Modern methods of reconstructive–restorative surgery employing synthetic endoprostheses make it possible to improve substantially the results of surgical interventions. Here, as well as the operating technique the quality of the endoprostheses is also important. It is advisable to use mesh warp-knitted endoprostheses from biocompatible, bioresistant, hydrophobic, and non-capillary monofilaments not supporting inflammatory process in the wound and resistant to infection.
Similar content being viewed by others
References
V. A. Zhukovskii, Polymeric Endoprostheses for Hernioplasty [in Russian], Eksulap, St. Petersburg (2011), 98 pp.
V. Zhukovsky, L. Rovinskaya, et al., The development and manufacturing of polymeric endoprosthetic meshes for soft tissue surgery, in: IV Intern. Textile conf. Medtex 2002, Lodz (2002), pp. 81-85.
V. A. Zhukovskii, Med. Tekhnika, No. 1, 8-11 (2003).
A. A. Netyaga, New synthetic materials for abdominal wall plasty. Author’s Abstract for Candidate of Medical Sciences [in Russian], Kurskii Gos. Med. Inst. (2002).
C. C. Chu, L. Welch, J. Biomed. Materials Res., 19, 903-916 (1985).
M. Deysine, Surg. Clin. N. Am., 78 , 6, 1105-1115 (1998).
P. K. Amid, A. G. Shulman, I. L. Lichtenstein, Rev. Esp. Enferm. Dig., No. 8, 582-586 (1995).
V. Shumpelick, B. Klosterhalfen, et al., Chirurg., No. 70, 422-430 (1999).
V. Shumpelick, U. Klinge, et al., Chirurg., No. 70, 876-887 (1999).
B. Klosterhalfen, U. Junge, U. Klinge, Expert Rev. Med. Devices, 2, No. 1, 103-117 (2005).
H. S. Goldstein, Hernia, 3, No. 1, 23-26 (1999).
V A. Zhukovskii, Modern Trends in Development and Production of Polymeric Endoprostheses for Hernioplasty. cIn: Scientific-Practical Conference with International Participation “Modern Methods of Surgical Treatment of Ventral Hernias and Eventrations [in Russian], Alushta (2006), pp.94-96.
G. I. Sinenchenko, I. V. Gaivoronskii, et al., Postoperative Hernias of Anterior Abdominal Wall and their Surgical Treatment [in Russian], Elbi, St. Petersburg (2009), 176 pp.
U. Klinge, J. Conze, et al., Langenbecks Arch. Chir., 381, No. 6, 323-332 (1996).
U. Klinge, J. Conze, et al., Chirurg., 67, No. 3, 229-233 (1996).
B. Klosterhalfen, U. Klinge, V. Schumpelick, Biomaterials, No. 19, 2235-2246 (1998).
M. V. Anurov, S. M. Titkova, et al., Byull. Eksper. Biol., 145, No. 5, 582-587 (2008).
V. A. Zhukovskii, Modern Approaches to Development and Production of Polymeric Mesh Endoprostheses of Reconstructive Surgery. In: I International Conference “Modern Technologies and Potential of Reconstructive Surgery [in Russian], Almanakhakh In-ta Khirurgii im. A. V. Vishnevskogo, 3, No. 2 (1), 20-21 (2008).
V. A. Zhukovskii, S. B. Petrov, et al., Zhurn. Akush. i Zhen. Bol., LV, No. 4, 51-57 (2006).
I. I. Kornev, Sterilization of Surgical Instruments in Treatment and Prophylactic Institutions [in Russian], Izd. ANMI, Moscow (2000), 176 pp.
T. S. Filipenko, Development of Mesh Endoprostheses for Reconstructive and Restorative Surgery and Investigation of their Properties [in Russian], Author’s Abstract of Thesis for Candidate of Technical Sciences, SPbGUTD (2009).
Author information
Authors and Affiliations
Additional information
Translated from Khimicheskie Volokna, No. 3, pp. 76-81, May-June, 2018.
Rights and permissions
About this article
Cite this article
Zhukovskii, V.A., Filipenko, T.S., Sukovatykh, B.S. et al. Polymeric Endoprostheses for Reconstructive–Restorative Surgery. Fibre Chem 50, 219–225 (2018). https://doi.org/10.1007/s10692-018-9964-5
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10692-018-9964-5