Mesh implants: An overview of crucial mesh parameters

Hernia repair is one of the most frequently performed surgical interventions that use mesh implants. This article evaluates crucial mesh parameters to facilitate selection of the most appropriate mesh implant, considering raw materials, mesh composition, structure parameters and mechanical parameter...

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Bibliographic Details
Published inWorld journal of gastrointestinal surgery Vol. 7; no. 10; pp. 226 - 236
Main Author Zhu, Lei-Ming
Format Journal Article
LanguageEnglish
Published United States Baishideng Publishing Group Inc 27.10.2015
Subjects
Hernia
implan
mesh
mesh;Incontinence
repair;Hernia
Hernia repair
Structure parameters
Synthetic raw materials
Synthetic mesh
Mesh properties
Hernia mesh
Mechanical parameters
Incontinence mesh implant
Mesh weight
Textile structure
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Summary:Hernia repair is one of the most frequently performed surgical interventions that use mesh implants. This article evaluates crucial mesh parameters to facilitate selection of the most appropriate mesh implant, considering raw materials, mesh composition, structure parameters and mechanical parameters. A literature review was performed using the Pub Med database. The most important mesh parameters in the selection of a mesh implant are the raw material, structural parameters and mechanical parameters, which should match the physiological conditions. The structural parameters, especially the porosity, are the most important predictors of the biocompatibility performance of synthetic meshes. Meshes with large pores exhibit less inflammatory infiltrate, connective tissue and scar bridging, which allows increased soft tissue ingrowth. The raw material and combination of raw materials of the used mesh, including potential coatings and textile design, strongly impact the inflammatory reaction to the mesh. Synthetic meshes made from innovative polymers combined with surface coating have been demonstrated to exhibit advantageous behavior in specialized fields. Monofilament, largepore synthetic meshes exhibit advantages. The value of mesh classification based on mesh weight seems to be overestimated. Mechanical properties of meshes, such as anisotropy/isotropy, elasticity and tensile strength, are crucial parameters for predicting mesh performance after implantation.
Bibliography:Hernia repair is one of the most frequently performed surgical interventions that use mesh implants. This article evaluates crucial mesh parameters to facilitate selection of the most appropriate mesh implant, considering raw materials, mesh composition, structure parameters and mechanical parameters. A literature review was performed using the Pub Med database. The most important mesh parameters in the selection of a mesh implant are the raw material, structural parameters and mechanical parameters, which should match the physiological conditions. The structural parameters, especially the porosity, are the most important predictors of the biocompatibility performance of synthetic meshes. Meshes with large pores exhibit less inflammatory infiltrate, connective tissue and scar bridging, which allows increased soft tissue ingrowth. The raw material and combination of raw materials of the used mesh, including potential coatings and textile design, strongly impact the inflammatory reaction to the mesh. Synthetic meshes made from innovative polymers combined with surface coating have been demonstrated to exhibit advantageous behavior in specialized fields. Monofilament, largepore synthetic meshes exhibit advantages. The value of mesh classification based on mesh weight seems to be overestimated. Mechanical properties of meshes, such as anisotropy/isotropy, elasticity and tensile strength, are crucial parameters for predicting mesh performance after implantation.
Hernia repair;Hernia mesh;Incontinence mesh implan
Lei-Ming Zhu;Philipp Schuster;Uwe Klinge;Department of Surgery, Tongren Hospital, School of Medicine,Shanghai Jiaotong University;FEG Textiltechnik mbH;Department for General, Visceral and Transplant Surgery, the University Hospital of the RWTH Aachen
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Telephone: +49-241-8089352 Fax: +49-241-8082442
Author contributions: Zhu LM and Schuster P conceived the study and wrote the manuscript; Klinge U reviewed the manuscript and made valuable contributions to the intellectual content and structure of the paper.
Correspondence to: Dr. Uwe Klinge, Professor, Med, Department for General, Visceral and Transplant Surgery, the University Hospital of the RWTH Aachen, Pauwelsstraβe 30, 52074 Aachen, Germany. uklinge@ukaachen.de
ISSN:1948-9366
1948-9366
DOI:10.4240/wjgs.v7.i10.226