Reconstruction of Large-size Abdominal Wall Defect Using Biodegradable Poly-p-dioxanone Mesh: an Experimental Canine Study

Overview

Journal World J Surg Oncol

Publisher Biomed Central

Specialties General Surgery
Oncology

Date 2014 Mar 15

PMID 24625138

Citations 4

Authors

Kenan Huang

Xinyu Ding

Benbo Lv

Linyun Wei

Juxian Sun

Zhifei Xu

Xiong Qin

Hua Tang

Affiliations

Soon will be listed here.

Abstract

Background: Reconstruction of large-size abdominal wall defect (AWDs) is a huge challenge faced in current surgical practice. In this study, we aimed to evaluate the effectiveness and safety of biodegradable poly-p-dioxanone (PDO) mesh for reconstructing large-size AWDs in an experimental canine model.

Methods: Eighteen experimental canines were randomly and equally divided into three groups, namely, a PDO group, a Marlex group and a control group (n = 6 each). Following the creation of a 6 cm × 5.5 cm AWD, PDO mesh and Marlex mesh were used to reconstruct the defect in the PDO and Marlex groups, respectively. The defect was closed using relaxation sutures alone in the control group. Animals were killed 24 weeks after surgery, and reconstruction outcomes were evaluated using radiography, histology and biomechanical testing.

Results: All animals except those in the control group survived the experiment. The PDO group showed no wound dehiscence, herniation or infection, whereas the animals in the Marlex group exhibited marked foreign body reactions. The PDO group had less intraabdominal adhesion than the Marlex group. As shown by radiography, histology and biomechanical testing, PDO mesh exhibited complete degradation and favorable biochemical strength at 24 weeks postsurgery.

Conclusions: PDO mesh implantation is an effective, safe treatment modality for reconstructing large-size AWDs.

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