1 The mechanism of post-extrasystolic, rest and frequency potentiation was studied in canine isolated ventricular muscle. 2 Ryanodine, which impairs Ca availability from the sarcoplasmic reticulum (SR), reduced the amplitude of the extrasystole less than that of the steady state contraction. Ryanodine also inhibited post-extrasystolic potentiation and converted rest-potentiation into rest depression. Restpotentiation was blocked preferentially by ryanodine compared to post-extrasystolic potentiation. An increase in the contribution of extracellular Ca to the extrasystolic contraction could not entirely account for the post-extrasystolic potentiation. 3 Prolonged rest, by itself, also caused depression of the first post-rest contraction. During restpotentiation, SR Ca seemed to play a greater role in contraction than transmembrane Ca influx. However, the ability of the 'release pool' of Ca in the SR to be reprimed after a contraction was reduced. This was seen as a decrease in post-extrasystolic potentiation elicited immediately after rest.4 A decrease in stimulus interval was associated with a transient decrease in contraction amplitude followed by an increase. An abrupt increase in stimulus interval had the opposite effect. Ryanodine blocked the initial transient changes and accelerated the delayed changes. These results suggest that the transient changes in contraction after sudden changes in drive interval are dependent on the SR. 5 Transmembrane Ca entry and the rate of recovery of the Ca release process (repriming) in the SR after a contraction seem to be interval-dependent. The data also indicate that different mechanisms are involved in post-extrasystolic and rest-potentiation. 6 The results are consistent with a model which proposes 'recirculation' of activator Ca within the SR after a contraction or of the presence of an appreciable amount of inactivation of the SR Ca release process during normal stimulation. An increased pool of releasable Ca due to longer recirculation time or a time-dependent decay in the level of inactivation of Ca release from the SR may give rise to rest-potentiation.
Rest potentiation, believed to be due to increased utilization of sarcoplasmic reticular calcium, was converted to rest depression by BAY K 8644 (1 microM). Plateau height and duration of the postrest beat were enhanced by BAY K 8644, suggesting an enhancement of extracellular calcium entry. Caffeine (3 mM) also produced depression at all rest intervals, although to a lesser extent than BAY K 8644. Compared with BAY K 8644, treatment with caffeine resulted in an elevation of plateau amplitude and a shortening of action potential duration. Action potential configuration changes induced by rest were unaltered by caffeine despite reduction in rest potentiation. Caffeine-induced rest depression was associated with an increase in the time to peak tension. This was not observed with BAY K 8644. Treatment with both caffeine (3 mM) and BAY K 8644 (1 microM) greatly prolonged time to peak tension. Action potential duration and plateau height were either maintained or increased. Less rest depression was observed with the combination than with either agent alone. These results suggest that 1) BAY K 8644 and caffeine inhibit rest potentiation by different mechanisms, and 2) caffeine-induced inhibition of calcium uptake by the sarcoplasmic reticulum may enhance the effect of BAY K 8644-induced increase in calcium influx on the contractile apparatus.
An analysis is presented for fully developed laminar convective heat transfer in tubes with internal longitudinal fins and uniform outside wall temperature. The governing momentum and energy equations were solved numerically, with the influence of fin conductance accounted for by a single parameter. The distributions of fin temperature, fluid temperature and local heat flux (both at the fin and unfinned surfaces) are presented. These are shown to be strongly dependent on finned tube geometry and, in some cases, on the fin conductance parameter as well. Based on average heat transfer per unit area, the various fins proved more effective than the unfinned surfaces. Values for overall Nusselt number indicated significant heat transfer enhancement over smooth tube conditions.
Contraction of canine ventricular trabeculae were recorded stimulation at a frequency of 0.5 Hz and after rest periods of 2 and 8 min to analyze the effect of the Ca channel agonist BAY k 8644, on sarcoplasmic reticular function. Short periods of rest interposed between steady trains of stimuli caused a potentiation of the postrest beat. This is believed to be due to the mobilization of activator Ca from the sarcoplasmic reticulum (SR). Racemic BAY k 8644 and its Ca channel agonist enantiomer, (-) BAY k 8644, both produced an increase in contraction in response to a steady train of stimuli but converted rest potentiation into rest depression. This has been interpreted as increased loss of Ca from the SR during diastole. Addition of Ca channel antagonists, (+) BAY k 8644, nitrendipine, or nifedipine, to reverse the agonistic effect of (-) and racemic BAY k 8644 on the Ca channel did not convert the rest depression into rest potentiation. In the presence of stimuli but converted rest potentiation into rest depression. This has been interpreted as increased loss of Ca from the SR during diastole.(ABSTRACT TRUNCATED AT 250 WORDS)
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.