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Abstrakty
Implantation of synthetic meshes provokes complications which require long-lasting follow-up. The mesh materials exposed to physiological conditions demonstrate differences in failure load, stiffness and extension. Mechanical alterations of explants made of polyester were investigated using a uni-axial tensile test and a relaxation test. The tensile strength of the explanted meshes changed in the transversal direction. The elastic modulus in the same direction increased two times. A magnified mesh image displayed mesh alteration. The relaxation tests revealed that the initial stress decreases after implantation while the reduction of stress increases in the interval 50%-96.6%.
Czasopismo
Rocznik
Tom
Strony
769--778
Opis fizyczny
Bibliogr. 26 poz., rys., tab.
Twórcy
autor
- Medical University-Sofia, Faculty of Pharmacy, Sofia, Bulgaria
- Bulgarian Academy of Sciences, Institute of Mechanics, Sofia, Bulgaria
autor
- Bulgarian Academy of Sciences, Institute of Mechanics, Sofia, Bulgaria
autor
- Hospital “Saint Sofia”, Sofia, Bulgaria
autor
- Medical University-Sofia, Faculty of Pharmacy, Sofia, Bulgaria
Bibliografia
- 1. Amid P., 1997, Classification of biomaterials and their related complications in abdominal wall surgery, Hernia, 1, 1, 15-21.
- 2. Balique J.G., Benchetrit S., Bouillot J.L., Flament J.B., Gouillat C., Jarsaillon P., Lepère M., Mantion G., Arnaud J.P., Magne E., Brunetti F., 2005, Intraperitoneal treatment of incisional and umbilical hernias using an innovative composite mesh: four-year results of a prospective multicenter clinical trial, Hernia, 9, 1, 68-74.
- 3. Bellón J.M., Serrano N., Rodriguez M., Garcia-Honduvilla N., Pascual G., Buján J., 2005, Composite prostheses used to repair abdominal wall defects: physical or chemical adhesion barriers?, Journal of Biomedical Materials Research Part B, 74, 2, 718-724.
- 4. Chelala E., Debardemaeker Y., Elias B., Charara F., Dessily M., Allé J.L., 2010, Eighty-five redo surgeries after 733 laparoscopic treatments for ventral and incisional hernia: adhesion and recurrence analysis, Hernia, 14, 2, 123-129.
- 5. Costello C.R., Bachman S.L., Ramshaw B.J., Grant S.A., 2007, Materials characterization of explanted polypropylene hernia meshes, Journal Biomedical Materials Research Part B, 83, 1, 44-49.
- 6. Deeken C.R., Abdo M.S., Frisella M.M., Matthews B.D., 2011, Physicomechanical evaluation of polypropylene, polyester, and polytetrafluoroethylene meshes for inguinal hernia repair, Journal of the American College of Surgeons, 212, 1, 68-79.
- 7. Deerenberg E.B., Verhelst J., Hovius S.E.R., Lange J.F., 2016, Mesh expansion as the cause of bulging after abdominal wall hernia repair, International Journal of Surgery Case Reports, 28, 200-203.
- 8. Dietz H.P., Vancaillie P., Svehla M.,WalshW., Steensma A.B., Vancaillie T.G., 2003, Mechanical properties of urogynecologic implant materials, International Urogynecol Journal, 14, 4, 239-243.
- 9. Doneva M., Pashkouleva D., 2017, Practical recommendations for application of hernia meshes, Series on Biomechanics, 31, 2, 34-40.
- 10. Hawn M.T., Gray S.H., Snyder C.W., Graham L.A., Finan K.R., Vick C.C., 2011, Predictors of mesh explantation after incisional hernia repair, American Journal of Surgery, 202, 1, 28-33.
- 11. Jacob B.P., Hogle N.J., Durak E., Kim T., Fowler D.L., 2007, Tissue ingrowth and bowel adhesion formation in an animal study: polypropylene vs. Proceed vs. Parietex Composite, Surgical Endoscopy, 21, 4, 629-633.
- 12. Judge T.W., Parker D.M., Dinsmore R.C., 2007, Abdominal wall hernia repair: a comparison of Sepramesh and Parietex Composite mesh in a rabbit hernia model, Journal of the American College of Surgeons, 204, 2, 276-281.
- 13. Kayaoglu H.A., Ozkan N., Hazinedaroglu S.M., Ersoy O.F., Erkek A.B., Koseoglu R.D., 2005, Comparison of adhesive properties of five different prosthetic materials used in hernioplasty, Journal of Investigative Surgery, 18, 2, 89-95.
- 14. Kirilova-Doneva M., Pashkouleva D., 2019, Long-term mechanical compatibility of polypropylene surgical meshes, Journal of Mechanics in Medicine and Biology, 19, 6, 1950056.
- 15. Kirilova-Doneva M., Pashkouleva D., Kavardzhikov V., Sopotensky S., Petrova G., Gerasimov N., 2015, Evaluation of mechanical alterations of explanted hernia mesh, Series on Biomechanics, 29, 2-3, 73-77.
- 16. Klinge U., Klosterhalfen B., Conze J., Limberg W., Obolenski B., Ottinger A.P., Schumpelick V., 1998, Modified mesh for hernia repair that is adapted to the physiology of the abdominal wall, The European Journal of Surgery, 164, 12, 951-960.
- 17. Klosterhalfen B., Junge K, Klinge U., 2005, The lightweight and large porous mesh concept for hernia repair, Expert Review of Medical Devices, 2, 1, 103-117.
- 18. Klosterhalfen B., Klinge U., 2013, Retrieval study at 623 human mesh explants made of polypropylene impact of mesh class and indication for mesh removal on tissue reaction, Journal of Biomedical Materials Research Part B, 101, 8, 1393-1399.
- 19. Lubowiecka I., Szepietowska K., Szymczak C., Tomaszewska A., 2016, A preliminary study on the optimal choice of an implant and its orientation in ventral hernia repair, Journal of Theoretical and Applied Mechanics, 54, 2, 411-421.
- 20. McGinty J.J., Hogle N.J., McCarthy H., Fowler D.L., 2005, A comparative study of adhesion formation and abdominal wall ingrowth after laparoscopic ventral hernia repair in a porcine model using multiple types of mesh, Surgical Endoscopy, 19, 6, 786-790.
- 21. Moreno-Egea A., Bustos J.A., Girela E., Aguayo-Albasini J.L., 2010, Long-term results of laparoscopic repair of incisional hernias using an intraperitoneal composite mesh, Surgical Endoscopy, 24, 2, 359-365.
- 22. Sanbhal N., Miao L., Xu R., Khatri A., Wang L., 2018, Physical structure and mechanical properties of knitted hernia mesh materials, Journal of Industrial Textiles, 19, 6, 1266-1270.
- 23. Song Ch., Alijani A., Frank T., Hanna G., Cuschieri A., 2006, Elasticity of the living abdominal wall in laparoscopic surgery, Journal of Biomechanics, 39, 587-591.
- 24. Tabakov M., 2017, Research on opportunities for treatment of ventral hernias with endoscopic techniques, Ph.D. Thesis, Medical University – Sofia.
- 25. Tran D., Podwojewski F., Beillas P., Ottenio M., Voirin D., Turquier F., Mitton D., 2016, Abdominal wall muscle elasticity and abdomen local stiffness on healthy volunteers during various physiological activities, Journal of Mechanical Behavior of Biomedical Materials, 60, 451-459.
- 26. Wood A.J., Cozad M.J., Grant D.A., Ostdiek A.M., Bachman S.L., Grant S.A., 2013, Materials characterization and histological analysis of explanted polypropylene, PTFE, and PET hernia meshes from an individual patient, Journal of Materials Science: Materials in Medicine, 24, 4, 1113-1122.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-da4044cb-55cd-4604-965c-83582a5626a9