Which is the Pivotal Vessel in Vascular Supercharging? An Assessment of Three Forms of Vascular Supercharging Models Using Indocyanine Green Fluorescence Angiography

Abstract

BackgroundThe study aimed to perform continuous and dynamic observation on the blood flow changes in a rat abdominal model of supercharged flaps to examine the roles of arterial and venous supercharging in preventing distal flap necrosis. Materials and methodsEighteen rats were divided into three experimental groups. The left-sided flaps in all groups were used as controls such that the subxiphoid perforator vessels served as the only pedicle. Experimental groups I, II, and III consisted of supercharged right-sided flaps. Group I, the arteriovenous supercharging group, had flaps supercharged by the suprapubic perforator arteries and veins. Group II, the arterial supercharging group, had flaps supercharged by the suprapubic perforator arteries. Group III, the venous supercharging group, had flaps supercharged by the suprapubic perforator veins. Laser-induced near-infrared fluorescence angiography was performed before and after surgery. ResultsAs revealed by near-infrared fluorescence angiography, the control group and venous supercharging group exhibited rapid reductions in blood supply and loss of arterial perfusion in distal areas. The distal flap necrosis was much smaller in the venous supercharging group than in the control group. Both the arteriovenous supercharging group and the arterial supercharging group exhibited adequate perfusion and resulted in full postoperative survival of the flaps. ConclusionsThese findings indicated that the distal arterial hypoperfusion is the major cause of the distal venous stasis and necrosis in the flaps. Sufficient arterial supercharging ensures the distal arterial perfusion and therefore diminishes the occurrence of distal flap necrosis.