The heart rate complexity is reduced with a significant decreasing trend as assessed by R-R interval entropy prior to the onset of AF. There is a need for well-defined studies with larger patient groups in order to assess the entropy changes further and to look for possible changes, which might predict impending AF episodes.
Background—
Transgenic and gene-targeted models have focused on the mouse. Fundamental differences between the mouse and human exist in Ca
2+
handling during contraction/relaxation and in alterations in Ca
2+
flux during heart failure, with the rabbit more accurately reflecting the human system.
Methods and Results—
Cardiac troponin I (cTnI) mutations can cause familial hypertrophic cardiomyopathy. An inhibitory domain mutation, arginine146→glycine (cTnI
146Gly
), was modeled with the use of transgenic expression in the rabbit ventricle. cTnI
146Gly
levels >40% of total cTnI were perinatally lethal, whereas replacement levels of 15% to 25% were well tolerated. cTnI
146Gly
expression led to a leftward shift in the force-pCa
2+
curves with cardiomyocyte disarray, fibrosis, and altered connexin43 organization. In isolated cTnI
146Gly
myocytes, twitch relaxation amplitudes were smaller than in normal cells, but [Ca]
i
transients and sarcoplasmic reticulum Ca
2+
load were not different. Detrended fluctuation analysis of the QT
max
intervals was used to evaluate the cardiac repolarization phase and showed a significantly higher scaling exponent in the transgenic animals.
Conclusions—
Expression of modest amounts of cTnI
146Gly
led to subtle defects without severely affecting cardiac function. Aberrant connexin organization, subtle morphological deficits, and an altered fractal pattern of the repolarization phase of transgenic rabbits, in the absence of entropy or other ECG abnormalities, may indicate an early developing pathology before the onset of more obvious repolarization abnormalities or major alterations in cardiac mechanics.
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