Abstract
The experience of twenty-years work of the authors devoted to realization of results of fundamental studies of alloys possessing the shape memory effect (SME) and creation of novel implants and medical tools is generalized. The work has been performed in cooperation with leading medical institutions. It is shown that the use of alloys with SME is a promising medical technology.
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REFERENCES
V. É. Gyunter, V. I. Itin, L. A. Monasevich, et al., Effects of Shape Memory and Their Use in Medicine [In Russian], Novosibirsk, Nauka (1992).
" Shape-Memorizing Implants ," Mater. Congr. Int. Assoc. SME , Novosibirsk , Sept. 15-17 [in Russian] (1993).
Shape-Memorizing Implants [in Russian], Izd-vo Tomsk. Univ., Tomsk.
"Bio-Medical Materials and Engineering," Int. Journ. Special Issue, Medical Application of Shape Memory Alloys, 6(4), 312 (1996).
Proc. 1st Int. Congr. on Shape Memory and Superelastic Technologies (SMST-94), Pacific Grove, California, USA, March 7-10 (1994).
Proc. 2nd. Int. Conf. on Shape Memory and Superelastic Technologies (SMST-97): Engineering and Biomedical Applications, Pacific Grove, California, USA, March 2-6 (1997).
Proc. 1st European Conf. on Shape Memory and Superelastic Technologies (SMST-99).
Program and Abstracts of the 1st Int. Symp. on Advanced Biomaterials (ISAB), Montreal, Canada, Oct. 2-5 (1997).
Proc. Int. Symp. on Shape Memory and Superelastic Technologies. Shape Memory Alloys: Fundamentals, Modeling and Industrial Applications, Quebec, Canada, Aug. 22-26 (1999).
M. A. Schmerling and M. A. Wilkov, "A proposed medical application of the shape memory effect: ANiTi Harrington rod for treatment of scoliosis," in: J. Perkins (ed.), Proc. Int. Conf. on Shape Memory Effect in Alloys, Toronto, June 2-4, 1975, New York (1975), pp. 563–568.
I. Kh. Rabkin, V. A. Zaimovskii, I. Yu. Khmelevskaya, et al., "An experimental substantiation and first clinical check of x-ray endovascular prosthetics," Vestn. Rentgenolog. Radiolog., No. 4, 59–64 (1984).
L. Yahia (ed.). Shape Memory Implants, Springer, Germany (2000).
. E. P. Ryklina and I. V. Maksimovich, "Pioneer experience in clinical use of Nitinol endoprosthesis with SME in aorta prosthetics," in: Mater. XXIX Interrepubl. Seminar "Current Problems of Strength," Pskov, June 15-18 [in Russian], Izd. SpbGTU, Pskov (1993), pp. 145–147.
E. P. Ryklina and S. D. Prokoshkin, A Device for Conveyance and a Method for Implantation of Spiral X-Ray Endoprosthesis for Human Vessels and Hollow Organs, RF Patent No. 2108764, priority 20_04_1998 [in Russian].
I. Kh. Rabkin, M. L. Bernshtein, K. V. Lapkin, et al., A Prosthesis for Hollow Organ, USSR Inventor's Certif. No. 1768154, priority 22_07_1988 [in Russian].
S. D. Prokoshkin, E. P. Ryklina, I. Yu. Khmelevskaya, and I. Kh. Rabkin, Prosthesis for Endoprosthetics of Vessels and Hollow Organs and Device for Its Implantation (Variants), U.S. Patent Application No. 09_312,861, Filing Date 05_17_1999.
A. P. Chadaev, A. Ts. Butkevich, S. D. Prokoshkin, et al., A Method for Extravasal Correction of the Functions of Valves of Main Veins, RF Patent No. 2128966, Priority 08_06_1995 [in Russian].
S. D. Prokoshkin, I. Yu. Khmelevskaya, E. P. Ryklina, et al., Method of Extravasal Correction of the Function of Incompetent Vein Valves and Extravasal Corrector for Its Realization, PCT_RU Int. Appl. No. 96_00119, Filing Date 07_05_1996.
E. P. Ryklina, I. V. Maksimovich, T. V. Morozova, et al., Superelastic Nitinol Anti-Embolic Intravein 'Sandglass' Filter, RF Patent 2127565, Priority 20_02_1996 [in Russian].
E. P. Ryklina, S. D. Prokoshkin, V. V. Shebryakov, and Yu. N. Belyi, Superelastic Nitinol 'Lantern' and 'Spider' Cava-Filters, RF Patent No. 2127566, Priority 20_02_1996 [in Russian].
E. P. Ryklina, P. A. Sychev, V. V. Shebryakov, and Yu. N. Belyi, Superelastic Nitinol "Kaleidoscope" Cava-Filter, RF Patent No. 2127567, Priority 20_02_1996 [in Russian].
S. D. Prokoshkin, E. P. Ryklina, I. Yu. Khmelevskaya, et al., A "Trammel" Device for Withdrawing Foreign Bodies from Hollow Organs, RF Patent No. 2153856, Priority 17_01_1996 [in Russian].
S. D. Prokoshkin, E. P. Ryklina, I. Yu. Khmelevskaya, et al., A "trammel" device for withdrawing calculi from hollow organs (variants), RF Patent No. 2145488, Priority 20_05_1998 [in Russian].
I. Yu. Miguleva, T. V. Morozova, P. A. Sychev, and I. Yu. Khmelevskaya, Vehicle for Finger Flexion Tendons, RF Patent No. 2126656, Priority 29_03_1996 [in Russian].
E. P. Ryklina, S. D. Prokoshkin, I. Yu. Khmelevskaya, and R. V. Ipatkin, A Method for Clipping of Vessels and Soft Elastic Tubular Structures and for Fixing Tissues, and a "Crossbill" Device for Its Realization (Variants), Appl. for RF patent No. 2001126238, Priority 26_09_2001 [in Russian].
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Ryklina, E.P., Khmelevskaya, I.Y. & Prokoshkin, S.D. Use of Thermomechanically Treated Titanium Nickelide for Medical Implants and Tools. Metal Science and Heat Treatment 46, 179–183 (2004). https://doi.org/10.1023/B:MSAT.0000043096.68020.05
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DOI: https://doi.org/10.1023/B:MSAT.0000043096.68020.05