Unique properties of cardiac action potentials recorded with voltage-sensitive dyes.
about
Visualizing excitation waves inside cardiac muscle using transillumination.Intramural multisite recording of transmembrane potential in the heart.Optical recording system based on a fiber optic image conduit: assessment of microscopic activation patterns in cardiac tissue.A MULTICHANNEL FIBER-OPTIC MAPPING SYSTEM FOR INTRAMURAL RECORDING OF CARDIAC ACTION POTENTIALS.Gap junction heterogeneity as mechanism for electrophysiologically distinct properties across the ventricular wallSimulating photon scattering effects in structurally detailed ventricular models using a Monte Carlo approach.Effects of elevated extracellular potassium on the stimulation mechanism of diastolic cardiac tissue.Synthesis of voltage-sensitive fluorescence signals from three-dimensional myocardial activation patterns.Examination of optical depth effects on fluorescence imaging of cardiac propagationProperties of new, long-wavelength, voltage-sensitive dyes in the heartSynthesis of voltage-sensitive optical signals: application to panoramic optical mapping.Imaging electrical excitation inside the myocardial wallEnhanced dispersion of repolarization explains increased arrhythmogenesis in severe versus therapeutic hypothermia.Optical imaging of mitochondrial function uncovers actively propagating waves of mitochondrial membrane potential collapse across intact heart.Variability of action potential duration in pharmacologically induced long QT syndrome type 1Spontaneous calcium oscillations during diastole in the whole heart: the influence of ryanodine reception function and gap junction couplingEvaluation of excitation propagation in the rabbit heart: optical mapping and transmural microelectrode recordingsExtracting surface activation time from the optically recorded action potential in three-dimensional myocardium.Construction and validation of anisotropic and orthotropic ventricular geometries for quantitative predictive cardiac electrophysiologySodium channels in the Cx43 gap junction perinexus may constitute a cardiac ephapse: an experimental and modeling study.A fiber-based ratiometric optical cardiac mapping channel using a diffraction grating and split detector.Interstitial volume modulates the conduction velocity-gap junction relationship.Electromechanical feedback with reduced cellular connectivity alters electrical activity in an infarct injured left ventricle: a finite element model study.Optical mapping of cryoinjured rat myocardium grafted with mesenchymal stem cellsThe role of photon scattering in optical signal distortion during arrhythmia and defibrillation.Focal but reversible diastolic sheet dysfunction reflects regional calcium mishandling in dystrophic mdx mouse hearts.Preprocessing of fluoresced transmembrane potential signals for cardiac optical mapping.Extracting intramural wavefront orientation from optical upstroke shapes in whole hearts.Depth-resolved optical imaging of transmural electrical propagation in perfused heart.Islands of spatially discordant APD alternans underlie arrhythmogenesis by promoting electrotonic dyssynchrony in models of fibrotic rat ventricular myocardium.Mild hypothermia decreases arrhythmia susceptibility in a canine model of global myocardial ischemia*Mechanisms of conduction slowing during myocardial stretch by ventricular volume loading in the rabbit.Photon scattering effects in optical mapping of propagation and arrhythmogenesis in the heartTransmembrane current imaging in the heart during pacing and fibrillation.Effects of unipolar stimulation on voltage and calcium distributions in the isolated rabbit heart.Heart failure enhances susceptibility to arrhythmogenic cardiac alternans.Potassium channel activators differentially modulate the effect of sodium channel blockade on cardiac conduction.Optical and electrical recordings from isolated coronary-perfused ventricular wedge preparations.Combining wet and dry research: experience with model development for cardiac mechano-electric structure-function studies.What can we learn from the optically recorded epicardial action potential?
P2860
Q28346259-8754EE3B-4762-43D3-8E24-0F62F6C0E107Q31018820-8F07008F-AA6F-4343-A892-3534D8E09599Q32051063-CE03AB29-C070-4431-91A8-E03E1D0B589AQ33242915-5F651F21-0A05-4D37-966B-543AEC827935Q33727563-2E222758-238F-4CA2-8CE5-3269B38A52B9Q34180671-A4D57084-AF0A-423D-8E13-07963EF56637Q34181240-81AA2585-877C-4C29-9E5F-6D68F771CE2CQ34183201-50E03231-D22F-48EF-AD93-51649AC85B02Q34184059-3DD24014-E5BE-4061-A309-5EB39E9379C0Q34477357-70FCF0AA-438C-437D-95C2-1752E9FFEA00Q34481545-F5E8B4B3-0918-4B94-9E93-3341901FA974Q34617785-C4FFCC07-25CF-44A4-8E55-F358BFBBF269Q34716575-BA979691-45BD-4A6E-BE5D-2C6A450433D4Q34840891-7D126EA1-F773-4CE0-BB12-83522CC9600AQ34887344-D1D1B98D-DCE0-46A4-8D45-8AD40BF8031CQ34979769-2D4E439B-1D85-42E3-BD57-500054BF0004Q35604411-4433995B-61A9-49A5-8105-EA5E2D20E5D2Q35649525-A46830BB-02E0-4E38-B15E-7D02273BBDFFQ35683704-370577D4-4F75-495B-80AA-7DC79A0078A9Q35847180-DCE263CE-B667-454F-9DE6-F9494562A5FFQ35881236-481EFD00-173F-41EE-BF5D-81AC9F424A56Q35906409-D650E8C3-1B1F-4985-8D19-AB8F07D6508FQ35906443-E5027AE8-472B-4F66-A4FD-2554C5D4789BQ35906492-069898D8-B298-47C6-A5B4-CCE9EA11AA95Q36129067-9D33B185-50E1-4CFC-8938-90398B39C54EQ36309327-A5DF747B-7EA2-4E33-9F93-F2AF1C7C6236Q36645484-DE92E2A2-D9A6-45CE-9EF9-B9C004395640Q36737183-5D3F9A04-CDB5-467B-BD92-A22AC81F7D41Q36740414-034778F0-014D-422D-A093-55B78EE7F6BDQ36793175-AF05EC2F-B5EE-4862-96E6-A3C0EDFC1C29Q36838483-20BC1B28-045D-4ED5-B8B2-F8DCAD39F5A6Q36893327-FBBCDE08-5D4F-4AD5-B247-64AFEF019A6CQ36997471-B364A7E9-7E93-4A1C-BC6F-C75CC1C7C735Q37217220-43D65C00-4C40-495B-A7FF-43EE3997365FQ37344147-50F11493-210A-4CB2-8741-30596A5D1E80Q37393007-B1C89E70-BD78-4014-AC58-8EA80B406771Q37693351-659EC7D4-8A5A-4623-ADBA-0914751CC4FAQ38059047-A96ACE63-637F-4E89-98D9-AAE319B7D043Q38075412-E277A9CC-CB76-4A0A-9DEE-BCEB75B2806FQ38978107-89D6C392-5F88-4A6E-93BB-053C0A2F14C8
P2860
Unique properties of cardiac action potentials recorded with voltage-sensitive dyes.
description
1996 nî lūn-bûn
@nan
1996年の論文
@ja
1996年学术文章
@wuu
1996年学术文章
@zh-cn
1996年学术文章
@zh-hans
1996年学术文章
@zh-my
1996年学术文章
@zh-sg
1996年學術文章
@yue
1996年學術文章
@zh
1996年學術文章
@zh-hant
name
Unique properties of cardiac action potentials recorded with voltage-sensitive dyes.
@en
Unique properties of cardiac action potentials recorded with voltage-sensitive dyes.
@nl
type
label
Unique properties of cardiac action potentials recorded with voltage-sensitive dyes.
@en
Unique properties of cardiac action potentials recorded with voltage-sensitive dyes.
@nl
prefLabel
Unique properties of cardiac action potentials recorded with voltage-sensitive dyes.
@en
Unique properties of cardiac action potentials recorded with voltage-sensitive dyes.
@nl
P2093
P2860
P1476
Unique properties of cardiac action potentials recorded with voltage-sensitive dyes.
@en
P2093
Girouard SD
Laurita KR
Rosenbaum DS
P2860
P304
P356
10.1111/J.1540-8167.1996.TB00478.X
P577
1996-11-01T00:00:00Z