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

Multiple serum chemical values were examined in 92 patients with chronic glaucoma who were treated with the carbonic anhydrase inhibitors (CAIs) acetazolamide or methazolamide, seeking relationships between serum composition and symptomatic side effects. Of the 92 patients, 44 complained of a symptom-complex of malaise, fatigue, weight loss, depression, anorexia, and loss of libido, which we have found most commonly to threaten continuation of therapy. Patients who had this symptom complex were significantly more acidotic than those without it. Ten of 24 patients who had chemical evidence of excessive acidosis reported a dramatic alleviation of symptoms when sodium bicarbonate was administered, although their serum CO2-combining power changed little. There was no correlation of the symptom complex with serum potassium concentration, except in a few patients who were simultaneously receiving chlorothiazide diuretics for systemic hypertension and who became frankly hypokalemic.
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PMID:Carbonic anhydrase inhibitor side effects. Serum chemical analysis. 88 13

Changes in carbonic anhydrase (CA) activity have been associated with metabolic diseases like diabetes mellitus and hypertension. To explore the exchange of H+ for Na+ and 22Na+, the sodium pool, CA activity and H2O content in erythrocytes from the two groups of diabetic chronic renal failure (CRF) patients with and without hypertension before dialysis were studied. The results were compared with those from the normotensive controls. The CA activity was determined spectrophotometrically, the sodium pool by ouabain insensitive 22Na+ influx and the percent H2O content gravimetrically. The 22Na+ influx in CRF patients with hypertension was significantly higher (p less than 0.025) than in the normotensive CRF patients and the controls. The levels of CA activity (U/min/mL) and the percent H2O content were significantly different in the hypertensive and the normotensive CRF patients from the control group (2.24 +/- 0.69 and 67.11 +/- 1.33, 1.95 +/- 0.63 and 66.43 +/- 1.51, 1.44 +/- 0.07 and 63.61 +/- 1.72, respectively). The present study implies a relationship between the 22Na+ influx and CA activity in CRF patients with hypertension. The variation of CA activity may thus result in changes in H+ production and ultimately in the intracellular Na+ pool.
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PMID:Erythrocyte carbonic anhydrase: a major intracellular enzyme to regulate cellular sodium metabolism in chronic renal failure patients with diabetes and hypertension. 161 Mar 83

Drugs that induce an increased urine flow are used both legitimately (treatment of hypertension and oedema) and otherwise (rapid weight loss) in sports and exercise. There are 5 major categories of diuretic drugs based on their mechanisms and loci of action. Common to all classes is hypohydration, which has been shown to have an array of adverse effects on performance, including impaired strength, power and endurance. Postural hypotension can be particularly troublesome in the elderly. Also common to all diuretics, except those interfering with the aldosterone mechanism in the distal nephron, is hypokalaemia. Severe symptomatic hypokalaemia (serum K+ concentration less than 3.0 mmol/L) is rare except in clinical situations in which additional hypokalaemic factors are present. Moderate levels of hypokalaemia (serum K+ concentration 3.0 to 3.5 mmol/L) can increase the risk of adverse reactions as has been shown in a variety of prospective clinical studies. Hypokalaemia has effects on cardiac rhythm, muscle function and integrity, local blood flow, carbohydrate metabolism, and the blood lipid profile. Performance studies generally show diminished exercise tolerance in direct proportion to the degree of hypohydration induced. This is not the case, however, in a clinical setting of compromised cardiopulmonary function, in which diuresis has direct and indirect inotropic effects which augment exercise tolerance and decrease symptoms. The ability of the carbonic anhydrase inhibitor, acetazolamide, to induce a hyperventilatory response to the obligatory metabolic acidosis is taken advantage of in mountaineering to prevent or ameliorate the symptoms of acute mountain sickness, thereby improving exercise performance at high altitude. It is suggested that in clinical situations in which the use of a diuretic is considered appropriate, every effort be made to maintain or restore the serum concentration and the total body store of potassium to normal. To some degree this can be accomplished through diet, although potassium chloride supplements or potassium-sparing diuretics or diuretic combinations may be necessary.
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PMID:Diuretic therapy and exercise performance. 330 68

Effective diuresis requires both sufficient glomerular filtrate and adequate delivery of the diuretic drug to the lumen of the renal tubule. Diuretics will not "force open" the kidney. Diuretics that work primarily in the proximal tubule include osmotic diuretics (e.g., mannitol), diuretics that interfere with the adenyl cyclase system (e.g., xanthines), and those which inhibit carbonic anhydrase (e.g., acetazolamide). Some thiazide and thiazide-like diuretics have a secondary site of action in the proximal tubule based on either carbonic anhydrase inhibition or other mechanisms, such as inhibition of sodium phosphate reabsorption. The diuretics that work primarily in the medullary diluting segment of the loop of Henle, furosemide and ethacrynic acid, block the active reabsorption of chloride and interfere with the tubular reabsorption of free water. The exact mechanism remains unknown. These diuretics tend to have a "high ceiling," to be potent and rapidly acting, and to have a short duration of effect. They are excellent for the treatment of severe fluid overload or pulmonary edema but are not ideal for the treatment of uncomplicated hypertension. Furosemide is a sulfonamide derivative; ethacrynic acid can be used in patients who are allergic to sulfa drugs. Diuretics that work primarily in the cortical diluting segment include the thiazides and thiazide-like drugs. They inhibit sodium transport by an undetermined mechanism. Most of them seem to reach a dose-response plateau beyond which little additional effect is gained by increasing the dose. Most of them appear to lose efficacy as the glomerular filtration rate decreases, except for metolazone and indapamide. The thiazides are most commonly used to treat hypertension. Diuretics that work primarily in the distal tubule and collecting tubule include the aldosterone inhibitor spironolactone and two drugs that impair tubular reabsorption of sodium by direct action, triamterene and amiloride. These drugs are primarily used for their potassium-sparing effect.
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PMID:Insights into intrarenal sites and mechanisms of action of diuretic agents. 686 1

Open angle glaucoma is an optic neuropathy, the etiology of which is still unknown and which has not yet satisfactory therapy. Intraocular hypertension due to a decrease in trabecular out flow facility, is a risk factor. The side effects caused by ocular hypotensive treatments justify the search for better-tolerated drugs. A survey of the new approaches is reported: carbonic anhydrase inhibition, renin-angiotensin system inhibition, glucocorticoid antagonism, the use of prostaglandins etc. are evoked, as well as other more speculative ways: antioxidant treatments. Glaucoma which is characterized by ganglion cell degeneration probably related to a vascular defect, deserves to be studied from this point of view. Recent data on vascular and haemorheological abnormalities and the possible involvement of excitotoxic neurotransmitters in pathological process open a novel way for really innovative pharmacological research.
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PMID:[New perspectives in the pharmacological treatment of glaucoma]. 809 41

In physiological conditions, the regulation of acid-base balance in brain maintains a noteworthy stability of cerebral pH. During systemic metabolic acid-base imbalances cerebral pH is well controlled as the blood/brain barrier is slowly and poorly permeable to electrolytes (HCO3- and H+). Cerebral pH is regulated by a modulation of the respiratory drive, triggered by the early alterations of interstitial fluid pH, close to medullary chemoreceptors. As blood/brain barrier is highly permeable to Co2, CSF pH is corrected in a few hours, even in case of severe metabolic acidosis and alkalosis. Conversely, during ventilatory acidosis and alkalosis the cerebral pH varies in the same direction and in the same range than blood pH. Therefore, the brain is better protected against metabolic than ventilatory acid-base imbalances. Ventilatory acidosis and alkalosis are able to impair cerebral blood flow and brain activity through interstitial pH alterations. During respiratory acidosis, [HCO3-] increases in extracellular fluids to control cerebral pH by two main ways: a carbonic anhydrase activation at the blood/brain and blood/CSF barriers level and an increase in chloride shift in glial cells (HCO3- exchanged for Cl-). During respiratory alkalosis, [HCO3-] decreases in extracellular fluids by the opposite changes in HCO3- transport and by an increase in lactic acid synthesis by cerebral cells. The treatment of metabolic acidosis with bicarbonates may induce a cerebral acidosis and worsen a cerebral oedema during ketoacidosis. Moderate hypocapnia carried out to treat intracranial hypertension is mainly effective when cerebral blood flow is high and vascular CO2 reactivity maintained. Hypocapnia may restore an altered cerebral blood flow autoregulation. Instrumental hypocapnia requires a control of cerebral perfusion pressure and cerebral arteriovenous difference for oxygen, to select patients for whom this kind of treatment may be of benefit, to choose the optimal level of hypocapnia and to avoid any deleterious effect. If hypocapnia is maintained over several days, an adaptation of CSF pH may limit the therapeutic effect on the cerebral blood flow and the intracranial pressure.
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PMID:[Acid-base equilibrium and the brain]. 809 67

Acute arterial hypertension provokes a rapid decrease in proximal tubule (PT) Na+ reabsorption, increasing flow to the macula densa, the signal for tubuloglomerular feedback. We tested the hypothesis, in rats, that Na+ transport is decreased due to rapid redistribution of apical Na+/H+ exchangers and basolateral Na+ pumps to internal membranes. Arterial pressure was increased 50 mmHg by constricting various arteries. We also tested whether transporter internalization occurred when PT Na+ reabsorption was inhibited with the carbonic anhydrase inhibitor benzolamide. Five minutes after initiating either natriuretic stimuli, cortex was removed, and membranes were fractionated by density gradient centrifugation. Urine output and endogenous lithium clearance increased threefold in response to either stimuli. Acute hypertension provoked a redistribution of apical Na+/H+ exchanger NHE3, alkaline phosphatase, and dipeptidyl peptidase IV to higher density membranes enriched in the intracellular membrane markers. Basolateral membrane Na(+)-K(+)-adenosinetriphosphatase (Na(+)-K(+)-ATPase) activity decreased 50%, 25-30% of the alpha 1-and beta 1-subunits redistributed to higher density membranes, and the remainder is attributed to decreased activity of the transporters. Benzolamide did not alter Na+ transporter activity or distribution, implying that decreasing apical Na+ uptake does not initiate redistribution or inhibition of basolateral Na(+)-K(+)-ATPase. We conclude that PT natriuresis provoked by acute arterial pressure is mediated by both endocytic removal of apical Na+/H+ exchangers and basolateral Na+ pumps as well as decreased total Na+ pump activity.
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PMID:Rapid redistribution and inhibition of renal sodium transporters during acute pressure natriuresis. 876 20

Patients with chronic renal failure retain Na+ and H2O, and they retain K- and acid. This disordered homeostasis results in hypertension, edema, hyperkalemia and acidosis. Diuretics may be used to favorably modify these disturbances. However, because of the limited filtered load of water and electrolytes, and the low renal blood flow, measures need to be taken to maximize the response to diuretics. These measures include: (a) the use of the most bioavailable drug, torasemide, when using the oral route; (b) the use of the drug with the least hepatic elimination, furosemide, when using the intravenous route; (c) the use of combinations of loop- and distal tubule-acting diuretics; (d) the use of the maximum effective diuretic dose; and (e) the use of repeated doses or constant infusion. In benefiting hypertension, vascular congestion and hyperkalemia diuretics appear to exert their effects not only on the kidneys but also on extrarenal sites, such as the vascular tree and the gastrointestinal tract. The use of diuretics, however, is not without complications, which include: intravascular volume depletion and azotemia, ototoxicity (when using loop-acting diuretics), hyperlipidemia, acute pancreatitis, hyperkalemia (when using K(+)-sparing agents), and acidosis (when using carbonic anhydrase inhibitors).
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PMID:Use of diuretics in chronic renal failure. 918 1

Hydrochlorothiazide has been shown to exert direct vasodilator effects by activation of calcium-activated potassium (KCa) channels in human and guinea pig isolated resistance arteries. Since hydrochlorothiazide binds to and inhibits the enzyme carbonic anhydrase and because KCa channel activation is pH sensitive, we investigated the role of intracellular and extracellular carbonic anhydrase in the vascular effects of thiazide diuretics. Small arteries were isolated from guinea pig mesentery and studied by use of a microvascular myograph technique. In some experiments, tone and intracellular pH (pHi) were measured simultaneously with 2', 7'-bis(2-carboxyethyl)-5(6)'-carboxyfluorescein (BCECF-AM). Bendroflumethiazide, a thiazide diuretic with minimal inhibitory effects on carbonic anhydrase, had little effect on noradrenaline-induced tone (16+/-8% relaxation) compared with hydrochlorothiazide (74+/-12% relaxation). In contrast to hydrochlorothiazide, the action of bendroflumethiazide was unaffected by 100 nmol/L charybdotoxin, a selective blocker of KCa channels. All inhibitors of carbonic anhydrase relaxed noradrenaline-induced tone in a concentration-dependent manner, and this effect was blocked by charybdotoxin. Hydrochlorothiazide and the inhibitors of carbonic anhydrase failed to relax tone induced by a depolarizing potassium solution. Acetazolamide and hydrochlorothiazide increased pHi by 0.27+/-0.07 and 0.21+/-0.04, respectively, whereas bendroflumethiazide had a much smaller effect: 0.06+/-0.03. The rise in pHi induced by any agent was not inhibited by charybdotoxin. The vasorelaxant effect of hydrochlorothiazide is shared by other inhibitors of carbonic anhydrase. Inhibitors of carbonic anhydrase, but not bendroflumethiazide, cause intracellular alkalinization, which is associated with KCa channel opening. These data suggest that the vasodilator effect of thiazide diuretics results primarily from inhibition of vascular smooth muscle cell carbonic anhydrase, which results in a rise in pHI, leading to KCa channel activation and vasorelaxation.
Hypertension 1999 Apr
PMID:Inhibition of carbonic anhydrase accounts for the direct vascular effects of hydrochlorothiazide. 1020 45

In this article we studied in vitro and in vivo the effect of calcium channel blockers (verapamil and amlodipine) on erythrocyte carbonic anhydrase I activity, on carbonic anhydrase I isolated from vascular smooth muscles, and on arterial blood pressure values in human beings and in animals. Our in vitro and in vivo results have shown that verapamil and amlodipine are strong inhibitors of carbonic anhydrase I both in erythrocytes (in human beings) and in vascular smooth muscles (in animals). In human beings calcium channel blockers reduce arterial blood pressure in subjects with hypertension and progressively reduce erythrocyte carbonic anhydrase I activity. We assume that verapamil and amlodipine possess a dual mechanism of action: the first mechanism consists of their action on calcium channels, and the second mechanism, proposed by us, shows that verapamil and amlodipine inhibit vascular smooth muscle carbonic anhydrase I activity with consecutive pH increase. The increase of pH might be an additional factor involved in intracellular calcium influx through calcium channels. This dual mechanism of action would bring new data regarding the hypotensive effect of verapamil and amlodipine, effects that might also be parallel and dependent on carbonic anhydrase I inhibition.
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PMID:Hypotensive effect of calcium channel blockers is parallel with carbonic anhydrase I inhibition. 1106 85


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