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Query: UMLS:C0020538 (hypertension)
 170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The activity of lysyl oxidase which catalyzes the initial step of cross-linking of collagen and elastin polypeptides was measured in blood vessels of the hypertensive rat. The enzyme activity was increased in the aorta and mesenteric artery when hypertension was induced in 8-week-old rats with administration of deoxycorticosterone acetate (DOCA) and 1% saline. Reserpine diminished this increase in vascular lysyl oxidase activity concomitant with reduction in blood pressure. When beta-aminopropionitrile, a specific inhibitor of lysyl oxidase, was administered before the onset of DOCA-salt hypertension, the aortic collagen content was reduced markedly. Concomitant with reduction in the aortic collagen content, the development of hypertension and arteriosclerotic changes in the kidney was partially prevented. These results would indicate that hypertension increases the amount and the degree of cross-linking of vascular collagen and that the deposition of excess collagen in the vascular wall contributes to the development of hypertension and arteriosclerosis.
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PMID:Increased lysyl oxidase activity in blood vessels of hypertensive rats and effect of beta-aminopropionitrile on arteriosclerosis. 2 27

The static elastic properties and medial scleroprotein content of the aorta have been examined in spontaneously hypertensive rats (AS strain) aged 6 and 20 weeks (group SH). The results are compared with data from two previous studies on normal (group N) and induced hypertensive animals (group H). Spontaneous hypertension is associated with a relative increase in elastin and decrease in collagen when compared with the normal aorta. These changes are similar to, although smaller in magnitude than, those associated with induced hypertension. Elasticity measurements show that the functional stiffness (incremental strain) of the aorta in group SH is greater than normal. However, this difference diminishes with age, suggesting an adaptive response which tends to maintain the functional stiffness near to normal levels.
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PMID:Static mechanical properties and chemical composition of the aorta of spontaneously hypertensive rats: a comparison with the effects of induced hypertension. 69 88

The relationship between experimental magnesium deficiency and blood pressure is complex and still the subject of much debate. The effect of Mg deficiency and blood pressure in Wistar rats receiving a Mg deficient diet (0.080 g/kg) for 40 weeks was examined. Deficient rats, when compared to controls, showed an initial transitory phase of hypotension, followed by normalization of blood pressure and then hypertension beginning after 15 weeks on the deficient diet. During the whole experimental period, heart rate was significantly increased in deficient rats as compared to controls. The fact that hypotension resulting from Mg deficiency of short duration can be inhibited by antihistamines and by indomethacin suggests that various mediators seen during the inflammatory period of Mg deficiency could be involved. Mg deficiency of long duration was accompanied by hypertension. When Mg-deficient rats received the control diet for a period of 3 weeks, Mg supplementation only partially corrected the hypertension. The hypertension was not a consequence of stimulation of the renin-angiotensin system since the plasma renin activity was not modified and ACE activity was reduced. These deficient rats showed a significantly lower vasopressor response to noradrenaline than control rats. Several factors such as increase in collagen, changes in elastin and arterial elasticity, total lipid content, and calcifications may account for the hyporesponsiveness to contractile agonists.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Magnesium and blood pressure. I. Animal studies. 139 7

The cardiovascular system is one of those target-organ systems of senescence where the effects of physiological ageing meet the consequences, accumulated with time, of pathological disorders. In man, these two processes are not easily disentangled, and despite the advances achieved in ultrasonic techniques the approach of structural parameters remains difficult. On the other hand, the morphological and functional unicity of the vascular wall in different species is such that observations made in animals are relevant. In rats, the structure-function relationship can be determined by histomorphometric analysis of the myocardium and vascular wall under standardized conditions of treatment. As the animals get older, the cardiac mass, related or not to body-weight, increases while the cardiac efficacy decreases. Hypertrophy of the heart is accompanied by a change in the enzymatic property of myosin. Simultaneously, the walls of the greater arteries become thicker, more rigid and less compliant, hypertrophy of the smooth muscle cells being an essential component of vascular wall thickening. At the same time, the collagen fraction and the amount of collagen-bound calcium increase. The elastic component decreases, at least relatively, and the elastin-collagen ratio clearly diminishes with age. Altogether, these alterations are not different from those observed in human arterial hypertension. They result in a lesser permeability of the tunica media, facilitate the accumulation in the subendothelium of lipidic and/or proteinic compounds originating in plasma and constitute a link between ageing and atheromatous processes.
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PMID:[Structural approach of vascular aging]. 140 71

Biochemical studies have been used to assess the quantitative changes in elastin and collagen in hypertensive vs. normotensive arteries. However, the relative distribution and organization of these fibrous proteins is likely to be equal in importance to their absolute amounts. In this study we have used scanning electron microscopy in association with selective digestion techniques to assess the organization of cellular and extracellular components of the tunica media of mesenteric arteries of spontaneously hypertensive rats. Superior and small mesenteric arteries were digested with acid, alkali, or bleach to exposure cells, collagen, or collagen and elastin, respectively. We observed that hypertension does not cause a qualitative change in the 3-dimensional arrangement of cells, collagen, or elastin in spontaneously hypertensive arteries when compared to normotensive arteries. However, cells in the superior artery are significantly different in overall shape and surface features when compared to cells of small arteries. These differences in surface morphology of cells are present in hypertensive and normotensive vessels and suggest that superior and small mesenteric artery cells transmit load to the isotropic matrix in different ways. In the elasto-muscular superior artery, force is transmitted across digitations throughout the cell surface. In the muscular small artery, force is transmitted across the tapered, smooth cell surface.
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PMID:Organization of cells and extracellular matrix in mesenteric arteries of spontaneously hypertensive rats. 142 76

A model of arterial graft arteriosclerosis is described in which arterial wall immune injury was induced by grafting segments of abdominal aorta between two histologically incompatible strains of rats. The effect of hypertension and its treatment with the angiotensin-converting enzyme (ACE) inhibitor perindopril was tested using inbred spontaneously hypertensive rats (SHR) and their normotensive controls (Wistar-Kyoto [WKY]). Each of the grafted hypertensive and normotensive rats was randomly allocated to placebo treatment (10 SHR, 10 WKY) and perindopril treatment (2 mg/kg/day) (10 SHR, 10 WKY). The immune injury and the arterial wall response were quantified morphometrically 2 months after the grafting using specific stains for collagen, elastin, and nuclei. Hypertension was associated with a significant increase in intimal thickness. Treatment with perindopril greatly reduced intimal proliferation, decreasing the intimal thickness and the collagen content within the intimal layer. In contrast, hypertension and ACE inhibition had little effect on the arterial wall injury. We conclude that hypertension and its treatment with perindopril significantly affect graft arteriosclerosis. These effects seem to be independent of their effects on arterial wall injury, but not independent of blood pressure.
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PMID:Effect of perindopril on the immune arterial wall remodeling in the rat model of arterial graft rejection. 158 Feb 79

Hypertension leads to structural and functional adaptations which, although initially protective for the cardiovascular system, ultimately work to sustain and reinforce the hypertensive state. Although blood pressure (BP) may be effectively lowered by a variety of treatments, it is becoming clear that these structural adaptation, and the risks and consequences of hypertension, may persist long after BP has been restored to normal levels. Cardiovascular tissues appear to be highly sensitive to increased BP, responding quickly with large and proportional increases in collagen and elastin. The sensitivity of this response to increased pressure, together with the slow turnover of these connective tissue proteins, suggests a mechanism by which transient or intermittent episodes of hypertension may lead to cumulative and persistent structural changes in cardiovascular tissues. With some exceptions, studies directly investigating the reversibility of these connective tissue changes have generally confirmed that increased cardiovascular collagen and elastin persist for long periods of time after BP lowering, independent of the treatment method used to achieve that lowering. Because maintenance of elevated levels of collagen and elastin is principally caused by the slow turnover of the proteins rather than by their continued production, rapid and effective reversal of cardiovascular connective tissue changes may require the development of pharmacological agents that promote or accelerate the turnover of these proteins.
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PMID:Effects of antihypertensive drug classes on regression of connective tissue components of hypertension. 171 88

Treatment of chronic hypertension with cilazapril, but not hydralazine, attenuates changes in distensibility of cerebral arterioles that occur in stroke-prone spontaneously hypertensive rats (SHRSPs). In this study, effects of antihypertensive treatment on composition of cerebral arterioles was determined in SHRSPs. Cilazapril (45 mg/kg/day), an angiotensin converting enzyme (ACE) inhibitor, or hydralazine (18 mg/kg/day) was begun when rats were 3 months of age. Both cilazapril and hydralazine reduced systolic arterial pressure in SHRSPs (from 199 +/- 6 to 122 +/- 7 mm Hg for cilazapril versus 143 +/- 5 mm Hg for hydralazine [mean +/- SEM]; p less than 0.05). Cerebral arterioles were fixed in vivo, and the cross-sectional area of the vessel wall was measured histologically. In SHRSPs, both cilazapril and hydralazine reduced cross-sectional area of the vessel wall to values obtained in Wistar-Kyoto (WKY) rats. Thus, both cilazapril and hydralazine prevented hypertrophy of cerebral arterioles in SHRSPs. Composition of the arteriolar wall was determined with point counting stereology. Cerebral arterioles in SHRSPs contained significantly more smooth muscle and elastin than in WKY rats (1,294 +/- 157 versus 853 +/- 88 microns2, respectively, for smooth muscle and 148 +/- 13 versus 108 +/- 7 microns2, respectively, for elastin (120 +/- 8 microns2) in cerebral arterioles in SHRSPs was similar to that in WKY rats. Treatment with hydralazine was effective in preventing increases in elastin (128 +/- 14 microns2) and in attenuating increases in smooth muscle (1,008 +/- 18 microns2). The ratio of nondistensible (collagen, basement membrane) to distensible (smooth muscle, elastin, endothelium) components was greater in SHRSPs than in WKY rats.(ABSTRACT TRUNCATED AT 250 WORDS)
Hypertension 1991 Oct
PMID:Effects of antihypertensive treatment on composition of cerebral arterioles. 183 21

Newborn animals develop more severe hypoxic pulmonary hypertension than do adults, their vascular changes are greater, and both the hypertension and vascular changes occur more rapidly. We hypothesize that this differential developmentally controlled response may arise from either a difference in the type or quantity of endogenously secreted mediators in response to a given injury or a difference in the replicative and/or matrix-producing response of the vascular cells to physical or chemical stimuli. We investigated the effect of chronic hypoxia (14 days) on the proliferative and matrix-producing phenotype of the neonatal (14-day-old) pulmonary artery smooth muscle cell (SMC) and examined the heterogeneity and potential mechanisms responsible for this response. In situ hybridization studies demonstrated a remarkable change in the distribution of cells hybridizing with a tropoelastin cRNA probe after 14 days of hypoxia. Studies also demonstrated a population of SMC that did not hybridize with the elastin or collagen probes, indicating that the pulmonary artery contains SMC of multiple phenotypes and that the response to hypoxic and hemodynamic stress is not uniform for the various types. Bromodeoxyuridine labeling experiments indicated a large increase in DNA synthesis in hypertensive vessels, which, again, was not uniform either across or along the arterial wall. In vitro experiments with neonatal SMC suggested that hypoxia alone could not be responsible for the proliferative or matrix changes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cellular adaptation during chronic neonatal hypoxic pulmonary hypertension. 192 59

The biochemical mechanisms by which hypertension accelerates atherosclerosis and increases the risk of aortic aneurysm rupture are poorly understood. This study evaluates the effects of hypertension on aortic trace element concentrations and antioxidant status in tissue removed from 26 normotensive (NT) and 20 hypertensive (HT) patients. Twenty-seven of 46 patients (59%) had aneurysmal (AA), and 19 of 46 (41%) had occlusive disease (OD). Aortic iron concentrations were markedly higher in both OD and AA tissue compared with controls. A similar trend was observed with copper concentrations, with the highest elevations observed in HT AA tissues. No significant differences were observed in zinc concentrations, except that HT AA aorta had significantly lower zinc levels than either OD or control tissue. Aortic ascorbic acid concentrations in diseased aorta were lower than those of controls, but independent of blood pressure. Copper-zinc-superoxide dismutase activity was similarly reduced, with the lowest activity observed in diseased aorta from HT patients. Only HT AA aorta had significantly higher manganese-superoxide dismutase activity than controls. The aortas of patients with AA had significantly lower amounts of elastin and greater elastase activity than either controls or those with OD. However, the differences were independent of blood pressure. Hypertensive patients with OD and AA had 31% more and 27% less aortic collagen, respectively, than their NT counterparts (P less than 0.05). These data suggest that the reduction in aortic collagen and elastin in HT patients with AA compared with their NT counterparts may explain the larger size of aneurysms and predispose to their eventual rupture. Furthermore, the diminished antioxidant status associated with HT predisposes to lipid peroxidation, which contributes to the acceleration of these processes. Our studies were conducted in patients with established aortic aneurysmal and occlusive disease. Whether these observations are pertinent to the pathogenesis of AA and OD remains unclear and merits further study.
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PMID:Effects of hypertension on aortic antioxidant status in human abdominal aneurysmal and occlusive disease. 199 4


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