A multiscale model of the electrophysiological basis of the human electrogastrogram.
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Multiscale modeling methods in biomechanicsThe gastrointestinal electrical mapping suite (GEMS): software for analyzing and visualizing high-resolution (multi-electrode) recordings in spatiotemporal detailA theoretical study of the initiation, maintenance and termination of gastric slow wave re-entry.Recent progress in gastric arrhythmia: pathophysiology, clinical significance and future horizonsA theoretical analysis of the electrogastrogram (EGG).Rapid high-amplitude circumferential slow wave propagation during normal gastric pacemaking and dysrhythmias.Abnormal initiation and conduction of slow-wave activity in gastroparesis, defined by high-resolution electrical mappingA Stochastic Algorithm for Generating Realistic Virtual Interstitial Cell of Cajal Networks.A Multiscale Tridomain Model for Simulating Bioelectric Gastric Pacing.Effect of Body Mass Index on the sensitivity of Magnetogastrogram and Electrogastrogram.Toward the virtual stomach: progress in multiscale modeling of gastric electrophysiology and motility.Mapping and modeling gastrointestinal bioelectricity: from engineering bench to bedsideBiophysically based modeling of the interstitial cells of cajal: current status and future perspectives.Diabetic gastroparesis: recent insights into pathophysiology and implications for management.Slow wave conduction patterns in the stomach: from Waller's foundations to current challenges.Gastric arrhythmias in gastroparesis: low- and high-resolution mapping of gastric electrical activity.Gastric emptying and duodenal motility upon intake of a liquid meal with monosodium glutamate in healthy subjects.Reconstruction of normal and abnormal gastric electrical sources using a potential based inverse method.Influence of body parameters on gastric bioelectric and biomagnetic fields in a realistic volume conductor.Automated gastric slow wave cycle partitioning and visualization for high-resolution activation time maps.Reconstruction of multiple gastric electrical wave fronts using potential-based inverse methods.Progress in Mathematical Modeling of Gastrointestinal Slow Wave Abnormalities.A tentative taxonomy for predictive models in relation to their falsifiability.High-Resolution Electrogastrogram: A Novel, Noninvasive Method for Determining Gastric Slow-Wave Direction and Speed.Modelling tissue electrophysiology with multiple cell types: applications of the extended bidomain framework
P2860
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P2860
A multiscale model of the electrophysiological basis of the human electrogastrogram.
description
2010 nî lūn-bûn
@nan
2010 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
A multiscale model of the electrophysiological basis of the human electrogastrogram.
@ast
A multiscale model of the electrophysiological basis of the human electrogastrogram.
@en
A multiscale model of the electrophysiological basis of the human electrogastrogram.
@nl
type
label
A multiscale model of the electrophysiological basis of the human electrogastrogram.
@ast
A multiscale model of the electrophysiological basis of the human electrogastrogram.
@en
A multiscale model of the electrophysiological basis of the human electrogastrogram.
@nl
prefLabel
A multiscale model of the electrophysiological basis of the human electrogastrogram.
@ast
A multiscale model of the electrophysiological basis of the human electrogastrogram.
@en
A multiscale model of the electrophysiological basis of the human electrogastrogram.
@nl
P2093
P2860
P1433
P1476
A multiscale model of the electrophysiological basis of the human electrogastrogram.
@en
P2093
Andrew J Pullan
Gregory O'Grady
Leo K Cheng
P2860
P304
P356
10.1016/J.BPJ.2010.08.067
P407
P577
2010-11-01T00:00:00Z