Abstract
Purpose. Diadenosine tetraphosphate (AP4A) produces vasodilation and hypotension. If AP4A is to be employed clinically, its influence on systemic and regional hemodynamics needs to be investigated. In this study, we observed systemic and regional hemodynamics during reduction of mean arterial pressure (MAP) induced by AP4A in dogs.
Methods. Nineteen mongrel dogs were allocated to three groups: those given physiological saline (vehicle group) and dogs in which MAP was decreased either by 8% (8% group) or by 30% (30% group) by infusion of AP4A. Systemic hemodynamics and microsphere-determined regional blood flow to vital organs were assessed before and during AP4A infusion.
Results. In the 8% group, cardiac output (CO) increased, and systemic vascular resistance (SVR) decreased during AP4A infusion. Although regional blood flow to myocardium and portal organs increased, hepatic blood flow decreased. In the 30% group, heart rate and SVR decreased, and stroke volume index increased without change in CO. Regional blood flow to myocardium, kidneys, and portal organs increased. In both groups, cerebral blood flow remained unchanged.
Conclusion. During the decrease in MAP induced by AP4A, there were increases in regional blood flow distributed to the myocardium, kidneys, and portal organs, without change in the blood supply to the brain. This finding suggests that AP4A may be clinically useful for reducing blood pressure without compromising blood flow to vital organs.
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Received for publication on January 26, 1998; accepted on September 18, 1998
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Kikuta, Y., Yukawa, H., Harashima, T. et al. Effects of diadenosine tetraphosphate on systemic and regional hemodynamics in dogs. J Anesth 13, 29–33 (1999). https://doi.org/10.1007/s005400050018
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DOI: https://doi.org/10.1007/s005400050018