PMID: 11907059Mar 22, 2002Paper

How the efficiency of rainbow trout (Oncorhynchus mykiss) ventricular muscle changes with cycle frequency

The Journal of Experimental Biology
Claire L HarwoodJohn D Altringham

Abstract

Different species of animals require different cardiac performance and, in turn, their cardiac muscle exhibits different properties. A comparative approach can reveal a great deal about the mechanisms underlying myocardial contraction. Differences in myocardial Ca(2+) handling between fish and mammals suggest a greater energy cost of activation in fish. Further, while there is considerable evidence that heart rate (or cycle frequency) should have a profound effect on the efficiency of teleost cardiac muscle, this effect has been largely overlooked. We set out to determine how cycle frequency affects the power output and efficiency of rainbow trout (Oncorhynchus mykiss) ventricular muscle and to relate this to the heart's function in life. We measured power output and the rate of oxygen consumption ((O(2))) and then calculated efficiency over a physiologically realistic range of cycle frequencies. In contrast to mammalian cardiac muscle, in which (O(2)) increases with increasing heart rate, we found no significant change in (O(2)) in the teleost. However, power output increased by 25 % as cycle frequency was increased from 0.6 to 1.0 Hz, so net and total efficiency increased. A maximum total efficiency of 20 % was achieved at 0....Continue Reading

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