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Query: UMLS:C0022116 (
ischemia
)
91,303
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The effects of pindolol and timolol on
ischemia
reperfusion damage were studied in isolated working rat hearts.
Ischemia
(15 min) decreased the mechanical function and the energy state, and increased the tissue levels of free fatty acids (FFA). During reperfusion (20 min), the mechanical function did not recover, but the energy state recovered incompletely, whereas FFA increased further. Pindolol (50 microM) accelerated recovery of the mechanical function and the energy state that had been decreased by
ischemia
during reperfusion, and inhibited the accumulation of FFA during
ischemia
and reperfusion, especially when it was applied during the whole period of reperfusion.
Timolol
(50 microM), however, did not accelerate recovery of the mechanical function and the energy state during reperfusion, although it attenuated FFA accumulation during reperfusion. The pindolol-induced recovery of the mechanical function during reperfusion was reduced by timolol. The results suggest that the intrinsic sympathomimetic activity of pindolol may play an important role, at least in part, in producing the cardioprotective effect, especially during reperfusion.
...
PMID:Cardioprotective effect of pindolol in ischemic-reperfused isolated rat hearts. 152 58
Calcium channel blockade appears to be at least as effective as beta-blockade in the treatment of anginal syndromes, but whether a similar protective effect is afforded against sudden death is unknown. In order to compare experimental antifibrillatory effects of calcium channel blockade (diltiazem), beta-adrenoceptor blockade (timolol), and nitroglycerin, we measured ventricular fibrillation (VF) thresholds in anesthetized, open-chest dogs before and after 3 min of coronary
ischemia
before and after i.v. administration of each of these drugs or saline. In control studies, VF occurred after delivery of 11.8 +/- 5.3 mA (X +/- SD) in the nonischemic state and 9.4 +/- 4.6 mA during
ischemia
(n = 25). During saline administration, no significant change in VF threshold occurred during
ischemia
, and a minimal increase over time occurred in the nonischemic state. Diltiazem (0.04-0.08 mg/kg/min; n = 10) increased VF thresholds under both ischemic (by 7.7 mA, p less than .01) and nonischemic (by 5.5-5.8 mA, p less than .05) conditions.
Timolol
(0.03 mg/kg; n = 8) caused substantially greater increases in VFT during nonischemia and
ischemia
: 11.2 +/- 2.8 mA to 51.6 +/- 38.5 mA (nonischemia) and 8.4 +/- 3.8 mA to 28.7 +/- 16.4 mA (
ischemia
), both p less than 0.02. VF thresholds were not changed after nitroglycerin (n = 8). Differing experimental effects of these drugs emphasize the need for clinical studies to establish the relative potential of calcium channel blockade and nitroglycerin to reduce mortality in ischemic heart disease.
...
PMID:Experimental antifibrillatory effects of calcium channel blockade with diltiazem: comparison with beta-blockade and nitroglycerin. 620 80
The effect of timolol on blood platelet function was studied in coronary sinus and caval vein blood at rest and during pacing-induced angina in 20 patients with coronary heart disease. During pacing-induced angina, lactate measurements confirmed that coronary sinus blood was sampled from ischemic regions in 13 men. The
ischemia
did not influence platelet function. In blood from non-ischemic myocardium, platelet activation was found during pacing: the ADP-induced aggregation, platelet retention and plasma beta-thromboglobulin levels increased moderately but significantly.
Timolol
administration prevented this platelet activation, possibly by inhibiting catecholamine release from the myocardium, and reduced the ischemic response during pacing as judged from lactate measurements and ST depressions. It is concluded that timolol reduced platelet activation induced in non-ischemic regions of the heart during tachycardia stress as well as myocardial ischemia.
...
PMID:Effects of timolol on platelets in coronary sinus blood and on myocardial ischemia during pacing-induced angina. 649 77
In the isolated, perfused working rat heart,
ischemia
(15 min) decreased mechanical function and also the tissue levels of ATP and creatine phosphate, and increased the tissue levels of lactate and free fatty acids including arachidonic acid. Reperfusion (20 min) did not restore mechanical function, but restored changes of metabolites incompletely except for free fatty acids, which changed further during reperfusion. Drugs were given 5 min before
ischemia
until the end of
ischemia
or for the first 10 min after reperfusion. Both dl- and d-propranolol (10 and 30 microM) decreased mechanical function, accelerated the recovery of mechanical function during reperfusion following
ischemia
, and attenuated
ischemia
reperfusion-induced metabolic changes. The attenuation of reperfusion-induced metabolic changes was more marked when these drugs were present during reperfusion. d-Propranolol showed a cardioprotection similar to that by dl-propranolol.
Timolol
(50 microM) did not accelerate the recovery of mechanical function during reperfusion, and did not attenuate the reperfusion-induced metabolic changes. These results suggest that d-propranolol, like dl-propranolol, has a cardioprotective effect which is probably due to its membrane stabilizing (or sodium channel blocking) action.
...
PMID:Cardioprotective effect of d-propranolol in ischemic-reperfused isolated rat hearts. 831 54
The objective of this study was to examine the effects of hypoxia, glutamate, and beta-blockers on the electrical activities of retinal ganglion cells. Single-unit extracellular and whole-cell voltage clamp recording techniques were used to record electrical activities from ganglion cells in the tiger salamander retina. This was performed under physiologic conditions, hypoxia, or elevated exogenous or endogenous glutamate levels. Light-evoked spike activities, glutamate-induced currents, and voltage-gated sodium and calcium currents were measured in the presence of the beta-1 selective antagonist betaxolol or the nonselective antagonist timolol. Hypoxia resulted in suppressing or blocking the OFF responses in the majority of ON-OFF ganglion cells tested, whereas the ON responses were only slightly affected. The presence of increased glutamate had similar findings and demonstrated an increase in the spontaneous firing rate of retinal ganglion cells. Betaxolol (2-50 microM) reduced the rate of spontaneous firing of retinal ganglion cells induced by glutamate. At 2 to 50 microM, betaxolol reversibly reduced the voltage-gated sodium currents and calcium currents in retinal ganglion cells.
Timolol
(up to 100 microM) did not demonstrate any detectable action on these currents. The physiologic responses of retinal ganglion cells to hypoxia or elevated glutamate levels in this animal model appear to be very similar. Although short-term exposure to hypoxia and glutamate used in this study exerts reversible actions on ganglion cells and does not induce permanent cell damage, such initial physiologic actions are likely to be precursors of permanent cell damage. Thus, hypoxia and elevated glutamate levels in the retina may represent a final pathway in diseases affecting retinal ganglion cells, such as glaucoma. Similar damage could result from different factors, such as decreased perfusion-induced
ischemia
or anomalous neuronal processing of glutamate. Betaxolol exerts its primary neuronal actions on retinal ganglion cells. It reversibly blocked voltage-gated calcium current and reduced the spontaneous firing rate by suppressing glutamate-gated currents and sodium currents in ganglion cells. These actions may protect ganglion cells from damage caused by
ischemia
or elevated glutamate levels.
...
PMID:Retinal ganglion cell dysfunction induced by hypoxia and glutamate: potential neuroprotective effects of beta-blockers. 1041 59
