Antibacterial polypropylene mesh fixation with a cyanoacrylate adhesive improves its response to infection

Antibacterial meshes for hernia repair seek to avoid infection in the patient. As these biomaterials are especially prone to bacteria settling at their sutured borders, this study examines whether the use of a cyanoacrylate tissue adhesive could improve mesh behavior at the fixation zones. First, an...

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Bibliographic Details
Published in:Surgery Vol. 170; no. 2; pp. 507 - 515
Main Authors: Pérez-Köhler, Bárbara, Benito-Martínez, Selma, García-Moreno, Francisca, Rodríguez, Marta, Pascual, Gemma, Bellón, Juan Manuel
Format: Journal Article
Language:English
Published: United States Elsevier Inc 01-08-2021
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Summary:Antibacterial meshes for hernia repair seek to avoid infection in the patient. As these biomaterials are especially prone to bacteria settling at their sutured borders, this study examines whether the use of a cyanoacrylate tissue adhesive could improve mesh behavior at the fixation zones. First, antibacterial polypropylene meshes were prepared by soaking in 0.05% chlorhexidine, and the response of n-hexyl cyanoacrylate to contamination with Staphylococcus aureus ATCC25923 was assessed in vitro. Then, in a preclinical model, partial defects (5 x 3 cm) were created in the abdominal wall of 18 New Zealand White rabbits and repaired with mesh to establish the following 3 study groups: (1) mesh without chlorhexidine fixed with cyanoacrylate, (2) antibacterial mesh fixed with sutures, and (3) antibacterial mesh fixed with cyanoacrylate (n = 6 each). The implants were inoculated with 106 CFU/mL of S aureus. At 14 days after surgery, bacterial adhesion to the implant and its integration within host tissue were determined through microbiological, histological and immunohistochemical procedures. As observed in vitro, the cyanoacrylate gave rise to a 1.5-cm bacteria-free margin around the prosthetic mesh. In vivo, the tissue adhesive prevented bacterial adhesion to the fixation zones, reducing infection of chlorhexidine-free meshes and optimizing the efficacy of the antibacterial meshes compared with those fixed with sutures. These findings indicated that cyanoacrylate fixation does not affect mesh integration into the host tissue. Likewise, the antibacterial behavior and tissue response of a chlorhexidine-treated polypropylene mesh is improved when cyanoacrylate is used for its fixation.
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ISSN:0039-6060
1532-7361
DOI:10.1016/j.surg.2021.01.012