Novel Biomarkers of Arterial and Venous Ischemia in Microvascular Flaps

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2013 Aug 27

PMID 23977093

Citations 7

Authors

Gerard K Nguyen

Brian H Hwang

Yiqiang Zhang

John F W Monahan

Gabrielle B Davis

Yong Suk Lee

Neli P Ragina

Charles Wang

Zhao Y Zhou

Young Kwon Hong

Ryan M Spivak

Alex K Wong

Affiliations

Soon will be listed here.

Abstract

The field of reconstructive microsurgery is experiencing tremendous growth, as evidenced by recent advances in face and hand transplantation, lower limb salvage after trauma, and breast reconstruction. Common to all of these procedures is the creation of a nutrient vascular supply by microsurgical anastomosis between a single artery and vein. Complications related to occluded arterial inflow and obstructed venous outflow are not uncommon, and can result in irreversible tissue injury, necrosis, and flap loss. At times, these complications are challenging to clinically determine. Since early intervention with return to the operating room to re-establish arterial inflow or venous outflow is key to flap salvage, the accurate diagnosis of early stage complications is essential. To date, there are no biochemical markers or serum assays that can predict these complications. In this study, we utilized a rat model of flap ischemia in order to identify the transcriptional signatures of venous congestion and arterial ischemia. We found that the critical ischemia time for the superficial inferior epigastric fasciocutaneus flap was four hours and therefore performed detailed analyses at this time point. Histolgical analysis confirmed significant differences between arterial and venous ischemia. The transcriptome of ischemic, congested, and control flap tissues was deciphered by performing Affymetrix microarray analysis and verified by qRT-PCR. Principal component analysis revealed that arterial ischemia and venous congestion were characterized by distinct transcriptomes. Arterial ischemia and venous congestion was characterized by 408 and 1536>2-fold differentially expressed genes, respectively. qRT-PCR was used to identify five candidate genes Prol1, Muc1, Fcnb, Il1b, and Vcsa1 to serve as biomarkers for flap failure in both arterial ischemia and venous congestion. Our data suggests that Prol1 and Vcsa1 may be specific indicators of venous congestion and allow clinicians to both diagnose and successfully treat microvascular complications before irreversible tissue damage and flap loss occurs.

Citing Articles

An Experimental and Clinical Study of Flap Monitoring with an Analysis of the Clinical Course of the Flap Using an Infrared Thermal Camera.

Kim H, Kwak S, Byeon J, Lee D, Kim J, Lim S Bioengineering (Basel). 2024; 11(7).

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Management of postoperative microvascular compromise and ischemia reperfusion injury in breast reconstruction using autologous tissue transfer: Retrospective review of 2103 flaps.

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Ischemia and reperfusion injury in superficial inferior epigastric artery-based vascularized lymph node flaps.

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Plasma NAP-2 levels are associated with critical limb ischemia in peripheral arterial disease patients.

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