Mechanisms by which cytoplasmic calcium wave propagation and alternans are generated in cardiac atrial myocytes lacking T-tubules-insights from a simulation study
about
Atrial SERCA2a Overexpression Has No Affect on Cardiac Alternans but Promotes Arrhythmogenic SR Ca2+ TriggersIn silico screening of the key cellular remodeling targets in chronic atrial fibrillationDisrupted calcium release as a mechanism for atrial alternans associated with human atrial fibrillationThe mechanisms of calcium cycling and action potential dynamics in cardiac alternansMechanisms of cardiac alternans in atrial cells: intracellular Ca2⁺ disturbances lead the way.Inhibiting Na+/K+ ATPase can impair mitochondrial energetics and induce abnormal Ca2+ cycling and automaticity in guinea pig cardiomyocytes.Calcium alternans in cardiac myocytes: order from disorder.Chronic myocardial infarction promotes atrial action potential alternans, afterdepolarizations, and fibrillation.QT interval variability in body surface ECG: measurement, physiological basis, and clinical value: position statement and consensus guidance endorsed by the European Heart Rhythm Association jointly with the ESC Working Group on Cardiac Cellular EleFrequency analysis of atrial action potential alternans: a sensitive clinical index of individual propensity to atrial fibrillation.Do t-tubules play a role in arrhythmogenesis in cardiac ventricular myocytes?A computational model of spatio-temporal cardiac intracellular calcium handling with realistic structure and spatial flux distribution from sarcoplasmic reticulum and t-tubule reconstructions.Computational models of atrial cellular electrophysiology and calcium handling, and their role in atrial fibrillation.Alternans in atria: Mechanisms and clinical relevance.Cardiac alternans and ventricular fibrillation: a bad case of ryanodine receptors reneging on their dutyCalcium signalling microdomains and the t-tubular system in atrial mycoytes: potential roles in cardiac disease and arrhythmias.Inositol-1,4,5-trisphosphate induced Ca2+ release and excitation-contraction coupling in atrial myocytes from normal and failing hearts.Transverse tubular network structures in the genesis of intracellular calcium alternans and triggered activity in cardiac cells.Nonlinear onset of calcium wave propagation in cardiac cells.Are SR Ca content fluctuations or SR refractoriness the key to atrial cardiac alternans?: insights from a human atrial model.Beat-to-Beat Variability of Ventricular Action Potential Duration Oscillates at Low Frequency During Sympathetic Provocation in Humans.Computational Modeling of Electrophysiology and Pharmacotherapy of Atrial Fibrillation: Recent Advances and Future ChallengesCalcium in the Pathophysiology of Atrial Fibrillation and Heart Failure
P2860
Q27319107-F9E67104-34FC-4035-BF57-CD69B260E678Q27322548-0CC14098-3D99-46BC-ABF8-D5B2EAF8B57BQ34679604-4C7B0368-5E60-4073-89DF-29D7D3FC713EQ35132301-2ADD2127-22E0-43E8-9B4A-49EB38621E8AQ35141709-543642F1-35BB-48D3-8E1D-EAA05E7348D2Q35145345-1490A1A0-8A46-437A-A7A2-F660009CB1FBQ36604970-54FE192D-9502-4FE7-9804-61819E955E62Q36943418-81595183-8AD8-406A-A4E7-67A42B8BA0DBQ36998669-11F1C78F-252A-40D8-932E-E7B1DCA09035Q37498853-750434DA-773E-4CF7-95E7-C66808AAFF32Q38104947-B319A308-9AE4-44C8-B922-805C7AF50932Q38634940-894245E5-4C55-451B-8740-32DD706CA85FQ38638006-FED21B27-B951-4326-B158-343B03450F8BQ38699661-EE2CA4C3-681E-4284-B514-0759D151F3F9Q42610140-5AED5D8A-13D2-47AA-A745-51D249203E46Q44953823-3ADC025E-70C5-4B07-B590-85CFC1FF642AQ45077753-DC909436-FD8C-4155-93D4-F6A0487F261AQ46241479-FC75570A-4E9D-444A-AD98-34194BFE8D0FQ46436999-6D99E22A-C564-4E39-8C73-8CF42E1F7254Q51103578-4853302E-1604-45E5-9516-BB783D4AD9EDQ53407390-879A0E32-EF42-452A-ABB7-7F9FEC638390Q57161239-5E6A7275-8138-42CA-B030-5BAC67A32CDCQ58584159-377D085D-38A1-4831-B8FD-968C2B029119
P2860
Mechanisms by which cytoplasmic calcium wave propagation and alternans are generated in cardiac atrial myocytes lacking T-tubules-insights from a simulation study
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
Mechanisms by which cytoplasmi ...... sights from a simulation study
@ast
Mechanisms by which cytoplasmi ...... sights from a simulation study
@en
type
label
Mechanisms by which cytoplasmi ...... sights from a simulation study
@ast
Mechanisms by which cytoplasmi ...... sights from a simulation study
@en
prefLabel
Mechanisms by which cytoplasmi ...... sights from a simulation study
@ast
Mechanisms by which cytoplasmi ...... sights from a simulation study
@en
P2093
P2860
P1433
P1476
Mechanisms by which cytoplasmi ...... sights from a simulation study
@en
P2093
Henggui Zhang
Stephen C O'Neill
P2860
P304
P356
10.1016/J.BPJ.2012.03.007
P407
P577
2012-04-03T00:00:00Z