Cross-linked matrix tissue sealant protects against mortality and hemorrhage in an acute renal injury model in heparinized rats.

Overview

PURPOSE: We evaluated the efficacy of a cross-linked matrix tissue sealant compared with oxidized cellulose and electrocautery in an acute renal injury model. MATERIALS AND METHODS: Sprague-Dawley rats underwent partial nephrectomy after intravenous heparin anticoagulation. The cut surface received 1 of 4 therapies, namely no treatment, cross-linked matrix tissue sealant, electrocautery or Surgicel (Johnson & Johnson, New Brunswick, New Jersey) oxidized cellulose. Blood pressure was continually monitored, survival time was determined and total blood loss was quantified in each animal. RESULTS: Animals that received no treatment, electrocautery or oxidized cellulose died within 13 minutes of injury with a decline in blood pressure to 0 mm. Hg. In cross-linked matrix treated rats hemostasis was immediate, resulting in no blood loss after cross-linked matrix application. Mean arterial pressure +/- SEM was maintained at 136 +/- 6 mm. Hg. All cross-linked matrix treated animals survived. CONCLUSIONS: Cross-linked matrix tissue sealant provided immediate hemostasis and protection from a decline in blood pressure after renal trauma in heparinized rats. Cross-linked matrix tissue sealant may benefit patients with severe renal injuries. In the future cross-linked matrix may be useful for long-term partial nephrectomy repair.