Ovine Forestomach Matrix in the Surgical Management of Complex Volumetric Soft Tissue Defects: A Retrospective Pilot Case Series

Michael T Cormican; Nathan J Creel; Brandon A Bosque; Shane G Dowling; Phillip P Rideout; William M Vassy

Ovine Forestomach Matrix in the Surgical Management of Complex Volumetric Soft Tissue Defects: A Retrospective Pilot Case Series

Eplasty. 2023 Sep 27:23:e66. eCollection 2023.

Authors

Michael T Cormican¹, Nathan J Creel¹, Brandon A Bosque², Shane G Dowling², Phillip P Rideout³, William M Vassy¹

Affiliations

¹ Northeast Georgia Medical Center, Department of Trauma and Acute Care Surgery, Gainesville, Georgia.
² Aroa Biosurgery Limited, Auckland, New Zealand.
³ Northeast Georgia Medical Center, Northeast Georgia Physicians Group Vascular Center, Gainesville, Georgia.

PMID: 38045101
PMCID: PMC10690777

Abstract

Background: Volumetric soft tissue loss is an urgent surgical issue and can frequently lead to suboptimal outcomes for patients due to significant soft tissue loss, compromised vital structures, and contamination. Ovine forestomach matrix (OFM) has demonstrated clinical success in the surgical management of soft tissue defects, especially in contaminated fields, and provides an effective option for immediate coverage of exposed vital structures before definitive closure.

Methods: This retrospective pilot case series (n = 13 defects) evaluated the clinical effectiveness of OFM (graft and/or particulate formats) in the surgical management of contaminated volumetric soft tissue defects. Patients presented with significant soft tissue loss, often with exposed viscera, tendon, bone, or muscle, and were treated with OFM as part of their inpatient surgical management. All patients had at least 1 significant comorbidity with the potential to complicate their healing trajectory. The primary study endpoint was time to 100% granulation tissue coverage (days), and the secondary endpoint was any device-related postoperative complications.

Results: A total of 13 volumetric soft tissue defects were evaluated in 10 patients who underwent surgical reconstruction. Mean defect age was 3.5 ± 5.6 weeks, and mean area was 217.3 ± 77.9 cm². Most defects had exposed structures (85%), and all defects were Centers for Disease Control and Prevention grade 2 or higher. Mean time to 100% granulation tissue formation was 23.4 ± 9.2 days, with a median product application of 1.0. Staged reconstruction was used in 7 of 13 defects, with the remainder (6 of 13) left to heal via secondary intention using standard wound care protocols. There were no major postoperative infections or adverse events (mean follow-up, 7.4 ± 2.4 weeks.).

Conclusions: This retrospective pilot case series builds on a growing body of evidence that OFM can be utilized to facilitate the formation of functional, well-vascularized soft tissue in large contaminated volumetric soft tissue defects.

Keywords: Exposed Vital; Extracellular Matrix; Loss; Matrix; Ovine Forestomach; Soft Tissue Trauma; Structures; Volumetric Tissue.

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