesmium erythraeum which has shown anti- CHIKV activity at minimal cytotoxic level. The impetus of modern drug discovery approaches such as high throughput screening, drug repositioning, synthesis and computer-aided drug design will undeniably enhance the process of developing more stable lead molecules from natural products which have shown promising antiviral activity in-vitro.

Prognostic Significance of Asymptomatic Myocardial Ischemia in Women vs. Men

Background: Silent myocardial ischemia is a recognized but suboptimally studied condition in patients with and without known coronary artery disease. Limited work has focused on the association between silent myocardial ischemia and future prognosis however the majority of these analyses have focused mostly on male cohorts. As signs and symptoms of myocardial ischemia are known to be different in women, it is important to discuss and highlight any differences in association between silent myocardial ischemia and adverse cardiovascular outcomes based on gender. Methods: The aim of this review is to summarize the current literature available discussing silent myocardial ischemia and potential gender differences. We searched English language studies on PUBMED and the Cochrane Database of Systematic Reviews from the database start dates to November 2015. Conclusion: As data on the presence of silent myocardial ischemia in women is limited, whether a differential association based on gender between this condition and cardiovascular prognosis remains unknown. Future studies should target women especially those without epicardial coronary disease and suspected coronary microvascular dysfunction.

Neglected Tropical Protozoan Diseases: Drug Repositioning as a Rational Option

Neglected tropical diseases represent a major sanitary problem and a huge economic burden to endemic countries, and are currently expanding to non-endemic countries owing to migration currents. Though long abandoned in the past, recent research on novel therapeutics has already started to show results. Drug repositioning is one of the prominent, more successful strategies to approach the development of new treatments for these diseases. Here we present an overview on the limitations of the current available medications to treat African trypanosomiasis, Chagas disease and Leishmaniasis, along with a review on drug candidates presently undergoing clinical trials and drug candidates identified through drug repositioning initiatives.

HCN Channels Modulators: The Need for Selectivity

Hyperpolarization-activated, cyclic nucleotide-gated (HCN) channels, the molecular correlate of the hyperpolarization-activated current (I_f/I_h), are membrane proteins which play an important role in several physiological processes and various pathological conditions. In the Sino Atrial Node (SAN) HCN4 is the target of ivabradine, a bradycardic agent that is, at the moment, the only drug which specifically blocks If. Nevertheless, several other pharmacological agents have been shown to modulate HCN channels, a property that may contribute to their therapeutic activity and/or to their side effects.

HCN channels are considered potential targets for developing drugs to treat several important pathologies, but a major issue in this field is the discovery of isoform-selective compounds, owing to the wide distribution of these proteins into the central and peripheral nervous systems, heart and other peripheral tissues. This survey is focused on the compounds that have been shown, or have been designed, to interact with HCN channels and on their binding sites, with the aim to summarize current knowledge and possibly to unveil useful information to design new potent and selective modulators.

Chemotherapy Delivery Strategies to the Central Nervous System: neither Optional nor Superfluous

Malignant brain tumors including primary brain tumors (e.g., glioblastoma multiforme) and metastases, are aggressive and lethal entities for the majority of affected patients. Current standard treatments involving combinations of surgery, radiotherapy and systemic chemotherapy offer only modest improvements in survival. Faced with dismal survival, great efforts are deployed to find interesting treatment alternatives. However, the blood-brain barrier (BBB) and the blood-tumor barrier (BTB) remain great obstacles to significant drug delivery to brain tumors. The need to optimize delivery strategies for better patient outcome in the treatment of malignant brain tumors is well acknowledged. Certain interesting strategies use surgical or physical techniques to enhance the distribution of therapeutic agents to the central nervous system. The following strategies will be discussed in this review: intra-arterial delivery, osmotic BBB disruption, intranasal delivery, convection-enhanced delivery and osmotic pumps, implanted polymers, magnetic microspheres and ultrasound BBB disruption. The purpose of this paper is to review the importance of the BBB and the BTB and to review the current status and future perspectives of these delivery procedures.

Atherosclerotic and Non-Atherosclerotic Coronary Heart Disease in Women

Atherosclerotic Coronary heart disease (CHD) and non-atherosclerotic CHD in individuals less than 50 years of age is considered a “men’s case”. Undoubtedly, premenopausal women develop atherosclerotic/non-atherosclerotic CHD relatively rarely compared with men. This is attributed mostly to the cardioprotective role of estrogens (mainly estradiol). Nevertheless, there are predisposing conditions, which also make young women vulnerable to develop atherosclerotic/non-atherosclerotic CHD. Women who have classical cardiovascular (CV) risk factors, such as hypertension, diabetes mellitus, smoking, obesity, and dyslipidaemia, are more likely to develop cardiac events, even at a young age. Moreover, there are also other conditions that cause acute coronary syndromes, even in the absence of coronary atheromatic plaques such as myocardial bridge, coronary artery dissection, coronary artery spasm, coronary artery embolism and congenital anomalies of coronary arteries. Also, autoimmune diseases, some of which are more prevalent in women can cause atherosclerotic/ non-atherosclerotic CHD. In this narrative review we have summarized some of the causes that predispose young women to develop atherosclerotic/non-atherosclerotic CHD.

The Role of Disproportionality Analysis of Pharmacovigilance Databases in Safety Regulatory Actions: a Systematic Review

Introduction: Disproportionality analysis (DA) of adverse drug reactions spontaneous reporting (SR) databases is used to identify signals of disproportionate reporting (SDR). The objective of this study was to identify the generation of SDR in the published literature and whether it led to regulatory action.

Methods: A systematic literature search in MEDLINE and Cochrane Central Register for Controlled Trials (CENTRAL) in a 10-year period, from 2005 to 2014, was conducted, to identify studies designed to detect drug safety signals through the use of disproportionality measures applied to spontaneous reporting databases of adverse drug reactions.

Results: Seventy three studies were included. The number of publications has been rising over the study time period. Forty nine studies focus on drug-event combinations. Large international and smaller national or regional databases were identified. The disproportionality measures applied included frequentist and Bayesian methods and some studies used more than one method. SDRs were identified in more than ninety percent of the studies. Ten studies were found to be confirmatory of previous regulatory decision.

Conclusion: It was not found any safety signal issued by drug regulatory agencies exclusively generated by DA. More research devoted to this issue is needed, since the value of these methods on drug safety signaling and their impact on drug regulation actions remains to be established.

Novel Indications for Benzodiazepine Antagonist Flumazenil in GABA Mediated Pathological Conditions of the Central Nervous System

This review paper discusses the central role of gamma-aminobutyric acid (GABA) in diverse physiological systems and functions and the therapeutic potential of the benzodiazepine antagonist flumazenil (Ro 15- 1788) for a wide range of disorders of the central nervous system (CNS). Our group and others have studied the potential of flumazenil as a treatment for benzodiazepine dependence. A small but growing body of research has indicated that flumazenil may also have clinical application in CNS disorders such as Parkinson’s disease, idiopathic hypersomnia and amyotrophic lateral sclerosis. Despite this body of research the therapeutic potential of flumazenil remains poorly understood and largely unrealized.

The purpose of this paper is not to provide an exhaustive review of all possible therapeutic applications for flumazenil but rather to stimulate research interest, and discussion of the exciting therapeutic potential of this drug for a range of chronic debilitating conditions.

microRNAs: Promising Biomarkers and Therapeutic Targets of Acute Myocardial Ischemia

microRNAs (miRNAs), small non-coding RNA molecules that act as negative regulators of gene expression, are involved in a wide range of biological functions and control several cellular processes. This review illustrates miRNA regulation and function in tissue response to acute ischemia, focusing on miRNA role in acute myocardial infarction and describing a subset of miRNAs de-regulated upon cardiac ischemia. These miRNAs may represent “master ischemic” miRNAs, playing a pathogenetic role in one of the different components of tissue response to ischemia. Moreover, circulating miRNAs correlated to myocardial infarction and examples of miRNA involvement in ischemic diseases different from cardiac ischemia are also discussed. The identification of specific miRNAs as key regulators of cell biology has opened new clinical avenues, and may allow new diagnostic and/or prognostic tools development, as much as innovative therapeutic strategies. Two paradigmatic reports, in which miRNAs have been targeted to improve cardiac function in pre-clinical models of myocardial infarction, are described in detail and confirmed the efficacy of these strategies.

Rat Ultrasonic Vocalizations and Behavioral Neuropharmacology: From the Screening of Drugs to the Study of Disease

Several lines of evidence indicate that rats emit ultrasonic vocalizations (USVs) in response to a wide range of stimuli that are capable of producing either euphoric (positive) or dysphoric (negative) emotional states. On these bases, recordings of USVs are extensively used in preclinical studies of affect, motivation, and social behavior. Rat USVs are sensitive to the effects of certain classes of psychoactive drugs, suggesting that emission of rat USVs can have relevance not only to neurobiology, but also to neuropharmacology and psychopharmacology. This review summarizes three types of rat USVs, namely 40-kHz USVs emitted by pups, 22-kHz USVs and 50-kHz USVs emitted by young and adult animals, and relevance of these vocalizations to neuropharmacological studies. Attention will be focused on the issues of how rat USVs can be used to evaluate the pharmacological properties of different classes of drugs, and how rat USVs can be combined with other behavioral models used in neuropharmacology. The strengths and limitations of experimental paradigms based on the evaluation of rat USVs will also be discussed.

Adverse Drug Reactions Amongst Adult Patients Admitted in Lagos State University Teaching Hospital Lagos, Nigeria

Background: Adverse drug reaction (ADR) is a global drug therapy problem. It has been rated as one of the top leading causes of morbidity and mortality. In Nigeria, not much is known about ADRs especially with the existing weak post marketing surveillance for monitoring drug use, and its effect on the population.

Objectives: The study is aimed at determining the incidence of ADRs, presentations of ADRs, classes of drugs that frequently cause ADRs and predictors of ADRs in adult medical in-patients in LASUTH.

Method: A retrospective study of six hundred and twenty four (624) case notes of all patients admitted to the medical wards in LASUTH between January 1, 2009 and December 31, 2009 was carried out. Information obtained included age, gender, and adverse drug reaction and drug details. The results obtained were analyzed using SPSS version 16 statistical software. Level of significance was set at p ≤ 0.05.

Results: A total of 624 case notes consisting of 358 males and 266 females were assessed. The number of patients who experienced adverse drug reactions was 67 (n = 624, 10.7%). The incidence rate of ADRs in LASUTH from the study was 10.7 per 100 patients’ population. Most of the ADRs observed were type A reactions (97.8%). Mostly implicated classes of drugs were antidiabetics (26.7%) and NSAIDs (29.3%).

Conclusion: The incidence rate of ADRs was 10.7%. ADRs which are predictable and preventable occur in hospitalized patients, such may be prevented or minimized by implementing measures to target specific drugs that are commonly suspected.

Neuroinflammation in Sepsis: Sepsis Associated Delirium

Sepsis-associated delirium (SAD) is a clinical manifestation of the involvement of the central nervous system (CNS) during sepsis. The purpose of this review is to provide a concise overview of SAD including the epidemiology and current diagnostic criteria for SAD. We present in detail the pathophysiology with regards to blood-brain-barrier breakdown, cytokine activation and neurotransmitter deregulation. Treatment and prognosis for SAD are also briefly discussed. SAD is the most common form of delirium acquired in the ICU (Intensive Care Unit), and is described in about 50% of septic patients. Clinical features include altered level of consciousness, reduced attention, change in cognition and perceptual disturbances. Symptoms can reversible, but prolonged deficits can be observed in older patients. Pathophysiology of SAD is poorly understood, but involves microvascular, metabolic and, not least, inflammatory mechanisms leading to CNS dysfunction. These mechanisms can be different in SAD compared to ICU delirium associated with other conditions. SAD is diagnosed clinically using validated tools such as CAM-ICU (Confusion Assessment Method for the Intensive Care Medicine) or ICDSC (The Intensive Care Delirium Screening Checklist), which have good specificity but low sensitivity. Neuroimaging studies and EEG (Electroencephalography) can be useful complement to clinical evaluation to define the severity of the condition. Prompt diagnosis and eradication of septic foci whenever possible is vital. Preventive measures for SAD in the critically ill patient requiring long-term sedation include maintaining light levels of sedation using non-benzodiazepine sedatives (either propofol or dexmedetomidine). Early mobilization of patients in the ICU is also recommended. Antipsychotic drugs (haloperidol and atypical antipsychotics) are widely used to treat SAD, but firm evidence of their efficacy is lacking.

Metabolic Ataxias in Adults

Metabolic ataxias are rare. They usually start in the childhood and often have autosomal recessive inheritance. They may also present in adulthood. The diagnosis is important since some patients may be successfully managed with diet and treatments.

Mitochondrial Diseases in Childhood

Mitochondrial disorders are a group of heterogeneous diseases associated with abnormalities of the oxidative phosphorylation (OXPHOS), the most important source of energy for the cell. The number of mitochondrial syndromes and of identified causative genes is constantly increasing. Taken as a whole they are among the most frequent genetic diseases in humans at any age. The respiratory chain is the only metabolic pathway under double genome control and molecular genetics of these disorders is complicated by the existence of strict interactions between mitochondrial DNA and nuclear DNA. In childhood and infancy, clinical presentation differs from mitochondrial disorders with adult onset. The phenotypes are much more severe, often involving brain, frequently presenting as multisystemic disorders and seldom as isolated myopathy. Mutations in nDNA are more frequent than in adulthood.

The major phenotypes presenting in infancy are here correlated with genetic defects and biochemical data with the aim to facilitate diagnosis work-up.

Emergence of Azole Therapy for Cancer Associated Fungal Infections and Their Potential Human Toxicity

Presently, azoles have emerged as excellent antifungal agents. Their broad-spectrum activity and ability to treat superficial as well as invasive infections have gained them incredible repute in antimicrobial therapy. Azoles inhibit the synthesis of ergosterol in fungi, which is important for maintaining the cell wall. This review briefly portrays the relevance of azoles in treating cancer linked fungal infections like candidiasis and aspergillosis. First generation azoles like itraconazole and fluconazole are preferred over other drugs like amphotericin B. Newer azoles (triazoles like voriconazole, posaconazole and ravuconazole) have been synthesized to oust the earlier varieties by being more potent and active against resistant organisms. Patients with lymphoma or leukemia undergoing chemotherapy or stem cell transplantation have weak immune status which makes them susceptible hosts of fungal infections. Azoles are used currently for antitumor therapy because of their specificity towards human cytochrome P-450 dependent enzymes which synthesize cholesterol. This review also attempts to point out how their applications in prostate cancer and breast cancer therapy are indispensable. But along with its advantages, it is necessary to look into the sinister role it plays in creating toxic side effects for patients. Disruption of the endocrine functioning and hepatotoxicity result in manifestations like vomiting, nausea and fatigue. Even though these complications are reversible, the full-fledged practicability of these drugs in cancer treatment is yet to be considered.

Myocardial Ischemia/Reperfusion Injury: Potential of TRPV1 Agonists as Cardioprotective Agents

Myocardial Ischemia/Reperfusion (I/R) induced injury has widespread detrimental effects partially negating the benefits obtained from early revascularization in Acute Myocardial Infarction. Various complex mechanisms contribute to I/R injury and different agents targeting those specific mechanisms are being studied. Despite continued research and widespread interest, none of them have become incorporated into everyday practice. The TRPV1 (transient receptor potential vanilloid 1) channel is a non selective cation channel predominantly expressed in sensory neurons with the nerve fibers innervating the heart and blood vessels. Multiple studies have demonstrated the importance of the activation of TRPV1 and subsequent release of sensory neurotransmitters in cardioprotection. This review focuses on the role of TRPV1 in prevention of cardiac I/R injury, the work that has been done so far and future implications for TRPV1 agonists as cardioprotective agents.

Pathophysiogenesis of Mesial Temporal Lobe Epilepsy: Is Prevention of Damage Antiepileptogenic?

Temporal lobe epilepsy (TLE) is frequently associated with hippocampal sclerosis, possibly caused by a primary brain injury that occurred a long time before the appearance of neurological symptoms. This type of epilepsy is characterized by refractoriness to drug treatment, so to require surgical resection of mesial temporal regions involved in seizure onset. Even this last therapeutic approach may fail in giving relief to patients. Although prevention of hippocampal damage and epileptogenesis after a primary event could be a key innovative approach to TLE, the lack of clear data on the pathophysiological mechanisms leading to TLE does not allow any rational therapy. Here we address the current knowledge on mechanisms supposed to be involved in epileptogenesis, as well as on the possible innovative treatments that may lead to a preventive approach. Besides loss of principal neurons and of specific interneurons, network rearrangement caused by axonal sprouting and neurogenesis are well known phenomena that are integrated by changes in receptor and channel functioning and modifications in other cellular components. In particular, a growing body of evidence from the study of animal models suggests that disruption of vascular and astrocytic components of the blood-brain barrier takes place in injured brain regions such as the hippocampus and piriform cortex. These events may be counteracted by drugs able to prevent damage to the vascular component, as in the case of the growth hormone secretagogue ghrelin and its analogues. A thoroughly investigation on these new pharmacological tools may lead to design effective preventive therapies.

Models in Research of Pharmacoresistant Epilepsy: Present and Future in Development of Antiepileptic Drugs

Currently available antiepileptic drugs (AEDs) were developed to suppress seizure activity but less for prevention of epileptogenesis or for treatment of epileptogenic encephalopathies. Despite considerable efforts towards pharmacological control of seizures, about 30 % of epileptic patients do not achieve complete seizure control, and these numbers are even higher in patients suffering from partial seizures - a common form of epilepsy in adults. The mechanisms behind drug-resistance are far from being understood. Likely several unrelated mechanisms might lead in concert to reduced efficacy of the AEDs. Consequently, there is a need for predictive biomarkers of susceptibility to pharmacoresistant seizures and for new therapies interfering with epileptogenesis and preventing development of drug-resistance instead of merely suppressing seizures. This also necessitates the design of novel in vitro and in vivo epilepsy models that would better mimic the progressive nature of epilepsy and resemble the state of a chronic epileptic tissue. In this review we discuss current theories of drug-resistance and give a short summary of the epilepsy models that are frequently used for testing AEDs. We will also highlight caveats of the different models and consider novel approaches to overcome these difficulties. Finally we give a short outlook on unconventional therapies interfering with epileptogenesis as well as with drug delivery and retention.

Pertussis Vaccines: State-of-the-Art and Future Trends

Bordetella pertussis is the causative agent of whooping cough (pertussis) which is a worldwide vaccine preventable acute respiratory illness that predominantly involves infants. The reactogenicity of whole-cell (Pw) vaccines and the difficulty of their consistent production have led to the development of acellular pertussis (Pa) vaccines. However, despite high vaccination coverage using either Pw or Pa and introduction of adolescent and adult vaccines with reduced antigen content, there are still reports about the circulation of the microorganism in populations, morbidity in infants and increasing incidence of pertussis among adolescent and adults who transmit the infection to yet unimmunized infants. Waning vaccine-induced immunity and antigenic divergence in circulating strains seem to be the major problems accounting for resurgence of pertussis. Considering the need for new vaccination strategies, improvement of current Pa vaccines by including new virulence factors would probably be the most rationale strategy. Recent advances in B. pertussis proteomics, subproteomics and immunoproteomics greatly aided in identifying novel antigens of the pathogen. Future studies involving quantitative transcriptomic and proteomic profiling of host-B. pertussis interactions, studying gene expression in vivo and reverse vaccinology will also be very promising approaches and tools to develop pertussis vaccines inducing long term immunity.

Inflammatory Mediators in Epilepsy

All common contributing factors to epilepsy such as trauma, malignancies and infections are accompanied by different levels of central nervous system inflammation that in turn have been associated with the occurrence of seizure. Emerging data from human brain tissue and experimental models of epilepsy support the proposed involvement of inflammation in epilepsy. Key mediators of this process include, among others: interleukin (IL) -1β, IL-6, tumor necrosis factor-α, adhesion molecules and component of complement. Recent advances suggest the involvement of specific inflammatory pathways in the pathogenesis of seizures in patients with pharmacoresistant temporal lobe epilepsy, highlighting the potential for new therapeutic strategies. This review provides an overview of the current knowledge on the relationship between inflammatory mediators and epilepsy. We also describe experimental and clinical evidence of inflammation in epilepsy with special emphasis on clinical aspects once the epileptogenic focus has been resected. Further insight into the complex role of inflammation in epileptogenesis may provide new treatment options.

Towards a Personalised Approach to Managing Influenza Infections in Infants and Children – Food for Thought and a Note on Oseltamivir

Acute respiratory infections represent common diseases in childhood and a challenge to infection control, public heath, and the clinical management of patients and their families. Children are avid spreaders of respiratory viruses, and seasonal outbreaks of influenza create additional disease burden and healthcare cost. Infants under the age of two and children with chronic conditions are at high risk. The absence of pre-defined risk factors however, does not protect from serious disease. Immunisation rates remain low, and physical interventions are of limited value in young children. Children with influenza may be contagious prior to the onset of symptoms, and school closures have been shown to have a temporary effect at most. The timely detection of influenza in at-risk patients is important to prevent hospital-based transmission and influenza-associated morbidity and mortality. Guidelines issued by professional associations and public health agencies need to be translated into everyday clinical practice. Antiviral therapy should be initiated early and monitored closely, including virologic and clinical outcomes. The duration of treatment and the decision to readmit children to schools and kindergartens should be adjusted to the individual child patient using evidence-based clinical and virologic criteria. This article presents lessons learnt from a quality management program for infants and children with influenzalike illness at the Charite Department of Paediatrics in collaboration with the National Reference Centre for Influenza at the Robert Koch Institute, in Berlin, Germany. The Charité Influenza-Like Disease (ChILD) Cohort was established during the 2009 influenza pandemic and encompasses nearly 4000 disease episodes to date.

Catatonia, Malignant Catatonia, and Neuroleptic Malignant Syndrome

Malignant catatonia (MC) represents a life-threatening neuropsychiatric disorder that was widely reported long before the introduction of antipsychotic drugs. A review of the world literature on MC indicates that although the prevalence of the condition may have declined since the pre-antipsychotic drug era, it continues to occur and represents a syndrome rather than a specific disease. Although most often the outgrowth of a psychiatric disorder, MC may develop in association with diverse neurologic and medical conditions. From this perspective, neuroleptic malignant syndrome (NMS) may be viewed as a drug-related form of this same MC syndrome. Our review also supports the proposed conceptualization of catatonia as a continuum, with milder forms at one end (termed simple or nonmalignant catatonia) and more severe forms involving hyperthermia and autonomic dysfunction (termed malignant catatonia) at the other end. In addition, findings from our review suggest that simple catatonia, MC and NMS share a common pathophysiology involving reduced dopaminergic functioning in the basal ganglia-thalamocortical circuits, consistent with their identity as variants of the larger unitary catatonic syndrome. Electroconvulsive therapy appears to represent the preferred treatment for MC. Antipsychotic drugs should be withheld whenever MC is suspected.

Anti-Seizure Medications and Estradiol for Neuroprotection in Epilepsy: The 2013 Update

Current epilepsy therapy is still symptomatic using anti-seizure, rather than anti-epileptic, medications. This therapy may control the seizure activity but does not prevent or even cure epilepsy. Treatment strategies that could interfere with the process leading to epilepsy (epileptogenesis) would have significant benefits over the current approaches. Neuronal damage contributing to remodeling of the neuronal networks (such as in the hippocampus during temporal lobe epilepsy) is one of the significant components of ongoing epileptogenesis. Thus, treatment strategies alleviating seizureinduced neuronal damage and network reorganization may become powerful tools fighting the deteriorating process of epileptogenesis. Current anti-seizure medications, especially valproic acid, have some neuroprotective potential. Similarly, there is some hope of neuroprotection with newer anti-seizure drugs such as retigabine and levetiracetam. However, the neuroprotective potential of anti-seizure medications is frequently weak or masked by negative side effects associated with long-term treatment, therefore exceeding the benefits.. Thus, the attention is shifted to different compounds with already established neuroprotective potential. Among steroid hormones under investigation, two groups appear interesting: β-estradiol and selective estrogen receptor modulators – SERM. In low doses, β-estradiol has neuroprotective potency in neurodegenerative diseases. However, its use for seizure-induced neuroprotection is confounded by a common perception of proconvulsant features of estrogens. Here we review that both features, effects on neuronal excitability and neuroprotection, apply under specific conditions and may be separated by individualized therapy taking into account the dosage paradigm, timing, sex and age of the subjects and their gonadal hormone status (including progesterone: opposed vs. unopposed estrogen). Several studies have demonstrated that β-estradiol has indeed potency to protect neurons from seizureinduced damage. Additional studies are required to determine exact mechanisms of β-estradiol and SERMs in seizureinduced neuroprotection for truly individualized and effective therapy. The article presents some promising patents on anti-seizure medications.

Modulation of Immunity and the Inflammatory Response: A New Target for Treating Drug-resistant Epilepsy

Until recently, epilepsy medical therapy is usually limited to anti-epileptic drugs (AEDs). However, approximately 1/3 of epilepsy patients, described as drug-resistant epilepsy (DRE) patients, still suffer from continuous frequent seizures despite receiving adequate AEDs treatment of sufficient duration. More recently, with the remarkable progress of immunology, immunity and inflammation are considered to be key elements of the pathobiology of epilepsy. Activation of inflammatory processes in brain tissue has been observed in both experimental seizure animal models and epilepsy patients. Anti-inflammatory and immunotherapies also showed significant anticonvulsant properties both in clinical and in experimental settings. The above emerging evidence indicates that modulation of immunity and inflammatory processes could serve as novel specific targets to achieve potential anticonvulsant effects for the patients with epilepsy, especially DRE. Herein we review the recent evidence supporting the role of inflammation in the development and perpetuation of seizures, and also discuss the recent achievements in modulation of inflammation and immunotherapy applied to the treatment of epilepsy. Apart from medical therapy, we also discuss the influences of surgery, ketogenic diet, and electroconvulsive therapy on immunity and inflammation in DRE patients. Taken together, a promising perspective is suggested for future immunomodulatory therapies in the treatment of patients with DRE.

MMP-9 Inhibitors in the Brain: Can Old Bullets Shoot New Targets?

Matrix metalloproteinases (MMPs) are either secreted or membrane-bound proteases, capable to degrade extracellular matrix (ECM) proteins as well as a large number of non-ECM proteins, such as growth factors, cytokines, chemokines, cell surface receptors, serine proteinase inhibitors and other MMPs. MMPs play major physiological roles in reproduction, growth, development, angiogenesis, immune response, wound healing and brain physiology. MMPs, and especially MMP-2 and -9 were considered to be targets for drug development (especially in oncology) and over fifty MMP inhibitors have been pursued in clinical trials that, however, failed mainly for the reason of insufficient knowledge about complexity of the biology. Recent studies implicating MMP-9 in aberrant synaptic plasticity underlying neuropsychiatric disorders, as well as in aggravating detrimental effects of the brain stroke, appear to offer a new hope for application of MMP inhibitors in treatment of those conditions.

The Role of Reactive Species in Epileptogenesis and Influence of Antiepileptic Drug Therapy on Oxidative Stress

Epilepsy is considered one of the most common neurological disorders. The focus of this review is the acquired form of epilepsy, with the development process consisting of three major phases, the acute injury phase, the latency epileptogenesis phase, and the phase of spontaneous recurrent seizures. Nowadays, an increasing attention is paid to the possible interrelationship between oxidative stress resulting in disturbance of physiological signalling roles of calcium and free radicals in neuronal cells and mitochondrial dysfunction, cell damage, and epilepsy. The positive stimulation of mitochondrial calcium signals by reactive oxygen species and increased reactive oxygen species generation resulting from increased mitochondrial calcium can lead to a positive feedback loop. We propose that calcium can pose both, physiological and pathological effects of mitochondrial function, which can lead in neuronal cell death and consequent epileptic seizures. Various antiepileptic drugs may impair the endogenous antioxidative ability to prevent oxidative stress. Therefore, some antiepileptic drugs, especially from the older generation, may trigger oxygen-dependent tissue injury. The prooxidative effects of these antiepileptic drugs might lead to enhancement of seizure activity, resulting in loss of their efficacy or apparent functional tolerance and undesired adverse effects. Additionally, various reactive metabolites of antiepileptic drugs are capable of covalent binding to macromolecules which may lead to deterioration of the epileptic seizures and systemic toxicity. Since neuronal loss seems to be one of the major neurobiological abnormalities in the epileptic brain, the ability of antioxidants to attenuate seizure generation and the accompanying changes in oxidative burden, further support an important role of antioxidants as having a putative antiepileptic potential.

Toxicity by NSAIDs. Counteraction by Stable Gastric Pentadecapeptide BPC 157

Stable gastric pentadecapeptide BPC 157 is an anti-ulcer peptidergic agent, proven in clinical trials to be both safe in inflammatory bowel disease (PL-10, PLD-116, PL 14736) and wound healing, stable in human gastric juice, with no toxicity being reported. Recently, we claim that BPC 157 may be used as an antidote against NSAIDs. We focused on BPC 157 beneficial effects on stomach, duodenum, intestine, liver and brain injuries, adjuvant arthritis, pain, hyper/hypothermia, obstructive thrombus formation and thrombolysis, blood vessel function, counteraction of prolonged bleeding and thrombocytopenia after application of various anticoagulants and antiplatelet agents and wound healing improvement. The arguments for BPC 157 antidote activity (i.e., the role of BPC 157 in cytoprotection, being a novel mediator of Robert’s cytoprotection and BPC 157 beneficial effects on NSAIDs mediated lesions in the gastrointestinal tract, liver and brain and finally, counteraction of aspirin-induced prolonged bleeding and thrombocytopenia) obviously have a counteracting effect on several established side-effects of NSAIDs use. The mentioned variety of the beneficial effects portrayed by BPC 157 may well be a foundation for establishing BPC 157 as a NSAIDs antidote since no other single agent has portrayed a similar array of effects. Unlike NSAIDs, a very high safety (no reported toxicity (LD1 could be not achieved)) profile is reported for BPC 157. Also, unlike the different dosage levels of aspirin, as a NSAIDs prototype, which differ by a factor of about ten, all these beneficial and counteracting effects of BPC 157 were obtained using the equipotent dosage (μg, ng/kg) in parenteral or peroral regimens.

Viral Encephalitis: Current Treatments and Future Perspectives

Several viruses may cause central nervous system infections that lead to a broad range of clinical manifestations. The course of the viral encephalitis can be acute, sub acute, or chronic. Some viruses have the ability to enter into the brain and cause direct injury, while others activate inflammatory cells that attack the central nervous system (CNS) secondarily. Some types of viral encephalitis occur in previously healthy individuals, while others affect immunocompromised patients. The epidemiology of viral encephalitis has undergone changes in recent years. Factors such as evolving lifestyles and ecological changes have had a considerable impact on the epidemiology of some types of viral encephalitis. The result is a change in the etiology spectrum of viral encephalitis, with new types of encephalitis arising or returning from time to time. Many scientific achievements in neuroimaging, molecular diagnosis, antiviral therapy, immunomodulatory treatments, and neurointensive care have allowed more precise and earlier diagnoses and more efficient treatments, resulting in improved outcomes. Despite these advances, there is still considerable morbidity and mortality related to these disorders. This aim of this article is to review the current knowledge of the current drugs used in the management of the most important viral encephalitis, focusing on the mechanisms of action, efficacy, and side effects of the drugs. In addition, future perspectives in this area will be addressed. Despite the technological advances, much effort has yet to be undertaken to reduce the impact of these potentially devastating diseases.

Microarray Studies in Understanding the Mechanism of Action of Antiepileptic Drugs

In the present review we integrated findings from microarray analyses of anticonvulsant treatment, discussing the replicability of the findings and their corroboration with data obtained from patients and with information from other fields of study. We further relate to the duality of several antiepileptic drugs exhibiting both anticonvulsant and moodstabilizing effects in the treatment of epilepsy and bipolar disorder, respectively.

Perspectives on the Development of Antioxidant Antiepileptogenic Agents

Epilepsy is a chronic disorder of abnormal electrical activity in the brain characterized by recurrent unprovoked seizures. Currently used pharmaceutical agents do not treat the underlying disease process, and a significant proportion of epileptic patients are refractory to current therapies. Therefore there is a strong need for additional therapeutic agents, especially those that address the underlying disease process of epileptogenesis. The redox potential of cells is maintained by an appropriate balance between pro- and anti-oxidative molecules; oxidative stress and increases in toxic reactive oxygen species occur when this balance shifts towards oxidation. Neural tissues are especially sensitive to oxygen levels, and oxidative stress is thought to be involved in epileptogenesis. Increases in reactive oxygen species occur in response to sustained neuronal electrical activity and seizures. Therefore antioxidants have been suggested as therapeutic design strategies for the treatment and modulation of epilepsy. This minireview focuses on several key antioxidants and agents involved in defending against oxidative stress that may be targets for new antiepileptogenic drug design, including directacting antioxidants, Nrf2-activating agents, and prolyl-4-hydroxylase inhibitors. A description of the necessary physicochemical properties and a summary of animal models that are thought to be useful for developing antiepileptogenic agents are presented.

The Role of Microglial Cells on Neuroinflammation: Possible Therapeutic Applications

Microglial cells are tissue macrophages of the central nervous system, with important role in surveillance and in the clearance of dead cells and extracellular matrix. Despite their role in the homeostasis of the central nervous system, microglial cells have also been correlated to several pathological findings, such as those observed in Multiple Sclerosis, Alzheimer disease, stroke and many others. Microglia are able to secrete several pro-inflammatory molecules which may greatly account for the establishment of focal lesions. On the other hand, these cells may also express molecules with suppressive characteristics, as TGF-β, IL-10 and IDO. This raises the idea that microglia may also exert immunomodulatory functions as an attempt to dampen central nervous system inflammation. We review some aspects of microglial biology, such as ontogeny, phenotype, gene transcription and specially its role in several different neurological inflammatory diseases. This review discusses patents of several pharmaceutical compounds with actions on microglial cells which have the aim of controlling neuroinflammation. Some patents are about new pharmaceutical compounds that are not in clinical use while others propose new applications for drugs already use in clinical practice. Finally, some patents focus on cell therapy and new routes for drugs application.

Antiplatelet Therapy in Children: Why So Different from Adults’?

Antiplatelet agents are administered in the treatment of a large number of adult diseases: coronary heart disease, ischemic stroke, peripheral arterial disease, arrhythmias with their thromboembolic complications, primary and secondary prevention.

In childhood however, the situation is substantially different. The lack of large interventional trials on the use of antiplatelet drugs in children, has led to greater uncertainty, and a less extensive use of these drugs, limited to fewer indications.

The purpose of this article was to review the studies conducted to date on the use of antiplatelet agents in children. A concerted effort has been made to identify which are the shared therapeutic indications of this class of compounds, the recommended dose, the contraindications and the possible side effects. In brief, an attempt has been made to ascertain the interesting potential of these drugs which are so often neglected in children.

Neuroprotection and Hypothermia in Infants and Children

Brain injury is the leading cause of death in pediatric ICU. Current evidence supports the use of therapeutic hypothermia (TH) in unconscious patients after out-of-hospital cardiac arrest when the initial heart rhythm was ventricular fibrillation. TH has been proved to be also beneficial in term neonates after hypoxic–ischemic encephalopathy (HIE) and in children with traumatic brain injury (TBI). Recent reports have also investigated TH for the treatment of superrefractory status epilepticus. The clinical application of TH is based on the possibility to inhibit or lessen a myriad of destructive processes (including excitotoxicty, neuroinflammation, apoptosis, free radical production, seizure activity, blood– brain barrier disruption, blood vessel leakage) that take place in the injured tissue following ischemia–reperfusion. TH may also represent a useful tool when conventional therapy fails to achieve an effective control of elevated intracranial pressure. This review is aimed to provide an update of the available literature concerning this intriguing topic.

Severe Influenza: Clinical Features and Treatment Options

The first influenza pandemic in over 40 years was caused by a novel influenza A strain, A(H1N1)pdm09. Fortunately, most of those infected suffered mild disease. However, a significant minority of young adults and children exhibited severe illness, sometimes resulting in respiratory failure and even death. In the UK, A(H1N1)pdm09 influenza also caused a large disease burden the post-pandemic winter of 2010/11, stretching some healthcare resources to the limit. Although some pre-existing conditions increased the risk of severe disease, pregnant women and those with no underlying health problems contributed substantially to the total number of hospitalisations. Why outcomes of infection vary so widely is unknown and optimal personalised treatment strategies are yet to be developed. In this review, we give an overview of A(H1N1)pdm09 influenza in adults and the evidence supporting pharmacological interventions, with a focus on the use of antiviral agents.

Sodium Channel Blockers as Therapeutic Target for Treating Epilepsy: Recent Updates

The voltage-gated sodium channels (VGSCs) are a family of membrane proteins forming a pore, through which they selectively conduct sodium ions inward and outward cell’s plasma membranes in response to variations of membrane potentials, playing a fundamental role in controlling cellular excitability. Growing evidences suggest that abnormal VGSCs are involved in the pathophysiology of both acquired and inherited epilepsy. Approximately two dozen drugs are currently marketed for the treatment of epilepsy and most of them act as sodium channel blockers, preventing the return of the channels to the active state by stabilizing the inactive form. Despite the many drugs on the market, 30% of patients continue to experience seizures even in the presence of optimal doses of AEDs, while others continue to suffer from medication induced side effects. Thus, there is a great need to continue the search for new AEDs that are not only more effective, but also have a better side effects profile. For this reason, many efforts have been made in the recent years to identify new sodium channel blockers for the treatment of epilepsy. These studies have led to different classes of compounds, characterized by a great structural diversity. The aim of this review is to provide an introduction on the structure and function of the sodium channels, followed by a brief historical perspective on the sodium channel blockers in use as anticonvulsant drugs. Moreover, it will focus on the medicinal chemistry of the sodium channel blockers recently published (2008-2011) and the drug design/molecular modeling studies related to the receptor.

Clinical Use of Rituximab in Patients with HIV Related Lymphoma and Multicentric Castlemans Disease

The use of immunotherapy in the treatment of non-Hodgkin lymphomas has improved response rates and survival in this population. With widespread rituximab use and longer-term follow-up of patients receiving rituximab, infectious complications are increasing. These complications are of great concern in the AIDS-related lymphoma population. We review the data on activity and infectious toxicity of rituximab to date and as it pertains to the treatment of AIDSrelated non-Hodgkin lymphoma and Multicentric Castlemans disease.

Arboviral Encephalitis and RNAi Treatment

Encephalitis refers to an acute, usually diffuse, inflammatory process affecting the brain. The clinical hallmark of acute encephalitis is the triad of fever, headache, and altered mental status. The most common and important cause of encephalitis is the infection by a virus although other organisms can cause the disease. This article is a general overview of the most common viral encephalitides, divided into two families, Flavivirus and Alphavirus, and provides details about virus and RNA interference. More detailed descriptions of each viral family are provided bellow.

Clinical and Electroencephalographic Assessment of Cefepime During Treatment of Nosocomial Infections in Neurological Patients

Objective: Cefepime neurotoxicity usually occurs in patients with renal impairment. The aim of this study was to evaluate the neurotoxicity of cefepime administered by continuous intravenous infusion during treatment of nosocomial infections in neurological patients with normal renal function. Methods: This was an open pilot study of neurological patients with infections caused by cefepime sensitive bacteria. Patients had baseline neurological assessment and electroencephalogram (EEG). Cefepime plasma concentrations were determined 48 hours after infusion was initiated and at end of treatment (EOT). Results: Eleven patients were included. These were diagnosed with a brain tumor (9), cerebrovascular disease (1) and polyneuropathy (1). Infections were surgical site infection in 5, clinically defined nosocomial pneumonia in 4, and bacterial meningitis associated to postoperative CSF fistula in 2. Gram-negative organisms were isolated in 10 patients. Cefepime dose was 2 g/day in 9 patients and 4 g/day in 2. Mean cefepime plasma concentration at 48h was 13.6 ± 2.0 µg/mL (range 4.6 to 24.5 µg/mL), at EOT was 11.9 ± 1.8 µg/mL (range 3.0 to18.9 µg/mL ). EEG interpreted by two experts showed at baseline alpha background rhythm in 5 and theta-alpha rhythm in 6 patients. On EEG at EOT background rhythm was alpha in 4 and theta-alpha in 7, one patient presented isolated sharp and slow wave activity. No mental status changes or seizures occurred and all infections resolved. Conclusion: Significant EEG change was observed in 1of 11 patients. A preserved mental status may correlate with cefepime safety in neurological patients with normal renal function during cefepime treatment.

Laboratory Techniques for Human Viral Encephalitis Diagnosis

Encephalitis is an inflammatory process involving the parenchyma of the brain. It typically presents as a clinical syndrome characterised by fever, headache and altered conscious level, often with focal neurological deficits and fits. The clinical presentation overlaps with other diseases of the central nervous system including viral and bacterial meningitis, and brain abscess. The causes of encephalitis are legion, and include principally viral but also bacterial, parasitic and fungal pathogens. Noninfectious aetiologies, especially autoimmune conditions such as potassium channel voltage gated antibodies and anti-NDMA receptor antibodies, are increasingly recognised. Diagnosis comes from clinical examination, neuroimaging and laboratory testing. With such a wide range of potential pathogens a syndromic approach to diagnosis is preferred, testing for a range of organisms. Traditional techniques such as cell culture and direct virus antigen detection have little or no role nowadays. Laboratory diagnosis of viral encephalitis is ideally based on examination of cerebrospinal fluid (CSF) for cells, protein and glucose, followed by nucleic acid amplification tests (NAAT) such as polymerase chain reaction (PCR) for a range of viral targets. Samples other than CSF sometimes give a definitive or probable aetiological diagnosis; examples include skin biopsy in rabies, and serum NAAT and antibody tests for some arboviruses and enteroviruses. Newer approaches to amplification and to multitarget detection are becoming increasingly important. Detection of intrathecal antibody production against specific viruses retains a place in diagnosis where NAAT is negative. Some of the laboratory techniques available will be discussed in this article.

Pathogens and Chronic or Long-Term Neurologic Disorders

Infections of the central nervous system may provoke glial and autoimmune responses but a definitive linkage between these infections and the pathogenesis of chronic neurologic disorders is still elusive. There are controversial reports implicating infectious agents in the pathogenetic mechanisms of chronic or long-term neurologic disorders, such as multiple sclerosis, amyotrophic lateral sclerosis, Parkinsons disease, Alzheimers disease and autistic spectrum disorders, but the specific role of bacterial or viral infections in the pathogenesis of these medical entities has not been fully elucidated. Up till now, the evidence is distant from definite, but certain cases may be attributed to infections in the millieu of multiple toxic events such as trauma, nutritional deficits, immune dysregulation and excitotoxicity in genetically vulnerable indiniduals. There is an ongoing debate concering the direct involvement of various infectious agents in the neurodegenerative and neurobehavioral diseases pathogenesis and/or their contribution to the deterioration of the disease or co-morbidity in these patients. These patients are exceptionally difficult to be treated by using single therapeutic modalities, because their disese is multifocal and treatment is aimed to control signs and symptoms rather than the true causes of the disease and its progressive course. Furthermore, even if these causative links were indetifiable, our therapeutic interventions would come too late due to the irreversible damages at the time of the initiation of treatment. Our aim is to comprehensively review all available data suggesting that infections could be common antecedent events of progressive neurologic degenerative or behavioural diseases.

Etiopathogenesis, Classical Immunotherapy and Innovative Nanotherapeutics for Inflammatory Neurological Disorders

Central nervous system (CNS) inflammation and neurological diseases are clinical conditions requiring a multifaceted spectrum of immunotherapies. The present paper reviews the etiopathogeny of demyelinating diseases located in the CNS (e.g., multiple sclerosis, acute disseminated encephalomyelitis, and neuromyelitis optica), and in the peripheral nervous system (e.g., acute/chronic idiophathic inflammatory polyradiculoneuritis, and other dysimmune neuropathies). The pharmacological treatments here discussed include non-specific strategies (e.g., glucocorticoids, intravenous immunoglobulin) and others more specific, such as human IFNβ, glatiramer acetate, mitoxantrone, monoclonal antibodies, fingolimod, laquinimod, cladribine, fumarate, teriflunomide. The immunotherapies are described in terms of their specific and/or multiple activity in the disease stage of development (i.e., initiation, central/peripheral activation, molecular stimulation and immune effector responses during early, transitional and late phases). In the light of the current pharmacological treatments, novel site specific approaches using nanoparticles are briefly addressed.

Brief Hyperthermia Does not Worsen Outcome after Striatal Hemorrhage in Rats

Hyperthermia accelerates and increases ischemic brain damage. Owing to overlapping mechanisms of injury, many assume that hyperthermia also worsens outcome after intracerebral hemorrhage (ICH). However, clinical data do not conclusively prove this, and there is only one animal study examining the impact of hyperthermia. In that study (MacLellan and Colbourne, 2005), several hyperthermia protocols were administered after collagenase-induced ICH in rats; none worsened injury. While the collagenase model is widely used, it differs in important ways from another common model – injecting autologous blood directly into the brain. Thus, we evaluated the impact of immediate hyperthermia (HYP, 39 °C for 3 hr) after a 100-μL infusion of blood into the striatum of rats. This treatment, which markedly increases ischemic damage, was compared to control rats kept normothermic (NOR, 37 °C). Three separate experiments were done to measure: 1) edema at 24 hr, 2) edema at 72 hr, and 3) behavioral impairment and lesion size out to 1 month post-ICH. The HYP treatment did not significantly affect edema at 24 hr, but surprisingly, it modestly reduced edema at 72 hr and partly improved behavioral outcome. However, there were no lasting effects of HYP on behavior (e.g., skilled reaching) or the volume of tissue lost (NOR: 14.0 mm3 vs. HYP: 14.5 mm3). In summary, our findings do not support the common belief that hyperthermia worsens outcome after ICH. Additional research is needed to determine whether more severe or prolonged heating or fever and its cause (e.g., infection) affect morbidity and mortality after ICH.

Approaches to Minimize Infection Risk in Blood Banking and Transfusion Practice

The use of blood donor history and state-of-the-art FDA-licensed serological and nucleic acid testing (NAT) assays have greatly reduced the “infectious window” for several transfusion-transmitted pathogens. Currently transmission of human immunodeficiency virus (HIV), Human T-cell Lymphotropic Virus (HTLV), hepatitis viruses and West Nile Virus are rare events. The seroprevalence of cytomegalovirus in the donor population is high and cytomegalovirus infection can cause significant complications for immunocompromised recipients of blood transfusion. Careful use of CMV seronegative blood resources and leukoreduction of blood products are able to prevent most CMV infections in these patients. Currently, bacterial contamination of platelet concentrates is the greatest remaining infectious disease risk in blood transfusion. Specialized donor collection procedures reduce the risk of bacterial contamination of blood products; blood culture and surrogate testing procedures are used to detect potential bacterially contaminated platelet products prior to transfusion. A rapid quantitative immunoassay is now available to test for the presence of lipotechoic acid and lipopolysaccharide bacterial products prior to platelet transfusion. Attention has now turned to emerging infectious diseases including variant Creutzfeldt-Jakob disease, dengue, babesiosis, Chagas disease and malaria. Challenges are presented to identify and prevent transmission of these agents. Several methods are being used or in development to reduce infectivity of blood products, including solvent-detergent processing of plasma and nucleic acid cross-linking via photochemical reactions with methylene blue, riboflavin, psoralen and alkylating agents. Several opportunities exist to further improve blood safety through advances in infectious disease screening and pathogen inactivation methods.

Melatonin-mitochondria Interplay in Health and Disease

Although two main hypotheses of mitochondrial origin have been proposed, i.e., the autogenous and the endosymbiotic, only the second is being seriously considered currently. The ‘hydrogen hypothesis’ invokes metabolic symbiosis as the driving force for a symbiotic association between an anaerobic, strictly hydrogen-dependent (the host) and an eubacterium (the symbiont) that was able to respire, but which generated molecular hydrogen as an end product of anaerobic metabolism. The resulting proto-eukaryotic cell would have acquired the essentials of eukaryotic energy metabolism, evolving not only aerobic respiration, but also the physiological cost of the oxygen consumption, i.e., generation of reactive oxygen species (ROS) and the associated oxidative damage. This is not the only price to pay for respiring oxygen: mitochondria possess nitric oxide (NO • ) for regulatory purposes but, in some instances it may react with superoxide anion radical to produce the toxic reactive nitrogen species (RNS), i.e. peroxynitrite anion, and the subsequent nitrosative damage. New mitochondria contain their own genome with a modified genetic code that is highly conserved among mammals. The transcription of certain mitochondrial genes may depend on the redox potential of the mitochondrial membrane. Mitochondria are related to the life and death of cells. They are involved in energy production and conservation, having an uncoupling mechanism to produce heat instead of ATP, but they are also involved in programmed cell death. Increasing evidence suggest the participation of mitochondria in neurodegenerative and neuromuscular diseases involving alterations in both nuclear (nDNA) and mitochondrial (mtDNA) DNA. Melatonin is a known powerful antioxidant and antiinflammatory and increasing experimental and clinical evidence shows its beneficial effects against oxidative/nitrosative stress status, including that involving mitochondrial dysfunction. This review summarizes the data and mechanisms of action of melatonin in relation to mitochondrial pathologies.

Delirium in Older Patients – A Review

Delirium in older patients is a common problem, whether patients are seen in a community setting, in a hospital for medical or surgical intervention or in an intensive care unit. Evaluation of elderly patients with confusion is challenging and in delirium several aspects of cognition, including perception, mental data processing and memory, must be considered. Delirium is thought to result from imbalances in cholinergic, dopaminergic and other neurotransmitter systems. It may manifest as a hyperactive, a hypoactive or a mixed state that fluctuates over time and requires a low threshold for investigation and a high index of suspicion for diagnosis. Once the presence of delirium has been established management strategies include treating any precipitating events, modifying potential risk factors and reassuring and reorienting the patient. Accurate identification and management of delirium in the elderly is important because delirium is associated with cognitive impairment and with increases in both morbidity and mortality. This review will discuss the variable presentations of delirium in the elderly, a diagnostic approach to acute confusion in the elderly, the acute management of delirium and the prognostic implications of delirium in this population.

Immunology and Epilepsy: Clinical and Experimental Evidence

Clinical and experimental data support the hypothesis that immune mechanisms may be a factor in a number of epilepsies such as Rasmussens encephalitis, Lennox-Gastaut syndrome, Landau-Kleffner syndrome, and temporal lobe epilepsy. Surgical epilepsy specimens have shown immunologic abnormalities, suggesting a broader role for immunopathology in the etiology of epilepsy. Inflammatory reactions occur in the brain in various central nervous system diseases, including autoimmune, neurodegenerative, and epileptic disorders. Proinflammatory and anti-inflammatory cytokines and related molecules have been described in the CNS and plasma, both in experimental models of seizure and in clinical cases of epilepsy. Inflammation involves both the innate and the adaptive immune systems and shares molecules and signaling pathways that are also activated by systemic infection. Experimental studies in rodents show that inflammatory reactions in the brain can enhance neuronal excitability, impair cell survival, and increase the permeability of the blood-brain barrier to blood-borne molecules and cells. The immune response is altered with the development of epilepsy, and seizures result. We provide an overview of the current knowledge implicating brain inflammation as a common predisposing factor for epilepsy, focusing particularly on clinical and basic evidence.

Plant and Animal Steroids a New Hope to Search for Antiviral Agents

Scientific literature provides evidence about the use of steroids as an adjunct treatment to antiviral therapies. Immunomodulatory activity of some steroids would account for the recovery in patients with herpetic and other viral infections. However, in vitro studies have demonstrated a direct antiviral effect of this kind of molecules. In this review we discuss recent reports about the mechanism of antiviral action of steroids from animal and plant origin. Chemical structures of most active compounds are also provided.

Effect of β-Blockers on Perioperative Myocardial Ischemia in Patients Undergoing Noncardiac Surgery

Background: Myocardial ischemia remains a major cause of morbidity in patients undergoing noncardiac surgery. The purpose of the paper was to review the evidence of the use of perioperative β-blockers for the reduction of myocardial ischemia in patients having noncardiac surgery. Method: Pubmed was searched for articles that included β-blockers and perioperative myocardial ischemia. Randomized controlled trials that assessed the effect of β-blockers on myocardial ischemia in patients undergoing noncardiac surgery were included in this review and a meta-analysis was performed. Results: Sixteen randomized controlled trials including 2230 patients were included. The study methodologies and results were summarized and meta-analysis performed. Ten trials used β-blockers in the postoperative period; 954 patients received β-blockers and 924 patients were in the control group. Of the six trials that used β-blocker for premedication, there were 207 patients in the β-blocker and 145 patients in the control group. For the cohort when β-blockers were used postoperatively, myocardial ischemia was reduced significantly with the use of β-blockers (OR 0.42; 95% CI 0.27-0.65; P=0.0001; I2=0%). A similar beneficial effect was observed in trials that used β-blocker for premedication (OR 0.16; 95% CI 0.07-0.35; P < 0.00001; I2=40%). Conclusion: The meta-analysis shows that the use of β-blockers, both as premedication and postoperatively, in noncardiac surgery is associated with a significant reduction in perioperative myocardial ischemia.

Which Drugs for the Control of Fever in Critical Patients

It has been estimated that nosocomial fever occurs in approximately one-third of hospitalized patients. The incidence is even higher in critically-ill patients in whom both infectious and noninfectious etiologies of fever are common. Polypeptide cytokines (endogenous pyrogens) such as interleukin-1b (IL-1b), tumor necrosis factor (TNF) and interleukin-6 (IL-6) act directly on the hypothalamus to affect a fever response by promoting an increase in heat generation and a decrease in heat loss. There is widespread acceptance that in most if not all critically ill neurologic patients fever should be treated but still it is not clear if fever per se in nonneurologic critically ill patients should be treated too. We review physical and pharmacological methods presently utilized to treat fever in critically ill patients.

Toll-Like Receptors and Myocardial Ischemia/Reperfusion, Inflammation, and Injury

Cardiac ischemia/reperfusion (I/R) injury occurs in several important clinical contexts including percutaneous coronary interventions for acute myocardial ischemia, cardiac surgery in the setting of cardiopulmonary bypass, and cardiac transplantation. While the pathogenesis of I/R injury in these settings is multifactorial, it is clear that activation of the innate immune system and the resultant inflammatory response are important components of I/R injury. Toll-like receptor 4 (TLR4), originally identified as the sensor for bacterial lipopolysaccharide (LPS), has also been shown to serve as a sensor for endogenous molecules released from damaged or ischemic tissues. Accordingly, recent findings have demonstrated that TLR4 not only plays a central role as a mediator of cardiac dysfunction in sepsis, but also serves as a key mediator of myocardial injury and inflammation in the setting of I/R. Furthermore, TLR4 may play a role in the development of atherosclerotic lesions. Other studies have implicated TLR4 in the adverse remodeling that may occur after ischemic myocardial injury. This emerging body of literature, which is reviewed here, has provided new insight into the early molecular events that mediate myocardial injury and dysfunction in the setting of I/R injury.

Respiratory Tract Manifestations of Rheumatic Diseases in Children

Frequency and type of respiratory manifestations differ among individual rheumatic diseases in childhood as well as among children and adults. It is important to recognise respiratory complications of established diseases like juvenile systemic lupus erythematosus or dermatomyositis early enough to prevent serious disease outcomes. Nevertheless, it is of the same importance to reveal unusual characteristics of respiratory symptoms which rheumatic disease may present with, like in Wegeners granulomatosis. Therefore high degree of suspicion and good access to specialised paediatric care including paediatric rheumatology and intensive care units are often of vital importance. In this review respiratory symptoms are summarised firstly by anatomical location of affected area and secondly by individual rheumatic diseases. Where applicable, differences between paediatric and adult disease are shown and main diagnostic and therapeutic principles overviewed. Disease spectrum covers juvenile idiopathic arthritis, juvenile systemic lupus erythematosus and dermatomyositis, systemic scleroderma and primary systemic vasculitides.

Thrombotic Microangiopathies: Towards a Pathophysiology-Based Classification

Thrombotic microangiopathies (TMA) encompass various diseases characterized by a microangiopathic hemolytic anemia, platelet clumping, and organ failure of variable severity. Thrombotic thrombocytopenic purpura (TTP) is a particularly severe form of TMA characterized by systemic organ failure which results from a severe defect in ADAMTS13, a plasma enzyme specifically involved in the cleavage of highly hemostatic unusually large (UL) von Willebrand factor (VWF) multimers into smaller and less adhesive VWF forms. Failure to degrade these UL-VWF multimers leads to excessive platelet aggregates and capillary occlusion. ADAMTS13 deficiency results from bi-allelic mutations in hereditary TTP, whereas in acquired forms it results from autoantibodies that alter the protein function. Patients with acquired idiopathic TTP have a trend to develop autoimmunity, since a clinical context of autoimmunity may be found in 30 p. cent of cases. Moreover, the remarkable efficiency of monoclonal antibodies directed against CD20 antigen of B lymphocytes in refractory or chronic relapsing forms provides an additional indirect argument to consider acquired TTP as an autoimmune disease. Hemolytic uremic syndrome (HUS) is characterized prominently by a renal failure. In most cases, HUS is caused by entero- hemorrhagic Escherichia coli (diarrhea-positive HUS). Diarrhea-negative HUS, termed atypical HUS, was associated with a dysfunction in complement pathway involving mutations in factor H, factor I, CD46/MCP, factor B and C3 components. The major improvement in our understanding of TMA pathophysiology allows now a more accurate molecular classification of TMA syndromes, which opens fascinating perspectives of targeted therapies in the forthcoming years.

Treatment of Viral Encephalitis

Several viruses may cause central nervous system diseases with a broad range of clinical manifestations. The time course of the viral encephalitis can be acute, subacute, or chronic. Pathologically there are encephalitis with direct viral entry into the CNS in which brain parenchyma exhibits neuronal damaging and viral antigens and there are postinfectious autoimmune encephalitis associated with systemic viral infections with brain tissue presenting perivascular aggregation of immune cells and myelin damaging. Some virus affect previously healthy individuals while others produce encephalitis among imunocompromised ones. Factors such evolving lifestyles and ecological changes have had a considerable impact on the epidemiology of some viral encephalitis [e.g. West-Nile virus, and Japanese B virus]. Citomegalovirus and JC virus are examples of infections of the brain that have been seen more frequently because they occur in immunocompromised patients. In the other hand many scientific achievements in neuroimaging, molecular diagnosis, antiviral therapy, immunomodulatory treatments, and neurointensive care have allowed more precise and earlier diagnoses and more efficient treatments, resulting in improved outcomes. In this article, we will present the current drug options in the management of the main acute and chronic viral infection of the central nervous system of immunocompetent and immunocompromised adults, focusing on drugs mechanisms of action, efficacy, and side effects. The early diagnosis and correct management of such diseases can reduce mortality and neurological sequelae; however, even with recent treatment advances, potentially devastating outcomes are still possible.

Renin Angiotensin System as a Regulator of Cell Volume. Implications to Myocardial Ischemia

It is known that long lasting changes in cell volume are incompatible with cellular functions. In the present review, I discussed the role of cell volume on gene expression and protein synthesis as well as the importance of the renin angiotensin system on the regulation of cell volume in the failing heart. Moreover, the relationship between mechanical stretch, cell volume and the renin angiotensin system as well some translational studies are also described and their relevance to the prevention or reduction of cardiac damage during myocardial ischemia is emphasized.

Clinical Evidence of Herb-Drug Interactions: A Systematic Review by the Natural Standard Research Collaboration

To evaluate the pharmacokinetics and adverse effects of medicinal herbs, as well as clinical evidence of herb-drug interactions. Electronic searches were conducted in multiple databases, including MEDLINE, EMBASE, the Cochrane Library, CINAHL, NAPRALERT, International Pharmaceutical Abstracts, CANCERLIT, CISCOM, and HerbMed. Search terms used included common names, scientific names, and synonyms for the herbs and their primary active constituents. Bibliographies of relevant articles were also searched by hand to obtain additional references. No restrictions were placed on language or quality of publications. All literature collected pertained to adverse effects, pharmacokinetics, and suspected or confirmed cases of herb-drug interactions. Over 80 herbs or botanicals (including plants, fungi, algae, and common constituents) were identified that had clinically significant interactions with prescription and over-the-counter drugs. Interestingly, herbs beginning with the letter “g” (garlic, ginger, ginkgo, and grapefruit) were among the herbs most commonly involved in herb-drug interactions. Drugs with anticoagulant/antiplatelet activity (e.g. warfarin, aspirin) were frequently implicated in herb-drug interactions, with documented interactions with over 30 herbs and herbal products. Because many herbs have demonstrated adverse effects on the liver, the potential for interaction with hepatotoxic agents (such as acetaminophen) is also significant. Clinical outcomes of reported herb-drug interactions ranged from mild to severe. Of note, fatalities (though rare) have occurred with concomitant ephedra and caffeine use. As herbal products (and dietary supplements in general) continue to grow in popularity, patients and health care providers should be vigilant of potential herb-drug interactions.

Cefepime-Induced Neurotoxicity

Cefepime is a parenteral fourth-generation cephalosporin antibiotic with an extended spectrum of antimicrobial activity, active against many grampositive and gram-negative bacteria, including Enterobacteriaceae, Pseudomonas aeruginosa, and Staphylococcus aureus. It is excreted primarily unchanged in the urine, its half-life is 2 hours in normal renal function, increasing to 13.5 hours as renal function declines. Dosage adjustment for renal insufficiency has been recommended in order to prevent drug accumulation, which may result in adverse drug events. Nevertheless, cefepime can produce neurotoxic manifestations, like epileptic seizures, confusion, tremor, ataxia and agitation, probably mediated by the inhibition of gamma amino butyric acid (GABA) A-receptors. Cefepime neurotoxicity usually begins within 20 hours to 5 days ofdrug exposition. Clinical picture may resolve after withdrawal of the antibiotic, depending on the severity of signs and symptoms, and the time spent to start treatment. The role of electroencephalogram in the diagnosis of cefepime-induced encephalopathy and in the differential diagnosis with other causes of coma is remarkable. When a patient on cefepime develops progressive neurological symptoms, drug neurotoxicity should be considered, early detected and promptly managed. Future experimental studies focusing on the cefepime-GABAA receptors and transporters interactions should shed some light on the pathophysiology of this now well-known condition.

Cardiac Metabolism in Myocardial Ischemia

Myocardial ischemia occurs for a mismatch between blood flow and metabolic requirements, when the rate of oxygen and metabolic substrates delivery to the myocardium is insufficient to meet the myocardial energy requirements for a given myocardial workload. During ischemia, substantial changes occur in cardiac energy metabolism, as a consequence of the reduced oxygen availability. Some of these metabolic changes are beneficial and may help the heart adapt to the ischemic condition. However, most of the changes are maladaptive and contribute to the severity of the ischemic injury leading stunned or hibernating myocardium, cell death and ultimately to contractile disfuction. Dramatic changes in cardiac metabolism and contractile function, also occur during myocardial reperfusion as a consequence of the generation of oxygen free radicals, loss of cation homeostasis, depletion of energy stores, and changes in subcellular activities. The reperfusion injury may cause in the death of cardiac myocytes that were still viable immediately before myocardial reperfusion. This form of myocardial injury, by itself can induce cardiomyocyte death and increase infarct size. During acute ischemia the relative substrate concentration is the prime factor defining preference and utilization rate. Allosteric enzyme regulation and protein phosphorylation cascades, partially controlled by hormones such as insulin, modulate the concentration effect; together they provide short-term adjustments of cardiac energy metabolism. The expression of metabolic genes is also dynamically regulated in response to developmental and (patho)physiological conditions, leading to long-term adjustments. Specific nuclear receptor transcription factors and co-activators regulate the expression of these genes. Understanding the functional role of these changes is critical for developing the concept of metabolic intervention for heart disease. The paper will review the alterations in energy metabolism that occur during acute and chronic ischemia.

Modulation of Cardiac Metabolism During Myocardial Ischemia

Metabolic modulation during myocardial ischemia is possible by the use of specific drugs, which may induce a shift from free fatty acid towards predominantly glucose utilization by the myocardium to increase ATP generation per unit oxygen consumption. Three agents (trimetazidine, ranolazine, and perhexiline) have well-documented anti-ischaemic effects. However, perhexiline, the most potent agent currently available, requires plasma-level monitoring to avoid hepatoneuro- toxicity. Besides, the long-term safety of trimetazidine and ranolazine has yet to be established. In addition to their effect in ischemia, the potential use of these drugs in chronic heart failure is gaining recognition as clinical and experimental data are showing the improvement of myocardial function following treatment with several of them, even in the absence of ischemia. Future applications for this line of treatment is promising and deserves additional research. In particular, large, randomised, controlled trials investigating the effects of these agents on mortality and hospitalization rates due to coronary artery disease are needed.

Myelin Sheaths and Autoimmune Response Induced by Myelin Proteins and Alphaviruses. I. Physicochemical Background

Myelin proteins of the central and peripheral nervous system range from very hydrophilic to extremely hydrophobic proteins. Their biological function and involvement in various clinically defined neurological diseases are well documented. In this review the myelin proteins will be compared with proteins of alphaviruses with emphasis on Semliki Forest Virus (strain pSP6-SFV4), to elucidate better the multiple function and the potential role in several neurological diseases. The main purpose of this review is to assist neuroscientists, neurochemists, neurologists, and other interested scientists in developing a better understanding on the information relating to myelin proteins referred in autoimmune diseases. Therefore, this review is focused on simple physiochemical background of proteins and structural aspect, which may be involved in autoimmunity. It is very unusual that few different a.a. sequences (epitops) induce indeed the same autoimmune reaction.

Role of Apoptosis and Proinflammatory Cytokines in Influenza Virus Morbidity and Mortality

Influenza virus is a major human pathogen that causes epidemics and pandemics with increased morbidity and, especially in the elderly and those with pre-existing medical conditions, increased mortality. Currently avian influenza viruses are causing deaths in previously “not-at-risk” groups. Influenza is characterised by respiratory symptoms and constitutional symptoms. In this review we explore current knowledge of the role inflammation and apoptosis plays in respiratory epithelial cell damage and pathogenicity. Influenza virus vRNA, other ssRNAs and dsRNAs are recognised by cellular pathogen-associated microbial pattern (PAMP) receptors. Of these, TLR3 activates NF-κB, a transcription factor of pro-inflammatory cytokines such as TNF-α, IL-1 and IL-6 along with a variety of chemokines like CCL2, CCL3, CCL4, CCL5, CXCL8 and CXCL10, and Type 1 interferons (IFN) through the IFN regulator IRF3. TLR7/TLR8 activates NF-κB through different mediators to stimulate a similar response. Pro-inflammatory and antiviral cytokines may also be induced by TLR3/TLR7-independent pathways involving NOD-like receptors and CARD-helicase proteins. It is also becoming clearer that the mechanisms leading to inflammatory responses and to apoptosis are linked particularly with regard to caspase activation and function. The role these pathways play in influenza virus induced mortality and morbidity will be discussed with particular reference to that of the H5N1 viruses.

Infantile Epileptic Encephalopathy with Hypsarrhythmia (Infantile Spasms/West Syndrome) and Immunity

West syndrome is a severe epilepsy, occurring in infancy, that comprises epileptic seizures known as spasms, in clusters, and a unique EEG pattern, hypsarrhythmia, with psychomotor regression. Maturation of the brain is a crucial component. The onset is within the first year of life, before 12 months of age. Patients are classified as cryptogenic (10 to 20%), when there are no known or diagnosed previous cerebral insults, and symptomatic (80 to 90%), when associated with pre-existing cerebral damages. The time interval from a brain insult to infantile spasms onset ranged from 6 weeks to 11 months. West syndrome has a time-limited natural evolutive course, usually disappearing by 3 or 4 years of age. In 62% of patients, there are transitions to another age-related epileptic encephalopathies, the Lennox-Gastaut Syndrome and severe epilepsy with multiple independent foci. Spontaneous remission and remission after viral infections may occur. Therapy with ACTH and corticosteroids are the most effective. Reports about intravenous immunoglobulins action deserve attention. There is also immune dysfunction, characterized mainly by anergy, impaired cell-mediated immunity, presence of immature thymocytes in peripheral blood, functional impairment of T lymphocytes induced by plasma inhibitory factors, and altered levels of immunoglobulins. Changes in B lymphocytes frequencies and increased levels of activated B cells have been reported. Sensitized lymphocytes to brain extract were also described. Infectious diseases are frequent and may, sometimes, cause fatal outcomes. Increase of pro-inflamatory cytokines in serum and cerebrospinal fluid of epileptic patients were reported. Association with specific HLA antigens was described by several authors (HLA-DR7, HLA-A7, HLA-DRw52, and HLA-DR5). Auto-antibodies to brain antigens, of several natures (N-methyl-d-aspartate glutamate receptor, gangliosides, brain tissue extract, synaptic membrane, and others), were described in epileptic patients and in epileptic syndromes. Experimental epilepsy studies with anti-brain antibodies demonstrated that epileptiform discharges can be obtained, producing hyperexcitability leading to epilepsy. We speculate that in genetically prone individuals, previous cerebral lesions may sensitize immune system and trigger an autoimmune disease. Antibody to brain antigens may be responsible for impairment of T cell function, due to plasma inhibitory effect and also cause epilepsy in immature brains.