1,721,048 research outputs found
Crystallization of peralkaline rhyolitic magmas: Rheological implications for the Pantelleria system
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Effect of increasing doses of labetalol on blood pressure, plasma renin activity and aldosterone in hypertensive patients.
No full text1. Four different doses of labetalol (150, 300, 600 and 900 mg/day) were given for 1 week to each of four groups of patients with essential hypertension (six patients for each group). 2. Labetalol decreased mean blood pressure and heart rate to the same extent on the first and the seventh days of treatment. Only standing blood pressure showed a dose-dependent inhibition both in the supine and upright position. 3. Labetalol exerted a net inhibitory effect on plasma renin activity, which was related to basal renin values and was already maximal at the lowest doses. This effect was well maintained in the supine position. This effect was well maintained in the supine position, although during standing it tended to be less evident with increasing doses. 4. Urinary aldosterone was decreased in a dose-dependent fashion and its changes were largely independent fashion and its changes were largely independent of plasma renin activity. 5. Neither basal values nor changes of renin and aldosterone were related to the hypotensive effect of labetalol. 6. During labetalol treatment urinary sodium excretion fell for 2-3 days and then returned to basal values. The retentive effect of labetalol on sodium was directly related to the decrease of blood pressure, and the successive sodium escape might be explained either by the observed increase of plasma volume (indirectly measured by packed cell volume) or by aldosterone inhibition
Endothelium dependent forearm vasodilation is reduced in normotensives with familial history of hypertension.
No full textThe effect of beta-adrenergic blockade on patterns of urinary sodium excretion, blood pressure and plasma renin activity in patients with essential and renovascular hypertension.
No full textThe effects of beta-adrenergic blockade, using oxprenolol, were studied in plasma renin activity, urinary sodium excretion and blood pressure in ten normal subjects and in 120 patients with essential and renovascular hypertension. Blood pressure was reduced by oxprenolol administration. The hypotensive action of the drug was independent of either the basal plasma renin activity or of the plasma renin activity response. Oxprenolol decreased plasma renin activity in normal subjects and in patients with essential hypertension with normal or high basal plasma renin activity. Patients with low plasma renin activity may show a lack of response to the beta-blockade. In patients with renovascular disease the response of plasma renin activity to oxprenolol was not a discriminant factor between patients cured or not cured by surgery. Some renovascular patients were unresponsive to beta-blockade with oxprenolol
The effect of hospitalization on arterial pressure of patients with essential hypertension
No full textEffects of prostaglandins inhibition on changes in active and inactive renin induced by antihypertensive drugs.
No full textThe behaviour of active (AR) and inactive (IR) renin was studied in 48 hypertensive patients (37 with uncomplicated essential hypertension and 11 with reno-vascular hypertension) treated with indomethacin alone or with AR stimulating (bumetanide, tienilic acid, captopril) and inhibiting (atenolol) drugs before and after indomethacin addition. In 10 pts indomethacin (50mg q.i.d./3 days) reduced (p less than 0.05) AR and to a lesser extent IR. In 6 pts bumetanide (1 mg) increased (p less than 0.05) only AR and this effect was abolished by indomethacin. In 6 pts tienilic acid (250 mg) increased (p less than 0.05) only AR and this action was unchanged by indomethacin. In 11 renovascular pts captopril (100mg) increased AR (p less than 0.01) and lesser IR and both these effects were uninfluenced by indomethacin. In 11 essential hypertensive pts captopril (25mg b.i.d./3 days) increased only AR (p less than 0.02), but after 1 year both AR and IR were increased (p less than 0.05) and these effects were abolished by indomethacin. In all the above reported protocols we did never find any inverse correlation between either AR and IR values or their induced changes. These data suggest that prostaglandins stimulate, even if not to a similar extent, both AR and IR and that drugs, which stimulate renin either through or independently of PGs, did not cause any apparent interconversion of plasma IR into AR. In 6 pts atenolol (100 mg daily/6 days) reduced AR (p less than 0.05) and tended to increase IR. Indomethacin addition further decreased AR and reduced IR (both p less than 0.05 vs atenolol alone): however the proportion (% of total) of IR was still reduced. These findings suggest that beta 1-adrenoreceptors blockade exerts a divergent effect on active and inactive renin and that this action is not influenced by PGs synthesis inhibition
The effect of phentolamine on active and inactive renin release in human renovascular hypertension.
No full textUsing synchrotron X-ray microtomography to characterize the pore network of reservoir rocks: A case study on carbonates
No full textIn this work we propose a new methodology to calculate pore connectivity in granular rocks. This method is useful to characterize the pore networks of natural and laboratory compaction bands (CBs), and compare them with the host rock pore network. Data were collected using the synchrotron X-ray microtomography technique and quantitative analyses were carried out using the Pore3D software library. The porosity was calculated from segmented tridimensional images of deformed and pristine rocks. A process of skeletonization of the pore space was used to obtain the number of connected pores within the rock volume. By analyzing the skeletons the differences between natural and laboratory CBs were highlighted. The natural CB has a lower porosity than to the laboratory one. In natural CBs, the grain contacts appear welded, whereas laboratory CBs show irregular pore shape. Moreover, we assessed for the first time how pore connectivity evolves as a function of deformation, documenting the mechanism responsible for pore connectivity drop within the CBs. © 2015 Elsevier Lt
Interaction between oxprenolol and indomethacin on blood pressure in essential hypertensive patients.
No full textA double-blind, cross-over study in 16 patients with essential hypertension was carried out, to evaluate any possible interference by indomethacin, a known prostaglandin-synthetase inhibitor, with the antihypertensive effect of oxprenolol, a non-selective beta-adrenoceptor blocking agent. Both indomethacin and oxprenolol, as well as the two drugs combined, inhibited plasma renin activity; no change was found in urinary sodium excretion or body weight. Oxprenolol alone caused a highly significant decrease in the systolic ( - 10.4 mmHg, p less than 0.001), diastolic ( - 7.4 mmHg, p less than 0.001) and mean ( - 7.7 mmHg, p less than 0.01) blood pressures, whereas indomethacin did not influence blood pressure. When the two drugs were given in combination, blood pressure decreased (systolic: - 5.9 mmHg; diastolic: - 4.0 mmHg; mean: - 4.6 mmHg), but the changes induced in blood pressure were reduced by about 50% when compared with those in the oxprenolol alone period. The data show that indomethacin seems to interfere with the antihypertensive effect of oxprenolol, by an action which may be due to the inhibition of prostaglandin synthesi
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