Rob F. Wiegerinck scite author profile

Heart failure is the final common pathway of various cardiac pathologies and is associated with sudden cardiac death, mostly caused by ventricular arrhythmias. In this paper we briefly review the electrophysiological remodeling and the alterations in intracellular calcium handling, and the resulting arrhythmogenic mechanisms associated with heart failure. Intercellular uncoupling and fibrosis are identified as a major arrhythmogenic factors. Diet and ventricular wall stretch are discussed as modulating factors. Finally, emphasis is placed on the hitherto poorly studied aspects of right ventricular failure. This article is part of a Special Issue entitled: Heart failure pathogenesis and emerging diagnostic and therapeutic interventions.

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Larger Cell Size in Rabbits With Heart Failure Increases Myocardial Conduction Velocity and QRS Duration

Wiegerinck

Verkerk

Belterman

et al. 2006

Circulation

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Force Frequency Relationship of the Human Ventricle Increases During Early Postnatal Development

et al. 2009

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Understanding developmental changes in contractility is critical to improving therapies for young cardiac patients. Isometric developed force was measured in human ventricular muscle strips from two age groups: newborns (Ͻ2 wk) and infants (3-14 mo) undergoing repair for congenital heart defects. Muscle strips were paced at several cycle lengths (CLs) to determine the force frequency response (FFR). Changes in Na/Ca exchanger (NCX), sarcoplasmic reticulum Ca-ATPase (SERCA), and phospholamban (PLB) were characterized. At CL 2000 ms, developed force was similar in the two groups. Decreasing CL increased developed force in the infant group to 131 Ϯ 8% (CL 1000 ms) and 157 Ϯ 18% (CL 500 ms) demonstrating a positive FFR. The FFR in the newborn group was flat. NCX mRNA and protein levels were significantly larger in the newborn than infant group whereas SERCA levels were unchanged. PLB mRNA levels and PLB/SERCA ratio increased with age. Immunostaining for NCX in isolated newborn cells showed peripheral staining. In infant cells, NCX was also found in T-tubules. SERCA staining was regular and striated in both groups. This study shows for the first time that the newborn human ventricle has a flat FFR, which increases with age and may be caused by developmental changes in calcium handling. (Pediatr Res 65: 414-419, 2009)

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Conduction slowing by the gap junctional uncoupler carbenoxolone

Groot

Veenstra

Verkerk

et al. 2003

Cardiovascular Research

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Transmural dispersion of refractoriness and conduction velocity is associated with heterogeneously reduced connexin43 in a rabbit model of heart failure

Wiegerinck¹,

Veen²,

Belterman³

et al. 2008

Heart Rhythm

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Remodeling of Gap Junctions in Mouse Hearts Hypertrophied by Forced Retinoic Acid Signaling

Veen

Rijen

Wiegerinck

et al. 2002

Journal of Molecular and Cellular Cardiology

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Cardiac activation–repolarization patterns and ion channel expression mapping in intact isolated normal human hearts

Opthof

Remme²,

Jorge

et al. 2017

Heart Rhythm

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New Electrocardiographic Criteria to Differentiate Acute Pericarditis and Myocardial Infarction

Rosselló

Wiegerinck

Alguersuari

et al. 2014

The American Journal of Medicine

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Rob F. Wiegerinck

Electrophysiological changes in heart failure and their implications for arrhythmogenesis

Larger Cell Size in Rabbits With Heart Failure Increases Myocardial Conduction Velocity and QRS Duration

Force Frequency Relationship of the Human Ventricle Increases During Early Postnatal Development

Conduction slowing by the gap junctional uncoupler carbenoxolone

Transmural dispersion of refractoriness and conduction velocity is associated with heterogeneously reduced connexin43 in a rabbit model of heart failure

Remodeling of Gap Junctions in Mouse Hearts Hypertrophied by Forced Retinoic Acid Signaling

Cardiac activation–repolarization patterns and ion channel expression mapping in intact isolated normal human hearts

New Electrocardiographic Criteria to Differentiate Acute Pericarditis and Myocardial Infarction

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