Developments in titanium nickelide compression devices for forming interintestinal junctions in colorectal surgery are analyzed. Preference in developments has been given to compression devices made of titanium nickelide wire materials. The authors linked the main advantages with simplicity of use, small size, high levels of biological and physical sealing, and better conditions for tissue regeneration. Questions related to the means of establishing the primary patency of compression anastomoses and optimizing anastomosis techniques remain unanswered.
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Zaitsev, E. Yu., Mashkin, A. M., Gibert, B. K., Nuriev, A. V., Tsarik, S. L., Petrov, V. G., Leimanchenko, I. A., Borodin, N. A., and Kirsanov, D. V., “Experience of Y-enterostomy with compression delayed anastomoses after emergency resection of the small intestine,” Ann. Khirurg., No. 1, 48 (2006).
Totikov, Z. V. and Totikov, V. Z., “The most frequent intraoperative factors affecting treatment results in large intestine tumors complicated by nonpatency,” Ann. Khirurg., No. 2, 33-37 (2014).
Molokova, O. A., Kecherukov, A. I., Zigan’shin, R. V., and Gyunther, V. E., “Morphogenesis of compression anastomoses – a new trend in studies of tissue regeneration,” Med. Nauka Obrazovan. Urala, No. 1, 14 (2005).
Aliev, F. Sh., Molokova, O. A., Gyunther, V. E., Chernov, I. A., Krutskikh, A. G., Aliev, V. F., Leimanchenko, P. I., and Azizov, S. B., “A compression means of anastomosing the large intestine using implants with shape memory − an alterative to conventional sutures,” Onkol. Koloproktol., 5, No. 2, 14-16 (2015).
Zigan’shin, R. V., Gibert, B. K., Gyunther, V. E., et al., “Compression anastomoses in gastrointestinal surgery performed using devices made of a shape memory alloy,” Khirurgiya, No. 4, 105-127 (2000).
Mokhov, E. M., Rozenfel’d, I. I., and Markin, I. E., “Studies of the processes of reparative regeneration of tissues in interintestinal compression anastomoses formed using modified nitinol implants,” Fundament. Issled., No. 7, 320-328 (2017).
Kanshin, N. N., Volenko, R. A., and Volenko, A. V., “Compression anastomoses and their formation with ASK devices in experimental studies and clinical practice,” Khirurgiya, No. 5, 46-52 (2004).
Gyunther, V., Dambaev, G. Ts., Sysolyatin, P. G., Ziganshin, R. V., Kornilov, N. V., Mirgasisov, M. Z., Mironov, S. P., Fomichev, N. G., Hodorenko, V. N., Temerkhanov, F. T., Mashkin, A. M., Sergeev, K. S., Gibert, B. K., and Aliev, F. Sh., Delay Law and New Class of Materials and Implants in Medicine, MA STT, Northampton (2000).
Gyunther, V. E., “The state of studies creating unique techniques in medicine based on a new generation of biocompatible materials and implants with shape memory,” in: Proceedings of International Conference “Biocompatible Materials with Shape Memory and New Techniques in Medicine” [in Russian], Tomsk (2004), pp. 5-10.
Aliev, F. S., Ilkanich, A. Y., Barodin, N. A., Autlev, K. M., and Makhnev, F. V., “Experimental justification of compressive hemorrhoidectomy with shape memory implants,” J. Pharm. Sci. Res., 9, No. 9, 1424-1426 (2017).
Kecherukov, A. I., Chernov, I. A., Gyunther, V. E., and Baradulin, A. A., “A means for the surgical correction of complex pararectal fistulas,” Russian Patent No. 2290881 October 14, 2002. Byull. Izobret. Polez. Mod., January 10, 2007, No. 1.
Dafnis G., Ekborn, A., Pahlman, L., and Blogvist, P., “Complications of diagnostic and therapeutic colonoscopy within defined population in Sweden,” Gastrointest. Endosc., 54,. No. 3, 302-309 (2001).
Mori, H., Kobara, H., Fujihara, S. et al., “Rectal perforations and fistulae secondary to glycerin enema: Closure by over-the-scope clip,” World J. Gastroenterol., 18, No. 24, 3177-3180 (2012).
Sharaevskii, M. A., Dambaev, G. Ts., Solov’ev, M. M., Latypov, V. R., and Popov, A. M., “Creation of linear compression anastomoses.,” Sib. Vestn. Gepatol Gastroenterol., No. 21, 74-75 (2007).
Zigan’shin, R. V., Gyunther, V. E., Gibert, B. K., Mashkin, A. M., Ruchkin, V. I., Sinyakov, A. G., Zaitsev, E. Yu., and Robak, A. N., New Techniques for Creating Compression Anastomoses in Gastrointestinal Surgery Using Hyperelastic Implants with Shape Memory. A Monograph [in Russian], Tomsk (2000).
Makhnev, A. V., Broder, A. I., Yapryntsev, I. M., Eremin, A. A., and Redikul’tsev, I. V., “Surgical tactics in the treatment of diffuse purulent peritonitis,” Med. Nauka Obrazovan. Urala, 7, No. 5, 14-17 (2006).
Petrov, V. G., Development and Use of an Optimum Means of Interintestinal Anastomosis in Conditions of Diffuse Peritonitis: Dissertation for Master’s Degree in Medical Sciences [in Russian], Tyumen (1998).
Gorbachev, V. N., Chernov, I. A., Vlasov, A. A., et al., “Medical materials and implants with shape memory,” in: Implants with Shape Memory in Surgery [in Russian], MITs Press, Tomsk (2012), Vol. 11.
Spirev, V. V. and Luntovskii, A. M., “A means of forming small-large intestinal anastomoses in complicated cancer of the right-hand side of the colon,” Univ. Med. Urala, 8, No. 1, 65-66 (2017).
Nudelman, I. L., Fuko, V. V., and Waserberg, N., “Colonic anastomosis performed with a memory-shaped device,” Am. J. Surg., 190, 434-438 (2005).
Nudelman, I. L., Fuko, V. V., and Waserberg, N., “Anastomosis performed with a memory-shaped device,” Am. J. Surg., 170, 234-250 (2013).
Rozenfel’d, I. I., Mokhov, E. M., and Sokolov, Yu. A., “A device for application of anastomoses to the hollow organs of the gastrointestinal tract,” Russian Patent No. 143443, Byull. Izobret. Polez. Mod., No. 4 (2014).
Kecherukov, A. I., Chernov, I. A., Gyunther, V. E., Aliev, F. Sh., Molokova, O. A., Kononov, V. P., Chinarev, Yu. B., and Luntovskii, A. M., “Means of forming compression terminal large intestinal anastomoses,” Khirurgiya, No. 11, 64-70 (2005).
Ospanov, O. B., Samoilov, V. A., and Demin, D. I., “Laparoscopic compression techniques for making anastomoses,” Endoskop. Khirurgiya, No. 4, 50-53 (2000).
Dambaev, G. Ts., Solov’ev, M. M., Fatyushina, O. A., and Dambaeva, E. G., “New methods for forming compression anastomoses,” in: Biocompatible Materials and Implants with Shape Memory [in Russian], Tomsk (2001), pp. 54-60.
Plotnikov, V. V., Vlasov, A. A., Vazhenin, A. V., Chinarev, Yu. B., and Spirev, V. V., “A device for compression large_intestine anastomoses,” Koloproktologiya, 29, No. 3, 39-43 (2009).
Vlasov, A. A., Vazhenin, A. V., Plotnikov, V. V., Vlasov, A. V., and Spirev, V. V., “Use of a device for compression large-intestine anastomoses in the surgery of rectal cancer,” Sib. Onkol. Zh., 39, No. 3, 20-24 (2010).
Dambaev, G. Ts., Solov’ev, M. M., Fatyushina, O. A., and Avdoshina, E. A., “Use of a titanium nickelide device in abdominal surgery,” Rekonstrukt. Gastroenterol., 60, No. 1, 53-56 (2017).
Leimanchenko, P. I., Aliev, V. F., Azizov, S. B., and Krutskikh, A. G., “Evolution of the development of titanium nickelide devices for forming compression interintestinal anastomoses,” Tyumen. Med. Zh., 18, No. 1, 42-47 (2016).
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Aliev, F.S., Autlev, K.M., Efanov, A.V. et al. Titanium Nickelide Implants for Compression Anastomoses in Coloproctology. Biomed Eng 52, 275–279 (2018). https://doi.org/10.1007/s10527-018-9829-5
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DOI: https://doi.org/10.1007/s10527-018-9829-5