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Current Hypertension
Reviews
ISSN: 1573-4021
Current Hypertension Reviews
Volume 5, Number 1, February 2009
Contents
Hyperuricemia: Is it a Risk Factor for Vascular Endothelial
Dysfunction and Associated Cardiovascular Disorders? Pp.
1-6
Pitchai Balakumar, Ramica Sharma, A.N. Kalia
and Manjeet Singh
[Abstract] [Full
Text Article]
Renal Artery Stenting: Efficacy and Complications
Pp. 7-12
Mohsen Bannazadeh and Timur Sarac
[Abstract] [Full
Text Article]
Heme Oxygenase in Regulation of Renal Function and Blood Pressure
Pp. 13-23
Fady T. Botros and L. Gabriel Navar
[Abstract] [Full
Text Article]
Management of Hypertension in the Acute Phase of Stroke
Pp. 24-39
Troy D. Bornes and Ken S. Butcher
[Abstract] [Full
Text Article]
Inflammation: A Link Between Hypertension and Atherosclerosis
Pp. 40-48
Victoria Cachofeiro, María Miana, Natalia
de las Heras, Beatriz Martín-Fernández, Sandra
Ballesteros, Gloria Balfagón and Vicente Lahera
[Abstract] [Full
Text Article]
Impact of Dendritic Cells on Vascular Biology Pp.
49-53
Jan Smid, Adam Berger, Rüdiger Braun-Dullaeus Meinrad
Gawaz and Harald F. Langer
[Abstract] [Full
Text Article]
Isometric Handgrip Effects on Hypertension Pp. 54-60
Philip J. Millar, Amanda Paashuis and Neil McCartney
[Abstract] [Full
Text Article]
Mechanisms of Dexamethasone-Induced Hypertension Pp.
61-74
Sharon L.H. Ong, Yi Zhang and Judith A. Whitworth
[Abstract] [Full
Text Article]
Abstracts
[Back to top]
Hyperuricemia: Is it a Risk Factor for Vascular Endothelial
Dysfunction and Associated Cardiovascular Disorders?
Pitchai Balakumar, Ramica Sharma, A.N. Kalia
and Manjeet Singh
[Full
Text Article]
Uric acid is an intermediate product formed from the
metabolism of purine. The high serum uric acid level is termed
as hyperuricemia. Gout, a metabolic disorder is associated
with high uric acid level in the body. Hyperuricemia has been
noted to upregulate the expression of inflammatory mediators
and adhesion molecules. Hyperuricemia has been suggested to
be an independent risk factor involved in the pathogenesis
of vascular endothelial dysfunction. Moreover, hype-ruricemia
has been demonstrated to play a pivotal role in the pathogenesis
of various cardiovascular disorders such as atherosclerosis,
hypertension, coronary artery disease and heart failure. The
present review critically discussed the possible detrimental
role of hyperuricemia in cardiac and vascular endothelial
function. Moreover, the signaling mechanism involved in the
pathogenesis of hyperuricemia-induced cardiovascular dysfunction
has been discussed. In addition, the pharmacological interventions
to ameliorate hyperuricemia-induced cardiovascular dysfunction
have been delineated.
[Back to top]
Renal Artery Stenting: Efficacy and Complications
Mohsen Bannazadeh and Timur Sarac
[Full
Text Article]
The physiologic sequelae of Renal Artery Stenosis (RAS) results
from narrowing of renal artery lumen which leads to diminished
renal perfusion. The consequences of RAS range from asymptomatic
to refractory hypertension to ischemic nephropathy eventually
leading to end-stage renal disease (ESRD).
[Back to top]
Heme Oxygenase in Regulation of Renal Function and
Blood Pressure
Fady T. Botros and L. Gabriel Navar
[Full
Text Article]
The regulation of blood pressure is dependent on multiple
interacting mechanisms that influence body fluid volume, sodium
balance, and vascular function. Impairments in kidney function
can lead to activation of the reninangiotensin system and
inappropriate sodium and fluid retention leading to hypertension.
The heme-heme oxygenase system is a recently identified antihypertensive
regulatory mechanism. Heme oxygenase (HO) catalyzes the conversion
of heme to biliverdin, free iron and carbon monoxide (CO).
Biliverdin is converted to bilirubin by biliverdin reductase
and is an endogenous antioxidant. In this review, we discuss
the role of HO in regulating kidney function and blood pressure
in normal conditions and during hypertension. CO modulates
renal vascular tone and salt transport. CO exerts renal vasodilatory
effects causing an increase in renal blood flow. Induction
of HO also alters expression and activity of renal heme enzymes
that regulate renal hemodynamics and renal function. While
HO inhibition causes an increase in blood pressure, re-nal
HO induction attenuates the development of hypertension in
several models of hypertension suggesting an important role
for HO in regulation of renal function and blood pressure.
[Back to top]
Management of Hypertension in the Acute Phase of Stroke
Troy D. Bornes and Ken S. Butcher
[Full
Text Article]
An increase in arterial blood pressure (BP) is common
following the onset of stroke. Although there is evidence
suggesting that this acute elevation of BP is associated with
a poor clinical outcome in both ischemic and hemorrhagic stroke
patients, optimal treatment strategies are currently unknown.
The management of BP in the first 24 hours following stroke
lends itself to two competing rationales in both stroke sub-types.
In ischemic stroke patients, BP reduction may improve outcome,
potentially by reducing hemorrhagic transformation and edema
formation. Conversely, antihypertensive therapy may also reduce
cerebral blood flow (CBF) in the penumbra, exacerbating ischemic
injury. Similarly, BP reduction may improve outcome in hemorrhagic
stroke patients by preventing the expansion of the hematoma
and reducing perihematoma edema. The perihematoma region has
also been hypothesized to have ischemic penumbral properties,
although the evidence for this is limited. Nonetheless, there
is the potential for detrimental CBF compromise following
BP reduction in hemorrhagic stroke as well. Recently, advanced
neuro-imaging techniques have made it possible to test many
of the hypotheses related to the etiology of BP elevation
and optimal treatment strategies in acute stroke. This article
summarizes concepts and evidence for different BP management
strategies in both types of stroke.
[Back to top]
Inflammation: A Link Between Hypertension and Atherosclerosis
Victoria Cachofeiro, María Miana, Natalia
de las Heras, Beatriz Martín-Fernández, Sandra
Ballesteros, Gloria Balfagón and Vicente Lahera
[Full
Text Article]
High blood pressure levels are associated with increases
in circulating levels of inflammation markers which can reflect
vascular inflammatory processes, suggesting that hypertension
is a low-grade inflammatory process. The vascular inflammation
associated with hypertension could be the link between high
blood pressure levels and the atherosclerotic process, which
is the principal origin of cardiovascular disease, the leading
cause of worldwide mortality. High blood pressure levels are
accompanied by increases in oxidative stress due to both higher
reactive oxygen specie (ROS) production and reduced ROS scavenging
by antioxidant defence. This situation favours endothelial
function alterations which allow the expression of adhesion
molecules and initiation of fatty streak, the earliest structural
change in the atherosclerotic process. At the same time, this
inflammation, allows endothelial dysfunction since some inflammatory
mediators can negatively affect endothelial cell function.
Inflammation, therefore, plays a critical role in development
and in complications of the atherothrombotic process. Changes
in mechanical stress and activation of humoral factors such
as the reninangiotensin-aldosterone system can be underlying
not only increases in oxidative stress (and consequently endothelial
dysfunction) but also the development of the inflammatory
process associated with hypertension.
[Back to top]
Impact of Dendritic Cells on Vascular Biology
Jan Smid, Adam Berger, Rüdiger Braun-Dullaeus Meinrad
Gawaz and Harald F. Langer
[Full
Text Article]
Dendritic cells (DCs) are a key component of the immune
system which are capable of sampling antigen and present them
to immune effector cells. By modulating the degree and quality
of response of these effector cells, DCs represent a decisive
element at the earliest phases of any given immune reaction.
Recently, the presence of a vascular associated DC system
has been described within the vascular wall, more precisely,
in the intima and adventitia. These DCs exert important (patho-)
physiological functions. For instance, DCs are functional
at early stages of atherosclerosis and they contribute to
atheroprogression and plaque destabilization. Furthermore,
DCs are involved in other inflammatory vascular diseases such
as giant cell arteriitis and idiopathic pulmonary hypertension.
This review describes recent advances in the physiology and
pathophysiology of dendritic cells associated with the vascular
wall.
[Back to top]
Isometric Handgrip Effects on Hypertension
Philip J. Millar, Amanda Paashuis and Neil McCartney
[Full
Text Article]
Hypertension is estimated to affect 1 billion people
worldwide, and is associated with an increased risk of cardiovascular
disease and all-cause mortality. The management of high blood
pressure focuses on lifestyle modifications (i.e. diet, exercise,
smoking cessation) and drug therapies. Despite these strategies,
many patients are still unable to maintain or control their
blood pressure within desired levels. Recent research has
identified isometric handgrip (IHG) training as a potential
therapeutic modality. Results demonstrate a hypotensive effect
of IHG training in medicated and unmedicated patients. This
novel therapy may be efficacious based on low associated costs
and time requirements (33 min/week). The mechanisms coupled
with the attenuations in resting blood pressure remain contentious.
However, recent evidence has begun to suggest that beneficial
modulation of the autonomic nervous system is responsible
for the positive changes in blood pressure. While further
IHG research is required, the prospect of a novel non-pharmacological
therapy for hypertension has major public health implications.
This review will summarize the previous literature, discuss
future research directions, and describe clinical significance.
[Back to top]
Mechanisms of Dexamethasone-Induced Hypertension
Sharon L.H. Ong, Yi Zhang and Judith A. Whitworth
[Full
Text Article]
Hypertension is a well recognized complication of excess
glucocorticoids, both naturally-occurring and synthetic. Dexamethasone
is a potent synthetic glucocorticoid, which has widespread
clinical applications. As dexamethasone has purely glucocorticoid
activity with negligible mineralocorticoid effects, dexamethasone-induced
hypertension (DEX-HT) models have been used for studying the
mechanisms of glucocorticoid-induced hypertension. This review
examines the characteristics and mechanisms of DEX-HT, both
in the human and experimental animal models. The roles of
hemo dynamics, volume, renin-angiotensin-aldosterone system,
sympathetic nervous system, vasodilators including nitric
oxide, vasoconstrictors and reactive oxygen species in the
pathogenesis of DEX-HT are reviewed and differences from hypertension
due to naturally occurring steroids discussed.
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