Venous Flap Ischemia: Microcirculatory Changes in Experimental Flaps in a Rabbit Model

 

 Buy Article Permissions and Reprints

ABSTRACT

This study was designed to investigate the simultaneous changes in blood flow and microcirculation in an island flap during venous occlusion (venous ischemia), in an ischemia/reperfusion injury model in the rabbit. An island groin flap based on the inferior epigastric vessels was harvested in 15 rabbits. The flap was rendered ischemic for 3 hr (n=5) or 4 hr (n=10, 5 heparinized and 5 not), by applying a microvascular clamp to the inferior epigastric vein. Transonic Doppler and laser Doppler were used to monitor blood flow in the epigastric artery and microcirculation of the flap for 1 hr after flap elevation, 1 hr after occlusion, and for 3 hr at the end of the ischemic period.

Venous occlusion was followed by a rapid decrease of blood flow and microcirculation readings. After ischemia, both blood flow and microcirculation readings in the flap were significantly decreased, compared to pre-ischemic values in all groups. In the 3-hr ischemia group, blood flow readings returned to pre-stress values, while microcirculation remained significantly lower. In the 4-hr ischemia group treated with heparin, blood flow in the artery settled at levels significantly lower than pre-stress readings; however, microcirculation of the flap was ultimately fully restored to pre-ischemic values. In the 4-hr ischemia group, both blood flow and microcirculation in the flap settled at levels significantly lower than pre-stress values.

The authors concluded that tolerance for venous ischemia is time-dependent in this model and that venous ischemia is more deleterious than global ischemia. Administration of heparin may alter the time frame of ischemia/reperfusion injury and may prevent the harmful effects of injury at the microcirculatory level.