C Anton Fries1, Carole Y Villamaria2, Jerry R Spencer3, Todd E Rasmussen1, Michael R Davis1. 1. United States Army Institute of Surgical Research, Fort Sam Houston, TX. 2. Department of Surgery, University of Texas Health Science Center at San Antonio, San Antonio, TX. 3. MDW/Science and Technology, 59, Joint Base, San Antonio, TX.
Abstract
PURPOSE: Free tissue transfer is a powerful reconstructive surgical technique. The ischemia reperfusion injury (IRI) at revascularization affects the flap and the patient; reducing this insult could improve outcomes. This study evaluated the effect of C1 esterase inhibitor (C1-inh) on IRI in a porcine musculocutaneous flap model. MATERIALS AND METHODS: A musculocutaneous flap was transferred from the limb to the neck of 12 swine. Flaps underwent a 3-hour ischemic interval prior to revascularization. Intervention group flaps (n = 6) were perfused intra-arterially with 100U C1-inh at the commencement of the ischemic period; controls (n = 6) received heparinized saline solution. Protocol duration was 14 days; markers of reperfusion injury (creatine kinase [CK], aspartate transaminase [AST], tumor necrosis factor-alpha) were evaluated. RESULTS: All flaps from the intervention group were viable at 14 days; five of six control flaps were viable at 14 days (P = 1). Systemic levels of biomarkers of tissue necrosis and inflammation were reduced in the intervention group. On post-operative day one, statistically significant reductions in mean levels of AST and CK were demonstrated (2,293 ± 1 × 103 U/L vs. 1,586 ± 767 U/L [P = 0.04] and 429 × 103 ± 214 × 103 U/L vs. 213 × 103 ± 156 × 103 U/L [P = 0.002], respectively). Flaps of both groups healed in their recipient locations, no adverse reactions were observed. CONCLUSIONS: C1-inh is protective of IRI and may have utility in free tissue transfer, vascularized composite allotransplantation, and spare parts surgery.
PURPOSE: Free tissue transfer is a powerful reconstructive surgical technique. The ischemia reperfusion injury (IRI) at revascularization affects the flap and the patient; reducing this insult could improve outcomes. This study evaluated the effect of C1 esterase inhibitor (C1-inh) on IRI in a porcine musculocutaneous flap model. MATERIALS AND METHODS: A musculocutaneous flap was transferred from the limb to the neck of 12 swine. Flaps underwent a 3-hour ischemic interval prior to revascularization. Intervention group flaps (n = 6) were perfused intra-arterially with 100U C1-inh at the commencement of the ischemic period; controls (n = 6) received heparinized saline solution. Protocol duration was 14 days; markers of reperfusion injury (creatine kinase [CK], aspartate transaminase [AST], tumor necrosis factor-alpha) were evaluated. RESULTS: All flaps from the intervention group were viable at 14 days; five of six control flaps were viable at 14 days (P = 1). Systemic levels of biomarkers of tissue necrosis and inflammation were reduced in the intervention group. On post-operative day one, statistically significant reductions in mean levels of AST and CK were demonstrated (2,293 ± 1 × 103 U/L vs. 1,586 ± 767 U/L [P = 0.04] and 429 × 103 ± 214 × 103 U/L vs. 213 × 103 ± 156 × 103 U/L [P = 0.002], respectively). Flaps of both groups healed in their recipient locations, no adverse reactions were observed. CONCLUSIONS:C1-inh is protective of IRI and may have utility in free tissue transfer, vascularized composite allotransplantation, and spare parts surgery.
Authors: Alberto Ballestín; Javier G Casado; Elena Abellán; F Javier Vela; Verónica Álvarez; Alejandra Usón; Esther López; Federica Marinaro; Rebeca Blázquez; Francisco Miguel Sánchez-Margallo Journal: PLoS One Date: 2018-12-27 Impact factor: 3.240