Ph.D., senior researcher, surgeon-oncologist of the highest category of the Department of General Oncology of Tomsk National Research Medical Center of the Russian Academy of Sciences (Russia, Tomsk)

I.I. Anisenya graduated from Tomsk Medical Institute in 1980, subsequently completed his residency and postgraduate studies at the All-Union Oncological Scientific Center of the USSR Academy of Medical Sciences (Moscow) in thoracic and general oncology. He presented his thesis on “Unclassifiable and rare soft tissue sarcomas.” In 1985, I.I. Anisenya returned to Tomsk and headed a unique scientific direction for Siberia and the Far East for the study of tumors of the musculoskeletal system at the Research Institute of Oncology of the Federation Council of Oncology of the Academy of Medical Sciences of the USSR.

I.I. Anisenya is the author and co-author of more than 250 scientific papers on clinical and experimental medicine, oncology, anatomy, solid physics, medical 3D design, creation of original implants and endoprostheses, combined and combined types of examination and treatment. Among them are 12 monographs, 14 patents, 5 databases, 10 innovation proposals. Under his leadership, 4 candidate dissertations were defended.

I.I. Anisenya was a member of the Scientific Council of the Institute of Oncology Research (1986–2000), a member of the Board of the Eastern European Cooperative Group for the Study of Sarcomas (since 2021).

Area of research interests

For many years of work at the Research Institute of Oncology of the Tomsk Scientific Research Center of the Russian Academy of Sciences I.I. Anisenya and his students mastered all types of diagnostic and therapeutic care for patients with tumors of the musculoskeletal system, created new methods of surgical, combined and combined treatment based on the original development of implants, endoprostheses and sparing surgical techniques.

Area of Interest

• Combined treatment of sarcomas of bones, soft tissues, skin tumors.
• Reconstruction of bone defects.
• Titanium nickelide in oncology.
• Arthroplasty of joints and skeletal segments.
• High-tech treatment of metastatic skeletal lesions.
• Chest tumors, superelastic reconstruction of the scaffold.
• Original 3D implantation and reconstruction of bone defects, mini-implants.
• Spinal tumors.
• Pelvic bone tumors.
• Intraoperative radiation therapy.
• Digital technologies in diagnostics, treatment and rehabilitation in orthopedic oncology, the creation of a 3D laboratory.
• Development of bone-sparing technologies.
• Cryosurgery, hyperthermia, thermoablation of bone tumors.
• Minimally invasive and endoscopic radical surgery for bone tumors.
• Development and testing of implant protivomicrobial and antitumor coatings.

I.I. Anisenya is the leader of orthopedic oncology in Siberia and the Far East, masters world achievements and develops its own original approaches in the diagnosis and treatment of a complex contingent of patients. Currently, the Research Institute of Oncology of the Tomsk Scientific Research Center of the Russian Academy of Sciences has become a center for helping such patients and a school of organ-preserving and minimally invasive technologies.

Publications and works

1. Prosolov K.A., Lastovka V.V., Belyavskaya O.A. et al. Zn-doped cap-based coatings on Ti–6Al–4V and Ti–6Al–7Nb alloys prepared by magnetron sputtering: controllable biodegradation, bacteriostatic, and osteogenic activities. Coatings 2021;11(7):809.

2. Anisenya II, Topolnitsky EB, Khakimov HI, et al. Bone, soft tissue, and skin tumor successful reconstruction of the chest wall scaffold with superelastic nickel-titanium 3D modules in a patient with repeatedly recurrent leiomyosarcomasarcomas 2022; 14 (2): 44-51.

3. Anisenya I.I., Khakimov H.I., Bogoutdinova A.V., etc. Database of patients with replacement of extensive chest wall scaffold defects with titanium nickelide implants in tumor pathology (Database Registration Certificate No. 2022621773, 19.07.2022).

4. Krainov N.N., Sinegubov O.N., Anisenya I.I. Implant for distal radial bone replacement. Patent No. 2770988 C1, 25.04.2022.

5. Khakimov H.I., Anisenya I.I., Bogoutdinova A.V., Sitnikov P.K. Chest reconstruction using superelastic frame R-modules. Oncology questions 2022; 68 (S3): 428-9.

6. Tabakaev S.A., Frolova I.G., Anisenya I.I., et al. Comparative analysis of quantitative computed tomography and morphology data in patients with giant cell bone tumor on denosumab treatment. Siberian Cancer Journal 2021; 20(2):22–8.

7. Anisenya I.I. Improving the reliability of the chest frame in plastics of chest wall defects during tumor resection. In: AIP Conference Proceedings. Proceedings of the International Conference on Physical Mesomechanics. Materials with Multilevel Hierarchical Structure and Intelligent Manufacturing Technology. 2020. P. 020019.

8. Yurmazov Z.A., Lushnikova N.A., Spirina L.V., et al. Possibilities of preoperative targeted therapy in the treatment of bone metastases of kidney cancer. Oncourology 2019; 15 (2): 35-412.

9. Gunter SV, Dambaev GC, Gunter VE, et al. New technologies for the creation of medical materials, implants and devices based on titanium nickelide using infrared radiation. Tomsk, 2017.

10. Popov A.G., Kovalev V.A., Anisenya I.I. et al. 3D-Modeling in the production of custom-made implants. In: AIP Conference Proceedings. 2016. P. 020054.

11. Trukhachtva NG, Frolova IG, Velichko SA, et al. Assessment of autograft status by ct-densitometry in patients with bone tumors after surgical treatment. Siberian Cancer Journal of 2011; S2:70-2.

12. Tyukalov Yu. I., Musabaeva LI, Zheravin AA, et al. Results of combination treatment with IORT and RGT soft tissue sarcomas. In: Intraoperative electronic and remote gamma therapy of malignant neoplasms. Tomsk, 2006. C. 109-118.

13. Anisenya I.I., Parfiryeva E.M., Bogoutdinova A.V. Possibilities of cryodestruction use in the treatment of bone tumors. Siberian Cancer Journal 2005; 2: 259.

14. Musabaeva L.I., Lisin V.A., Zheravin A.A. et al. Radiation therapy in patients with locomotor system tumors after organ-preserving surgery with implants from titanium alloys. Мed Radiol Radiat Safety 2003;48(2):56–62.

15. Gunther V.E., Dambaev G.Ts., Sysolyatin P.G. et al. Delay law and new class of materials and implants in medicine. Tomsk, 2000.

16. Lantzman YV, Adamyan AT, Anisenya II, et al.: Bone tumors clinic, diagnosis, treatment. Tomsk, 1990.