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

The relationship between hypertension and cardiovascular damage was assessed in three groups of spontaneously hypertensive rats (SHR): 1. stroke prone SHR (SHR-SP) treated orally with an angiotensin I converting enzyme inhibitor (captopril) (100-400 mg/L in the drinking water) from 6 to 35 weeks of age, 2. SHR-SP maintained on tap water until 30 weeks of age, 3. stroke resistant SHR (SHR-SR) maintained on tap water. The controls were Wister Kyoto rats (WKY) maintained on tap water. Captopril-treated SHR-SP showed blood pressure lower than that of untreated SHR-SP, similar to SHR-SR. The ratio of heart weight to body weight was 0.55% in SHR-SP, 0.39% in captopril-treated SHR-SP, 0.46% in SHR-SR, and 0.39% in WKY. The kidneys of SHR-SP showed glomerular sclerosis, glomerular fibrosis, tubular casts, interstitial cell infiltration and vascular wall thickening or hyperplasia of the small arteries and arterioles. The severe glomerular sclerosis was mostly distributed in the inner and middle portions of cortex. Immunohistological study showed IgG, C3 and fibrinogen in the glomeruli and arterioles in SHR-SP. In captopril-treated SHR-SP, similar to SHR-SR, only minor histological changes were seen and there was no deposition of IgG, C3 or fibrinogen. No changes were seen in WKY. Thus, it was concluded that nephrosclerosis and cardiac hypertrophy in SHR-SP are prevented by captopril. The role of the renin-angiotensin and kallikrein-kinin systems in organ pathogenesis in SHR-SP is discussed.
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PMID:Prevention of nephrosclerosis and cardiac hypertrophy by captopril treatment of spontaneously hypertensive rats. 294

Interpopulation studies support the hypothesis of a causal relationship between sodium consumption and arterial hypertension. However, although this association has been contradicted by intrapopulation studies, the correlation between sodium and hypertension appears to be genetically determined, as there are both sodium-sensitive and sodium-resistant individuals. Sodium is essential for the maintenance of extracellular and plasma volume equilibrium. It is controlled metabolically by the interaction of several biological systems such as the renin-angiotensin-aldosterone system, the sympathetic nervous system and the kallikrein-kinin and prostaglandin systems. Thus, sodium has a definite role in the mechanism involved in the pathophysiology of the predominantly volume-dependent forms of arterial hypertension. Recently, different structural substances with natriuretic effects have been identified. Natriuretic hormone is a non-peptide substance which inhibits the Na,K-ATPase in response to extracellular volume increase. This hormone acts on the renal tubular cells reducing sodium reabsorption, and at an arteriolar level elevating peripheral resistance by increasing smooth muscle tension. Mammalian atria contain various precursors of biologically active peptides, with potent natriuretic and diuretic effects. They are released in response to volume loading and atrial stretch. Although some data suggest an important role for these natriuretic substances in fluid volume and blood pressure control, their place in physiology and in abnormal clinical states should be more definitively clarified in the next few years.
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PMID:Sodium and hypertension. Still a controversy in 1986. 294 88

Twelve patients with essential hypertension (WHO stages I-II) were subjected to mild aerobic exercise for 10 to 20 weeks. The time course of changes in the resting blood pressure and multiple hormonal responses (plasma catecholamines, prostaglandin E, renin-angiotensin system, kallikrein-bradykinin system) were monitored. Depressor response of both systolic and diastolic pressures was seen, and after 5 weeks of exercise blood pressure stabilized at a significantly lower level. Adjustment of work load in response to increased physical fitness at the 10th week produced further reduction of blood pressure especially in diastole. After exercise therapy we found significant reductions in plasma catecholamine levels, and increases in levels of plasma prostaglandin E and the urinary excretion of sodium. A reduction in systolic/diastolic (mean) pressures by more than 20/10 (13) mm Hg was seen in 50% of patients after 10 weeks and in 78% after 20 weeks of exercise. Those who achieved effective blood pressure fall after 10 weeks of training (n = 6) were compared with the rest (n = 6). This analysis revealed that the initial value of plasma renin activity of the former was significantly lower than that of the latter. Significant negative correlations (r = -0.78) also were observed between the blood pressure reduction and corresponding initial value of plasma renin activity. These results indicate that exercise therapy is a potent nonpharmacological tool for the treatment of essential hypertension, especially of the low renin type. Both diminished sympathoadrenergic activity and enhancement of prostaglandin mechanisms might be responsible for the falls in arterial pressure.
Hypertension
PMID:Blood pressure and hormonal responses to aerobic exercise. 298 15

The purpose of this study was to evaluate the natriuretic effect and renal haemodynamic changes induced by enalapril in patients with essential hypertension. In a group of 11 patients with mild to moderate hypertension with normal renal function, and on a controlled sodium intake (80 mmol/day), a decrease in systolic and diastolic blood pressure was observed (p less than 0.001) after 16 weeks of enalapril treatment (20 mg/day), without a change in heart rate. An increase in plasma renin activity (p less than 0.05) without changes in serum aldosterone, and a decrease in exchangeable sodium (p less than 0.001) were present at the end of the treatment period. In 10 hypertensive patients also taking a dietary sodium of 80 mmol/day, the renal haemodynamics, humoral changes, and urinary sodium excretion were measured during 4 days of enalapril treatment (20 mg/day). There was an increase in urinary sodium excretion on the 3rd and 4th days of treatment (p less than 0.01). The effective renal plasma flow and fractional sodium excretion increased 72 hours after the beginning of treatment (p less than 0.01); the glomerular filtration rate did not change, and filtration fraction decreased at 72 hours. Mean blood pressure fell 2 hours after the first dose (p less than 0.01), and the maximum drop in intrarenal vascular resistance occurred after 72 hours of treatment (p less than 0.01). Plasma renin activity increased (p less than 0.05) and serum aldosterone decreased (p less than 0.01) 2 hours after the first dose. Thereafter, serum aldosterone increased progressively until it reached values similar to those with placebo at 48 and 72 hours of treatment. Urinary kallikrein fell during the 2nd and 3rd day of treatment (p less than 0.01). It was concluded that the decrease in exchangeable sodium was due to a natriuretic effect of enalapril. This effect presumably results from renal haemodynamic changes due to the reduction of angiotensin II. Other mechanisms, such as the reduction of aldosterone and accumulation of kinins, could be contributory factors.
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PMID:Natriuretic effect and changes in renal haemodynamics induced by enalapril in essential hypertension. 299 87

The introduction of angiotensin-converting-enzyme (ACE)-inhibitors into the analysis of the renin-angiotensin system (RAS) had broadened our knowledge of the integral role of renin and the kidney in circulatory homeostasis and has provided a pathophysiologically based concept for the treatment of hypertension. When the RAS is activated, as it is when sodium is restricted, the renal blood supply shows the most striking vasodilatation among vascular beds assessed after ACE-inhibition. Sodium excretion rises, there is a fall in blood-pressure, and plasma concentrations of angiotensin II (AII) and aldosterone are reduced. Conversely, with sodium loading the hemodynamic and hormonal effects of ACE-inhibitors are small. In 50-60% of normal or high-renin patients with essential hypertension ACE-inhibitors induce a potentiated acute renal response: renal blood flow and sodium excretion increase more than they do in the remainder of the hypertensives or in normal subjects. The responders of the hypertensive patients fail to increase renal blood flow or to enhance renal vascular responsiveness to infused AII when they shift from a low to a high sodium intake. The altered renal response of these "sodium-sensitive" hypertensives could be related to local activity of the RAS which is insufficiently suppressed by sodium loading. ACE-inhibition reverses this failure of the renal blood supply to respond to sodium loading. Kidneys of spontaneously hypertensive rats and the renin-rich kidney of Goldblatt-hypertensive rats show an increased tubulo glomerular (TG) feedback response as compared to normal kidneys. The change in TG-feedback response might be expected to contribute to the inability of the hypertensive kidney to respond adequately to sodium loading. ACE-inhibition reduces TG-feedback sensitivity. In renal artery stenosis glomerular capillary pressure tends to be maintained by an AII mediated rise in postglomerular resistance. Suppression of AII by ACE-inhibition reduces efferent vascular tone and thus filtration rate. There is a potential for interaction of ACE-inhibitors with the kallikrein and prostaglandin pathways as well as with the sympathetic nervous system and endogenous opioids. This may modify the renal and blood pressure responses to these compounds.
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PMID:[Angiotensin-converting enzyme inhibition: direct and indirect mechanisms]. 299 40

Enalapril maleate is a new angiotensin converting enzyme inhibitor marketed in the U.S. by Merck Sharp and Dohme. It has been demonstrated to actively interfere with the renin-angiotensin-aldosterone system. This is reflected by both hemodynamic (decreased blood pressure) and humoral (increased plasma renin, angiotensin I, and decreased angiotensin II) responses to enalapril therapy. Activity in the kallikrein-bradykinin system is still controversial. Enalapril maleate is a prodrug which is quickly absorbed, hydrolyzed by the liver to the active metabolite enalaprilic acid, and excreted 33 percent in the bile and 61 percent in the urine. The therapeutic dosage range is 10-40 mg/d, maximum of 40 mg, given once or twice daily. The onset and duration of action are dose related. Vertigo and headache have been the most commonly reported side effects. Clinical comparison of enalapril to hydrochlorothiazide, beta-adrenergic blockers, and captopril find it efficacious in the treatment of essential hypertension. Efficacy in treating congestive heart failure and hypertension secondary to renal artery stenosis has also been demonstrated for both angiotensin converting enzyme inhibitors. The overall efficacy and safety of enalapril and captopril appear equivalent when used at low doses in patients with uncomplicated hypertension.
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PMID:Enalapril: a new angiotensin converting enzyme inhibitor. 300 62

To elucidate the molecular mechanism of the vascular action of atrial natriuretic factor (ANF), we investigated the effects of synthetic ANF and sodium nitroprusside on the levels of intracellular cyclic nucleotides and prostacyclin (measured as its stable metabolite 6-keto-prostaglandin F1 alpha) in cultured vascular smooth muscle cells from rat mesenteric artery and, in some experiments, from rat renal artery. Both ANF and sodium nitroprusside increased intracellular cyclic guanosine 3',5'-monophosphate (cGMP) levels in a dose-dependent manner but did not affect cyclic adenosine 3',5'-monophosphate levels or 6-keto-prostaglandin F1 alpha synthesis. The stimulatory effect of ANF and sodium nitroprusside on cGMP levels were additive. Neither the deprivation of extracellular Ca2+ nor calcium entry blockers affected ANF-stimulated cGMP levels. Preincubation of ANF or sodium nitroprusside with kallikrein attenuated only the effect of ANF on cGMP levels. The effect of kallikrein was abolished by serine protease inhibitors. In contrast, the oxidant methylene blue inhibited the effect of sodium nitroprusside on cGMP levels, but not that of ANF. The stimulatory effect of ANF on cGMP levels was greater in cells from renal artery than in those from mesenteric artery. These results in cultured vascular smooth muscle cells further support the hypothesis that cGMP mediates the vasorelaxant action of ANF.
Hypertension 1986 Sep
PMID:Atrial natriuretic factor and cyclic guanosine 3',5'-monophosphate in vascular smooth muscle. 301 53

We investigated the activity of the renin-angiotensin-aldosterone-system, the secretion of catecholamines and the kallikrein-kinin-system in 126 adolescents randomly selected from a large study of 1342 young people examined in an epidemiological survey conducted in Cologne in 1975, 1976 and 1980. 73 of them with arterial blood pressures below 145/90 mm Hg were called "normotensives" (systolic blood pressure 127.2 +/- 1.0 mm Hg, diastolic bp 79.7 +/- 0.8 mm Hg). They were compared with 53 "hypertensives" (systolic blood pressure 147.2 +/- 1.6 mm Hg, diastolic bp 93.7 +/- 1.1 mm Hg). Urinary catecholamines were significantly higher in the hypertensives (155.0 +/- 13.3 micrograms/d) compared to the normotensives (100.7 +/- 5.3 micrograms/d) (p less than 0.001) whereas plasma levels of adrenaline and noradrenaline were similar. Serum aldosterone levels and plasma-renin-concentrations were not different between the two groups. Angiotensin-converting-enzyme-activity was slightly higher in the hypertensive group (107.1 +/- 3.5 U/l versus 98.0 +/- 2.6 U/l, p less than 0.001). Urinary kallikrein excretion was found to be modestly lower in hypertensives compared to normotensives (0.40 +/- 0.05 versus 0.55 +/- 0.06 mU/mg creatinine). Urinary excretion of sodium and potassium, blood levels of glucose, uric acid, cholesterol and triglycerides were similar in both groups. The results of the present study suggest an increased sympathetic activity in the early stage of hypertension in adolescents.
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PMID:Vasopressor and vasodepressor hormone-systems in adolescent hypertension. 301 91

The present study was made to clarify the mechanisms of the antinephritic action of SA-446, an angiotensin I converting enzyme inhibitor, on crescentic-type anti-GBM nephritis in rats as compared to the actions of spironolactone (an antialdosterone agent), kallidinogenase (a kallikrein agent) and saralasin (an angiotensin II antagonist). SA-446 (25 mg/kg/day, p.o.) had a tendency to reduce the urinary protein excretion and plasma urea nitrogen content. In addition, this drug remarkably inhibited not only glomerular histopathological changes (i.e., crescent formation, the adhesion of capillary walls to Bowman's capsule and fibrinoid necrosis) but also the elevation of blood pressure. Spironolactone (25 mg/kg/day, p.o.) and kallidinogenase (25 KU/day, i.m.) also showed beneficial effects on glomerular histopathological changes and hypertension, although both drugs were not as effective as SA-446. However, saralasin (72 micrograms/day, s.c.) caused a marked aggravating action on this nephritis. This nephritic model showed a marked low activity of plasma renin all through the 40 day experimental period. In this model, the urinary aldosterone excretion was increased, in spite of the decrease in plasma renin activity. SA-446 and kallidinogenase significantly inhibited the decrease in plasma renin activity and the increase in urinary aldosterone excretion. Spironolactone inhibited only the increase in the aldosterone excretion. However, saralasin decreased the plasma renin activity under the control level and strongly increased the urinary aldosterone excretion (about 1.8 times the control level on the 20th day). These results suggest that the antinephritic effect of SA-446 may be related to the antihypertensive action and the increase in renal blood flow through activation of the kallikrein-kinin and prostaglandins systems.
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PMID:Studies on mechanisms of antinephritic action of SA-446 an angiotensin I converting enzyme inhibitor (1). A comparison with actions of spironolactone, kallidinogenase and saralasin. 302 37

To determine the role of the kallikrein-kinin (KK) system in patients with diabetes mellitus in relation to nephropathy and/or hypertension, the single-dose effects of captopril (25 mg, p.o.) were examined in 9 control subjects and 32 diabetics (group 1; 11 normotensives without nephropathy, group 2;10 hypertensives without nephropathy, group 3; 11 hypertensives with nephropathy). Significant hypotensive effects of captopril were found in groups 1 and 2 as well as in the control group, but not in group 3. These hypotensive effects were completely blocked by the infusion of ethyl-p-(6-guanidinohexanoyloxy) benzoate methanesulfonate (FOY), a kallikrein inhibitor. The administration of captopril during vehicle infusion induced a significant elevation of plasma renin activity (PRA) at 60 and 120 min after captopril in each group, except for group 3. FOY cancelled these captopril-induced effects on PRA in those groups. No correlation was found between pretreatment PRA and the changes in mean blood pressure (MBP) after captopril during vehicle infusion in whole diabetics. In addition, the daily urinary excretion of kallikrein in group 3 was significantly lower than that in groups 1 and 2 as well as in the control group. These results suggest that the hypotensive action of captopril in diabetics without nephropathy may be largely due to activating the KK system, and that the KK system may be suppressed in hypertensive diabetics with nephropathy.
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PMID:The hypotensive effect of single-dose captopril in diabetics. 309 4


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