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    Results: 1 to 20 of 479

    1.

    Transverse propagation in an expanded PSpice model for cardiac muscle with gap-junction ion channels.

    Ramasamy L, Sperelakis N.

    Biomed Eng Online. 2006 Jul 28;5:46.PMID: 16875501 [PubMed - indexed for MEDLINE]Related articlesFree article

    2.

    Gap-junction channels inhibit transverse propagation in cardiac muscle.

    Sperelakis N, Ramasamy L.

    Biomed Eng Online. 2005 Jan 28;4(1):7.PMID: 15679888 [PubMed - indexed for MEDLINE]Related articlesFree article

    3.

    Boundary effects influence velocity of transverse propagation of simulated cardiac action potentials.

    Sperelakis N, Kalloor B, Ramasamy L.

    Theor Biol Med Model. 2005 Sep 6;2:36.PMID: 16144554 [PubMed - indexed for MEDLINE]Related articlesFree article

    4.

    Effect of transverse gap-junction channels on transverse propagation in an enlarged PSpice model of cardiac muscle.

    Ramasamy L, Sperelakis N.

    Theor Biol Med Model. 2006 Mar 16;3:14.PMID: 16542447 [PubMed - indexed for MEDLINE]Related articlesFree article

    5.

    Transverse propagation of action potentials between parallel chains of cardiac muscle and smooth muscle cells in PSpice simulations.

    Sperelakis N, Kalloor B.

    Biomed Eng Online. 2004 Mar 3;3:5.PMID: 14998434 [PubMed - indexed for MEDLINE]Related articlesFree article

    6.

    Action potential repolarization enabled by Ca++ channel deactivation in PSpice simulation of smooth muscle propagation.

    Ramasamy L, Sperelakis N.

    Biomed Eng Online. 2005 Dec 30;4(1):71.PMID: 16384537 [PubMed - indexed for MEDLINE]Related articlesFree article

    7.

    Propagation of action potentials between parallel chains of cardiac muscle cells in PSpice simulation.

    Sperelakis N.

    Can J Physiol Pharmacol. 2003 Jan;81(1):48-58.PMID: 12665257 [PubMed - indexed for MEDLINE]Related articles

    8.

    Propagation velocity profile in a cross-section of a cardiac muscle bundle from PSpice simulation.

    Sperelakis N, Ramasamy L.

    Theor Biol Med Model. 2006 Aug 15;3:29.PMID: 16911777 [PubMed - indexed for MEDLINE]Related articlesFree article

    9.

    Cable properties and propagation velocity in a long single chain of simulated myocardial cells.

    Ramasamy L, Sperelakis N.

    Theor Biol Med Model. 2007 Sep 14;4:36.PMID: 17868460 [PubMed - indexed for MEDLINE]Related articlesFree article

    10.

    Effect of gap junction distribution on impulse propagation in a monolayer of myocytes: a model study.

    Hubbard ML, Ying W, Henriquez CS.

    Europace. 2007 Nov;9 Suppl 6:vi20-8.PMID: 17959689 [PubMed - indexed for MEDLINE]Related articlesFree article

    11.

    Repolarization of the action potential enabled by Na+ channel deactivation in PSpice simulation of cardiac muscle propagation.

    Ramasamy L, Sperelakis N.

    Theor Biol Med Model. 2005 Dec 12;2:48.PMID: 16343352 [PubMed - indexed for MEDLINE]Related articlesFree article

    12.

    Role of gap junctions in the propagation of the cardiac action potential.

    Rohr S.

    Cardiovasc Res. 2004 May 1;62(2):309-22. Review.PMID: 15094351 [PubMed - indexed for MEDLINE]Related articlesFree article

    13.

    Dynamic model for ventricular junctional conductance during the cardiac action potential.

    Lin X, Gemel J, Beyer EC, Veenstra RD.

    Am J Physiol Heart Circ Physiol. 2005 Mar;288(3):H1113-23. Epub 2004 Oct 28.PMID: 15513960 [PubMed - indexed for MEDLINE]Related articlesFree article

    14.

    Propagated repolarization of simulated action potentials in cardiac muscle and smooth muscle.

    Sperelakis N, Ramasamy L, Kalloor B.

    Theor Biol Med Model. 2005 Feb 14;2:5.PMID: 15710046 [PubMed - indexed for MEDLINE]Related articlesFree article

    15.

    Influence of dynamic gap junction resistance on impulse propagation in ventricular myocardium: a computer simulation study.

    Henriquez AP, Vogel R, Muller-Borer BJ, Henriquez CS, Weingart R, Cascio WE.

    Biophys J. 2001 Oct;81(4):2112-21.PMID: 11566782 [PubMed - indexed for MEDLINE]Related articlesFree article

    16.

    Gap junctions and propagation of the cardiac action potential.

    Bernstein SA, Morley GE.

    Adv Cardiol. 2006;42:71-85. Review.PMID: 16646585 [PubMed - indexed for MEDLINE]Related articles

    17.

    Electrophysiological effects of remodeling cardiac gap junctions and cell size: experimental and model studies of normal cardiac growth.

    Spach MS, Heidlage JF, Dolber PC, Barr RC.

    Circ Res. 2000 Feb 18;86(3):302-11.PMID: 10679482 [PubMed - indexed for MEDLINE]Related articlesFree article

    18.

    Combined electric field and gap junctions on propagation of action potentials in cardiac muscle and smooth muscle in PSpice simulation.

    Sperelakis N.

    J Electrocardiol. 2003 Oct;36(4):279-93.PMID: 14661164 [PubMed - indexed for MEDLINE]Related articles

    19.

    Propagating depolarization in anisotropic human and canine cardiac muscle: apparent directional differences in membrane capacitance. A simplified model for selective directional effects of modifying the sodium conductance on Vmax, tau foot, and the propagation safety factor.

    Spach MS, Dolber PC, Heidlage JF, Kootsey JM, Johnson EA.

    Circ Res. 1987 Feb;60(2):206-19.PMID: 2436826 [PubMed - indexed for MEDLINE]Related articlesFree article

    20.

    Gap junction channels and cardiac impulse propagation.

    Desplantez T, Dupont E, Severs NJ, Weingart R.

    J Membr Biol. 2007 Aug;218(1-3):13-28. Epub 2007 Jul 28. Review.PMID: 17661127 [PubMed - indexed for MEDLINE]Related articles

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