Mirko Baruscotti , Dario DiFrancesco and Richard B . Robinson depolarization in newborn rabbit SA node cells current contribution to the diastolic +
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[PDF] [Full Text] [Abstract] , September 1, 2001; 281 (3): H1252-1259. Am J Physiol Heart Circ Physiol L. Protas, D. DiFrancesco and R. B. Robinson sinoatrial node L-type but not T-type calcium current changes during postnatal development in rabbit [PDF] [Full Text] [Abstract] , April 18, 2002; 0 (2002): 82121299-99999. PNAS Grace C. Saumarez, A. E. O. Trezise, C. L.-H. Huang, J. I. Vandenberg, W. H. Colledge and A. A. G. A. Papadatos, P. M. R. Wallerstein, C. E. G. Head, R. Ratcliff, P. A. Brady, K. Benndorf, R. sodium channel gene Scn5a Slowed conduction and ventricular tachycardia after targeted disruption of the cardiac [PDF] [Full Text] [Abstract] , November 1, 2002; 283 (5): H2074-2101. Am J Physiol Heart Circ Physiol Y. Kurata, I. Hisatome, S. Imanishi and T. Shibamoto primary pacemaker cell Dynamical description of sinoatrial node pacemaking: improved mathematical model for [PDF] [Full Text] [Abstract] , April 1, 2003; 548 (1): 147-165. J. Physiol. M. Rota and M. Vassalle pacemaker range Patch-clamp analysis in canine cardiac Purkinje cells of a novel sodium component in the [PDF] [Full Text] [Abstract] , July 1, 2005; 289 (1): H398-H413. Am J Physiol Heart Circ Physiol Guevara T. Krogh-Madsen, P. Schaffer, A. D. Skriver, L. K. Taylor, B. Pelzmann, B. Koidl and M. R. An ionic model for rhythmic activity in small clusters of embryonic chick ventricular cells
منابع مشابه
Na(+) current contribution to the diastolic depolarization in newborn rabbit SA node cells.
Isolated newborn, but not adult, rabbit sinoatrial node (SAN) cells exhibit spontaneous activity that (unlike adult) are highly sensitive to the Na(+) current (I(Na)) blocker TTX. To investigate this TTX action on automaticity, cells were voltage clamped with ramp depolarizations mimicking the pacemaker phase of spontaneous cells (-60 to -20 mV, 35 mV/s). Ramps elicited a TTX-sensitive current ...
متن کاملModulation of rate by autonomic agonists in SAN cells involves changes in diastolic depolarization and the pacemaker current.
Two distinct intracellular mechanisms have been proposed to affect the firing rate of cardiac pacemaker cells: one involves modulation of the I(f) current by the second messenger cAMP, and one relies upon disruption or alteration of SR Ca2+ transients during activity. Although both mechanisms are necessary for proper automaticity and autonomic rate control, the specific contribution of each to ...
متن کاملThe pacemaker current: from basics to the clinics.
Activation of the pacemaker ("funny," I(f)) current during diastole is the main process underlying generation of the diastolic depolarization and spontaneous activity of cardiac pacemaker cells. I(f) modulation by autonomic transmitters is responsible for the chronotropic regulation of heart rate. Given its role in pacemaking, I(f) has been a major target of investigation aimed to exploit its r...
متن کاملL-type but not T-type calcium current changes during postnatal development in rabbit sinoatrial node.
Although the neonatal sinus node beats at a faster rate than the adult, when a sodium current (I(Na)) present in the newborn is blocked, the spontaneous rate is slower in neonatal myocytes than in adult myocytes. This suggests a possible functional substitution of I(Na) by another current during development. We used ruptured [T-type calcium current (I(Ca,T))] and perforated [L-type calcium curr...
متن کاملI(f)-dependent modulation of pacemaker rate mediated by cAMP in the presence of ryanodine in rabbit sino-atrial node cells.
I(f) contributes to generation and autonomic control of spontaneous activity of cardiac pacemaker cells through a cAMP-dependent, Ca(2+)-independent mechanism of rate regulation. However, disruption of Ca(2+) release from sarcoplasmic reticulum (SR) by ryanodine (Ry) has been recently shown to slow spontaneous rate and inhibit beta-adrenergic receptor (betaAR)-induced rate acceleration, leading...
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تاریخ انتشار 2000