3D Printing of a Tissue-Engineered Structure Intended to Replace Cartilage Defects
https://doi.org/10.33647/2713-0428-19-3E-52-58
Abstract
This article describes the process of developing a tissue-engineered structure that meets the biocompatibility and biodegradation parameters necessary for replacing cartilage tissue defects. The study was carried out using 3D bioprinting technology, which represents a promising research direction in the biomedical field. It is known that, due to the specifics of its structure, cartilage tissue is not capable of complete regeneration of damage. The methods currently used for treating arthrosis are associated with a number of limitations and disadvantages, which makes research aimed at developing alternative methods for arthrosis treatment particularly relevant. The development of tissue-engineered structures by 3D bioprinting requires the materials not only certified for medical use but also exhibiting biocompatibility and biodegradation properties. Polylactide (PLA) and sodium alginate satisfy the above requirements; moreover, their availability and economic affordability make them one of the most popular materials for 3D bioprinting.
About the Authors
S. A. MachulinRussian Federation
Semen A. Machulin
123182, Moscow, Zhivopisnaya Str., 46
T. A. Astrelina
Russian Federation
Tatiana A. Astrelina - Dr. Sci. (Med.), Prof.
123182, Moscow, Zhivopisnaya Str., 46
D. Yu. Usupzhanova
Russian Federation
Daria Yu. Usupzhanova - Cand. Sci. (Biol.).
123182, Moscow, Zhivopisnaya Str., 46
A. O. Zavialov
Russian Federation
Anton O. Zavialov
123182, Moscow, Zhivopisnaya Str., 46
T. F. Malivanova
Russian Federation
Tatiana F. Malivanova - Cand. Sci. (Med.)
123182, Moscow, Zhivopisnaya Str., 46
А. I. Golovkova
Russian Federation
Anastasia I. Golovkova
123182, Moscow, Zhivopisnaya Str., 46
I. V. Kobzeva
Russian Federation
Irina V. Kobzeva - Cand. Sci. (Med.).
123182, Moscow, Zhivopisnaya Str., 46
Yu. B. Suchkova
Russian Federation
Yulia B. Suchkova - Cand. Sci. (Med.).
123182, Moscow, Zhivopisnaya Str., 46
V. A. Brunchukov
Russian Federation
Vitaliy A. Brunchukov
123182, Moscow, Zhivopisnaya Str., 46
A. A. Rastorgueva
Russian Federation
Anna A. Rastorgueva
123182, Moscow, Zhivopisnaya Str., 46
V. А. Nikitina
Russian Federation
Viktoria A. Nikitina
123182, Moscow, Zhivopisnaya Str., 46
E. E. Lomonosova
Russian Federation
Elena E. Lomonosova
123182, Moscow, Zhivopisnaya Str., 46
O. G. Mihadarkina
Russian Federation
Olga G. Mihadarkina
123182, Moscow, Zhivopisnaya Str., 46
A. S. Samoilov
Russian Federation
Alexandr S. Samoilov - Dr. Sci. (Med.), Corr. Member of the RAS, Prof. of the RAS.
123182, Moscow, Zhivopisnaya Str., 46
References
1. Antich C., de Vicente J., Jiménez G., et al. Bio-inspired hydrogel composed of hyaluronic acid and alginate as a potential bioink for 3D bioprinting of articular cartilage engineering constructs. Acta Biomaterialia. 2020; 106:114–123. DOI: 10.1016/j.actbio.2020.01.046.
2. Fatimi A., Okoro O.V., Shavandi A. Biopolymer-Based Hydrogels for 3D Bioprinting. Mater. Proc. 2021;7:19. DOI: 10.3390/IOCPS2021-11284.
3. Kačarević Ž.P., Rider P.M., Alkildani S., Retnasingh S., Challenges and Future Aspects. Materials (Basel). 2018;11:2199. DOI: 10.3390/ma11112199.
4. Saini G., Segaran N., Mayer J.L., Saini A., Albadawi H., Oklu R. Applications of 3D Bioprinting in Tissue Engineering and Regenerative Medicine. J. Clin. Med. 2021;10(21):4966. DOI: 10.3390/jcm10214966.
5. Shiwarski D.J., Hudson A.R., Tashman J.W., Feinberg A.W. Emergence of FRESH 3D printing as a platform for advanced tissue biofabrication. APL Bioeng.
Review
For citations:
Machulin S.A., Astrelina T.A., Usupzhanova D.Yu., Zavialov A.O., Malivanova T.F., Golovkova А.I., Kobzeva I.V., Suchkova Yu.B., Brunchukov V.A., Rastorgueva A.A., Nikitina V.А., Lomonosova E.E., Mihadarkina O.G., Samoilov A.S. 3D Printing of a Tissue-Engineered Structure Intended to Replace Cartilage Defects. Journal Biomed. 2023;19(3E):52-58. (In Russ.) https://doi.org/10.33647/2713-0428-19-3E-52-58