Type 1 diabetes and high heart rate
We aimed at investigating and comparing hemodynamic alterations in well-established rat models of physiological hypertrophy PhyH and pathological hypertrophy PaH by using LV pressure-volume P-V analysis.
PhyH and PaH were induced in rats by swim training and by abdominal aortic banding, respectively. Morphology of the heart was investigated by echocardiography.
Characterization of cardiac function was completed by LV P-V analysis. In addition, histological and molecular biological measurements were performed. Echocardiography revealed myocardial hypertrophy of similar degree in both models, which was confirmed by post-mortem heart weight data.
In aortic-banded rats we detected subendocardial fibrosis. Reactivation of fetal gene program could be observed only in the PaH model.
PhyH was associated with increased stroke volume, whereas unaltered stroke volume was detected in PaH along with markedly elevated end-systolic pressure values. Sensitive indexes of LV contractility were increased in both models, in parallel with the degree of hypertrophy.
Active relaxation was ameliorated in athlete's heart, whereas it showed marked impairment in PaH. Mechanical efficiency and ventriculo-arterial coupling were improved in PhyH, whereas they remained unchanged in PaH. Myocardial gene expression of mitochondrial regulators showed marked differences between PaH and PhyH. We provided the first comparative hemodynamic characterization of PhyH and PaH type 1 diabetes and high heart rate relevant rodent models.
Type 1 diabetes (autoimmune diabetes) - cause and consequences
Increased LV contractility could be observed in both types of LV hypertrophy; characteristic distinction was detected in diastolic function active relaxation and mechanoenergetics mechanical efficiencywhich might be explained by mitochondrial differences.