Fibrin Sealant (Tissucol) Enhances Tissue Integration of Condensed Polytetrafluoroethylene Meshes and Reduces Early Adhesion Formation in Experimental Intraabdominal Peritoneal Onlay Mesh Repair

Background The laparoscopic intraabdominal peritoneal onlay mesh repair (IPOM) is a common technique for the reinforcement of multiple ventral hernias or defined defects after laparotomies. However, the placement of synthetic meshes in the intraabdominal cavity can be associated with severe complica...

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Bibliographic Details
Published in:The Journal of surgical research 2008-12, Vol.150 (2), p.190-195
Main Authors: Petter-Puchner, Alexander H., M.D, Walder, Nadja, C.M, Redl, Heinz, Ph.D, Schwab, Robert, M.D, Öhlinger, Wolfgang, M.D, Gruber-Blum, Simone, M.D, Fortelny, René H., M.D
Format: Article
Language:English
Subjects:
Abdominal Cavity - pathology
Animals
Biological and medical sciences
cPTFE
fibrin sealant
Fibrin Tissue Adhesive - therapeutic use
General aspects
IPOM
Laparotomy - adverse effects
Male
Medical sciences
Peritoneal Diseases - prevention & control
Peritoneal Diseases - surgery
Polytetrafluoroethylene - adverse effects
Rats
Rats, Sprague-Dawley
Surgery
Surgical Mesh - adverse effects
Tissue Adhesions - etiology
Tissue Adhesions - pathology
Tissue Adhesions - prevention & control
tissue integration
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Summary:Background The laparoscopic intraabdominal peritoneal onlay mesh repair (IPOM) is a common technique for the reinforcement of multiple ventral hernias or defined defects after laparotomies. However, the placement of synthetic meshes in the intraabdominal cavity can be associated with severe complications. Adhesions frequently originate from the implant and protruding parts of fixation devices, presenting a serious clinical problem with potentially detrimental consequences. This study was designed to assess the impact of fibrin sealing with Tissucol (FS; Baxter, Vienna, Austria) on adhesion formation to condensed polytetrafluoroethylene meshes (Motif Meshes, MM; Proxy Biomedical, Galway, Ireland) as well as on tissue integration of these implants in experimental IPOM repair in rats. It was tested whether FS application allowed the reduction of sutures for mesh fixation without increasing the risk of mesh dislocation. Materials and methods Sixteen rats were assigned to the implantation of MM with four nonresorbable sutures (Synthofil; Ethicon, Norderstedt, Germany) with additional fibrin coating with 0.2 mL FS or to MM fixation with six nonresorbable sutures without FS ( n = 8 per group). MM with 2 cm in diameter were implanted in open IPOM by a laparatomy. The observation period of 17 days ensured assessment of adhesions after the full degradation of FS. Adhesions were rated with the score suggested by Vandendael. Histology was performed. Results All eight MMs without FS sealing elicited severe (grade III) adhesions, whereas fibrin-sealed MM were rated mild in 1, moderate in 5, and severe in 2 cases. The superior finding in the FS group was statistically significant. Impaired integration of sutured-only MM was observed in four cases, whereas all FS-sealed MM were well integrated. Conclusions FS improves the tissue integration, reduces early adhesion formation to cPTFE implants, and allows reduction of perforating fixation devices in experimental IPOM repair.
ISSN:0022-4804
1095-8673
DOI:10.1016/j.jss.2007.12.796