about
Computation of the drift velocity of spiral waves using response functionsSpiral-wave dynamics in a mathematical model of human ventricular tissue with myocytes and fibroblasts.Engineered heart slices for electrophysiological and contractile studies.Scroll-wave dynamics in human cardiac tissue: lessons from a mathematical model with inhomogeneities and fiber architecture.Electric field perturbations of spiral waves attached to millimeter-size obstacles.Nanoscale cues regulate the structure and function of macroscopic cardiac tissue constructs.Controlling the contractile strength of engineered cardiac muscle by hierarchal tissue architectureSpiral-wave dynamics in ionically realistic mathematical models for human ventricular tissue: the effects of periodic deformation.New strategies for ventricular tachycardia and ventricular fibrillation ablation.Spiral-wave turbulence and its control in the presence of inhomogeneities in four mathematical models of cardiac tissue.An enhancer polymorphism at the cardiomyocyte intercalated disc protein NOS1AP locus is a major regulator of the QT interval.Unpinning of spiral waves by electrical forcing in excitable chemical media.Influence of excitability on unpinning and termination of spiral waves.Propagation of spiral waves pinned to circular and rectangular obstacles.Novel micropatterned cardiac cell cultures with realistic ventricular microstructure.Robustness of free and pinned spiral waves against breakup by electrical forcing in excitable chemical media.Mechanisms for the Termination of Atrial Fibrillation by Localized Ablation: Computational and Clinical Studies.STRUCTURAL AND FUNCTIONAL BASES OF CARDIAC FIBRILLATION. DIFFERENCES AND SIMILARITIES BETWEEN ATRIA AND VENTRICLES.Representation of collective electrical behavior of cardiac cell sheets.Intracellular calcium dynamics at the core of endocardial stationary spiral waves in Langendorff-perfused rabbit heartsMechanistically based mapping of human cardiac fibrillation.Cell cultures as models of cardiac mechanoelectric feedback.Wave emission on interacting heterogeneities in cardiac tissue.The role of fine-scale anatomical structure in the dynamics of reentry in computational models of the rabbit ventricles.Reversible cardiac conduction block and defibrillation with high-frequency electric field.Attraction and repulsion of spiral waves by inhomogeneity of conduction anisotropy--a model of spiral wave interaction with electrical remodeling of heart tissue.Lentiviral vector-mediated expression of GFP or Kir2.1 alters the electrophysiology of neonatal rat ventricular myocytes without inducing cytotoxicity.Similar arrhythmicity in hypertrophic and fibrotic cardiac cultures caused by distinct substrate-specific mechanisms.Reversal of spiral waves in an oscillatory system caused by an inhomogeneity.Region [corrected] of slowed conduction acts as core for spiral wave reentry in cardiac cell monolayers.Dynamic changes of T-wave alternans: does it predict short-term arrhythmia vulnerability?Mechanism of unpinning spirals by a series of stimuli.Electroelastic unpinning of rotating vortices in biological excitable media.Scaling properties of conduction velocity in heterogeneous excitable media.Utilizing the eikonal relationship in strategies for reentrant wave termination in excitable media.Enhanced stem cell-derived cardiomyocyte differentiation in suspension culture by delivery of nitric oxide using S-nitrosocysteine.Reflection and attachment of spirals at obstacles for the Fitzhugh-Nagumo and Beeler-Reuter models.Orbital motion of spiral waves in excitable media.Unpinning of a spiral wave anchored around a circular obstacle by an external wave train: common aspects of a chemical reaction and cardiomyocyte tissue.Hysteresis and drift of spiral waves near heterogeneities: From chemical experiments to cardiac simulations.
P2860
Q21563737-975F9AE6-75B3-4FEA-A05E-D8A9D8CA4C75Q27308646-D6B828CF-1CCF-4AFC-9426-6B56B20DD91DQ27329868-063DCB48-3F10-49A7-92C0-163AC9E57FA2Q27349375-099B43E4-999F-4F38-B3E4-7FBD64D7BE0EQ30481110-8F24B62F-255D-4187-A867-421888A169B4Q30493057-67A96549-7261-427E-AF87-0697E2B5A217Q30578466-5814BA6B-3A3F-49F1-A6A5-4DECFA7DA403Q30580265-9CB0CCD3-759F-4E77-858D-9660921D2577Q33165264-C54671CA-29E4-4A1D-B818-D3374C5DBCA6Q33416014-FAEF8BD4-9C9A-49CE-89AC-F4FABD8F3407Q34000857-7C2C5BF2-BAC7-4491-B5C2-A61A0DFB4885Q35374693-02CA0B12-368C-4C03-9AF0-1F7507AB36A4Q35507567-B9F59AB6-1CBB-457E-B500-06445A570BD8Q35661100-5A080039-BA70-4F57-9589-17387DAE972EQ35815731-5E00CECA-181D-4907-8314-3702607FC904Q36372329-69CDF6A5-D7CB-4C28-922B-A35BA2E45B9FQ36608529-9B8BBD2F-281C-4565-8952-F8202F9C6369Q36749407-CC14D914-DAB4-47E0-A7B3-1CF10D453801Q36783815-A28803BB-6FB9-46C8-B41C-F2D3330D0437Q36807870-21282D4F-6E0C-4969-9E0E-1452D3A36D3FQ36849806-BD839F1C-3A7F-4DF7-80F2-279FEF27F4E3Q37126911-928324B1-7DDF-40F8-8E87-3D36EB7E043FQ39834337-8AF5FA6B-E807-47D0-93C6-7A38D5ED7129Q42019623-0B3C6F0E-8408-4908-A2E4-D9FB302D0926Q42271451-27B85437-2CAA-4D6D-8ABB-77074C8D254CQ42433587-47F21996-B904-4CF1-A607-BB947B182E1CQ44091579-D7B17196-E0BA-47D2-B95D-283AB162987BQ46020424-0310DFEC-CF25-41A5-808D-5EAF939B2100Q46040131-04038511-7760-46A7-BB92-29C9A1D651A2Q46927649-35E59D48-977C-48A5-9209-8E3F0085E86FQ51033275-6B5EC5EB-A437-4960-B086-0A3903385DDEQ51067568-DC07C2ED-F834-4160-A3A4-003B05D19A35Q51368135-D4662B94-9B02-4AA7-A43A-2E2D65A97884Q51470280-F803781F-7673-4945-BF29-9152E1F33726Q51657522-AE673F9D-D590-40AA-B845-5A06AF35F1E1Q51695091-FAC65108-0998-41D9-AC43-EE4A7815F66BQ51696906-6426A7D9-435C-4CE0-B9AC-5C30D8B9D544Q51707440-E2ABC734-5B61-4428-B065-AEF5C95ABBA3Q51758443-D712AB7D-D681-4F58-875C-E2842CABED5FQ52854863-3F88DC48-EAA6-4B26-96C8-F2FFF841E965
P2860
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh-hant
name
Spiral wave attachment to millimeter-sized obstacles.
@en
Spiral wave attachment to millimeter-sized obstacles.
@nl
type
label
Spiral wave attachment to millimeter-sized obstacles.
@en
Spiral wave attachment to millimeter-sized obstacles.
@nl
prefLabel
Spiral wave attachment to millimeter-sized obstacles.
@en
Spiral wave attachment to millimeter-sized obstacles.
@nl
P2093
P1433
P1476
Spiral wave attachment to millimeter-sized obstacles.
@en
P2093
Barun Maskara
Felipe Aguel
Leslie Tung
Roland Emokpae
Zhan Yang Lim
P304
P356
10.1161/CIRCULATIONAHA.105.598631
P407
P577
2006-11-06T00:00:00Z