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Journal of General Practice

ISSN: 2329-9126

Open Access

Assessing the Efficiency of the Diabetic Heart at Subcellular, Tissue and Organ Level

Abstract

Denis S Loiselle, June-Chiew Han, Kimberley M Mellor, Toan Pham, Kenneth Tran, Soyeon (Eden) Goo, Andrew J Taberner and Anthony JR Hickey

In this review, we focus on the diabetic heart rather than the vascular complications of diabetes. Focus is further narrowed to a specific, but widely used, animal model: the diabetic rat heart in which diabetes has been induced by a single injection of streptozotocin. Our experimental approach is primarily biophysical and ranges from measurements made in isolated working whole-hearts, to those made from isolated left-ventricular tissues and mitochondria. Our interest is on the effect of severe diabetes on cardiac energetics, in terms of efficiency of cardiac work performance, ATP synthesis and oxygen consumption. By designing experiments to test the energetic performance of the heart and its trabeculae across a wide range of protocols, we have revealed the dependence of efficiency on afterload. This has allowed us to clarify a long-standing uncertainty in the literature; whereas the diabetic heart is unable to work against high afterloads, it nevertheless retains normal peak efficiency. But a further anomaly has been revealed. Whereas there is no evidence that the diabetic myocardium loses peak mechanical efficiency, its mitochondria demonstrate a decreased P:O ratio - i.e., a decreased bioenergetic efficiency. This decrease is consistent with an increase in the rate of production of reactive oxygen species, together with elevated proton leakage across the inner mitochondrial membrane at near maximal phosphorylating respiration states.

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Citations: 1047

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