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Query: UMLS:C0020538 (
hypertension
)
170,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The role of the kidney in
hypertension
is reviewed in terms of sodium and water homeostasis, of the secretion of renin inappropriate to the state of sodium and water balance and of other renal humoral factors which might be implicated in the hypertensive process. Fundamental to the long-term maintenance of
hypertension
is an alteration in the relationship between renal perfusion pressure and the excretion of sodium and water. This alteration may be brought about as a result of renal structural damage, sympathetically mediated renal vasoconstriction or the action of renal or extrarenal hormones which modulate sodium and water excretion. When renin is secreted in excess of the prevailing level of sodium and water balance, the generated angiotensin contributes to the
hypertension
directly through peripheral and renal vasoconstriction. The level of blood pressure in two hypertensive patients with chronic renal failure was found to be highly correlated with the level of plasma renin activity as this was lowered by the administration of a beta-blocking drug. In rats deprived of sodium, renal artery constriction and contralateral nephrectomy was followed by
hypertension
without any elevation of plasma angiotensin and with a minimal expansion of plasma volume unaccompanied by expansion of extracellular fluid volume. The possible role of this small volume change and of other possible factors in producing
hypertension
is discussed. Studies in the nephrectomised rat confirmed eariler reports that renal medullayr auto-explants inhibited
renoprival hypertension
, but neither the identity nor mode of action of the medullary hypotensive factor were further clarified.
...
PMID:The role of the kidney in hypertension. 89 Dec 15
Rats from two strains with opposite constitutional predisposition to
hypertension
were joined in parabiosis and one partner was nephrectomized. The influence of genetic factors and of diet on the blood pressures of the two classes of parabionts, operated and intact, indicated that
renoprival hypertension
occurred with equal frequency in rats from both strains; that the development of
renoprival hypertension
depended on the influence from an intact S partner, or on a high salt intake, or on both. A nephrectomized S rat developing
renoprival hypertension
did not induce
high blood pressure
in its intact R partner. In this respect
renoprival hypertension
differs from salt and renal hypertension. The findings are interpreted to mean that the hypertensinogenic agent specific for S rats is produced by S kidneys.
...
PMID:Genetic influence on the development of renoprival hypertension in parabiotic rats. Evidence that a humoral hypertensinogenic factor is produced in kidney tissue of hypertension-prone rats. 535 84
1. The optimal conditions for the development of
hypertension
after total nephrectomy were defined in the rat. Under these conditions, haemodynamic changes were then studied before and for 3 days after total nephrectomy in the unanaesthetized animal and compared with mock-nephrectomized controls.2. Changes in cardiac output were followed with an electromagnetic flowmeter chronically implanted on the ascending aorta, and mean arterial pressure with an indwelling aortic cannula.3. Haematocrit fell in animals developing
hypertension
, due to plasma volume expansion. Restriction of administered saline did not reduce the fall in haematocrit without also preventing development of the
hypertension
.4. Cardiac output and stroke volume increased significantly on the second and third days after nephrectomy. Peripheral resistance remained unchanged and pulse rate tended to fall.5. The increase in cardiac output appeared to be more than could be accounted for by anaemia alone, and it is suggested that plasma volume expansion was partly responsible.6. In another group of rats developing
renoprival hypertension
a correlation was found between changes in plasma volume and arterial pressure over the three days.7. Renoprival
hypertension
was accompanied by a slight but significant reduction in oxygen consumption in comparison with the controls.8. No relationship was found between the changes in blood pressure, and plasma sodium and potassium levels.9. It is concluded that the observed rise in cardiac output associated with
renoprival hypertension
as induced in this study was not attributable to anaemia nor to a rise in metabolic rate. The implications of this situation are discussed in relation to a theory of the pathogenesis of
hypertension
and the findings of other workers.
...
PMID:Haemodynamic and other studies in the renoprival hypertensive rat. 550 Jul 86
1. Frequent measurements of arterial pressure, cardiac output, heart rate and body weight were carried out in three hypertensive anephric subjects during the reversal of
hypertension
by carefully controlled stepwise fluid withdrawal over a period of 24 days. 2. The initial 5% decrease of body weight was associated with decrements of arterial pressure and total peripheral resistance of 15 and 35% respectively, whereas cardiac output had risen by 25%. After a further decrease in body weight by 5%, arterial pressure was lowered another 15% without a change in total peripheral resistance, and cardiac output had returned to base line. 3. These data do not support the concept that whole-body autoregulation is an important factor in the pathogenesis of
renoprival hypertension
.
...
PMID:Haemodynamics of renoprival hypertension in man: studies during graded fluid withdrawal. 744 54
