Acute volume loading studied in cat myocardium with 31P Nuclear magnetic resonance

Abstract

To study the effects of acute volume loading on myocardial metabolic and mechanical function, seven cats were volume loaded via anastomosis of the abdominal aorta to the vena cava (A V shunt). Metabolic effects were evaluated with³¹ P nuclear magnetic resonance (NMR). Mechanical function was evaluated with heart rate × systolic blood pressure product (HR × SBP). Shunts were opened for 1–2 h during which time phosphocreatine (PCr), adenosine triphosphate (ATP), inorganic phosphate (Pi), and HR × SBP were monitored. High‐energy phosphate energetics as determined by Pi/PCr and PCr/ATP ratios were correlated with HR × SBP. Opening of the AV shunts was associated with an increase (four cats) or a decrease (three cats) in HR × SBP. Pi/PCr ratios increased and PCr/ATP ratios decreased in cats with an increase in HR × SBP. In cats with a decrease in HR × SBP, Pi/PCr and PCr/ATP generally did not change significantly. In summary, acute volume loading could be associated with an increase or decrease in myocardial external work as evaluated by HR × SBP, accompanied by metabolic changes suggestive of appropriate induction of state 3 metabolism (active metabolic state: ADP + Pi → ATP) in those cats with increased mechanical work, and minimal change in bioenergetics in cats with no or minimal increase in mechanical work. These induced metabolic responses to myocardial mechanical loading can be evaluated with ³¹P NMR techniques and may provide insight into in vivo metabolic control mechanisms. © 1988 Academic Press, Inc.