A 3D Monte Carlo analysis of the role of dyadic space geometry in spark generation.
about
Numerical analysis of Ca2+ signaling in rat ventricular myocytes with realistic transverse-axial tubular geometry and inhibited sarcoplasmic reticulumThree-dimensional electron microscopy reveals new details of membrane systems for Ca2+ signaling in the heart.Modeling effects of L-type ca(2+) current and na(+)-ca(2+) exchanger on ca(2+) trigger flux in rabbit myocytes with realistic T-tubule geometriesA multiscale computational model of spatially resolved calcium cycling in cardiac myocytes: from detailed cleft dynamics to the whole cell concentration profiles.New software developments for quality mesh generation and optimization from biomedical imaging dataThe influence of Ca²⁺ buffers on free [Ca²⁺] fluctuations and the effective volume of Ca²⁺ microdomains.A solvable model for the diffusion and reaction of neurotransmitters in a synaptic junctionA univariate model of calcium release in the dyadic cleft of cardiac myocytesControl of Ca2+ release by action potential configuration in normal and failing murine cardiomyocytesControl of sarcoplasmic reticulum Ca2+ release by stochastic RyR gating within a 3D model of the cardiac dyad and importance of induction decay for CICR terminationMultiscale modeling of calcium dynamics in ventricular myocytes with realistic transverse tubulesProtein geometry and placement in the cardiac dyad influence macroscopic properties of calcium-induced calcium release.A localized meshless approach for modeling spatial-temporal calcium dynamics in ventricular myocytes.Ultrastructural remodelling of Ca(2+) signalling apparatus in failing heart cells.Ryanodine receptor allosteric coupling and the dynamics of calcium sparksRyanodine receptor-mediated arrhythmias and sudden cardiac death.Parallel acceleration for modeling of calcium dynamics in cardiac myocytesThree-dimensional geometric modeling of membrane-bound organelles in ventricular myocytes: bridging the gap between microscopic imaging and mathematical simulation.Models at the single cell level.Studying dyadic structure-function relationships: a review of current modeling approaches and new insights into Ca2+ (mis)handling.Neuronal sodium channels: emerging components of the nano-machinery of cardiac calcium cycling.Stochastic binding of Ca2+ ions in the dyadic cleft; continuous versus random walk description of diffusion.Accurate particle-based simulation of adsorption, desorption and partial transmission.
P2860
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P2860
A 3D Monte Carlo analysis of the role of dyadic space geometry in spark generation.
description
2005 nî lūn-bûn
@nan
2005 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
A 3D Monte Carlo analysis of the role of dyadic space geometry in spark generation.
@ast
A 3D Monte Carlo analysis of the role of dyadic space geometry in spark generation.
@en
A 3D Monte Carlo analysis of the role of dyadic space geometry in spark generation.
@nl
type
label
A 3D Monte Carlo analysis of the role of dyadic space geometry in spark generation.
@ast
A 3D Monte Carlo analysis of the role of dyadic space geometry in spark generation.
@en
A 3D Monte Carlo analysis of the role of dyadic space geometry in spark generation.
@nl
prefLabel
A 3D Monte Carlo analysis of the role of dyadic space geometry in spark generation.
@ast
A 3D Monte Carlo analysis of the role of dyadic space geometry in spark generation.
@en
A 3D Monte Carlo analysis of the role of dyadic space geometry in spark generation.
@nl
P2093
P2860
P1433
P1476
A 3D Monte Carlo analysis of the role of dyadic space geometry in spark generation.
@en
P2093
Andre Levchenko
Bhuvan Srinivasan
Hwee Seong Ching
Xiaoying Koh
P2860
P304
P356
10.1529/BIOPHYSJ.105.065466
P407
P577
2005-12-30T00:00:00Z