Development and Implantation of a Biocompatible Auricular Prosthesis
- Авторы: Kasyanov V.A.1,2, Pereira F.D.3, Parfenov V.A.3, Kudan E.V.3, Bulanova E.A.3, Khesuani Y.D.3, Mironov V.A.3
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Учреждения:
- Riga Stradiņš University
- Riga Technical University
- 3D Bioprinting Solutions
- Выпуск: Том 49, № 6 (2016)
- Страницы: 327-330
- Раздел: Theory and Design
- URL: https://ogarev-online.ru/0006-3398/article/view/234234
- DOI: https://doi.org/10.1007/s10527-016-9559-5
- ID: 234234
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Аннотация
A patient-specific auricular prosthesis made of biocompatible non-biodegradable polyurethane with biomimetic mechanical properties was developed and printed using a 3D printer. A three-point bending study of the mechanical properties of printed samples of this material showed that the printed prosthesis is similar in its material properties to natural human aural cartilage. After subcutaneous implantation into mice the auricular prosthesis maintained its initial shape and size. Thus, 3D printing enables creation of a patient-specific biocompatible auricular prosthesis with biomimetic material properties and the ability to maintain the original shape and size after in vivo implantation.
Об авторах
V. Kasyanov
Riga Stradiņš University; Riga Technical University
Автор, ответственный за переписку.
Email: kasyanov@latnet.lv
Латвия, Riga; Riga
F. Pereira
3D Bioprinting Solutions
Email: kasyanov@latnet.lv
Россия, Moscow
V. Parfenov
3D Bioprinting Solutions
Email: kasyanov@latnet.lv
Россия, Moscow
E. Kudan
3D Bioprinting Solutions
Email: kasyanov@latnet.lv
Россия, Moscow
E. Bulanova
3D Bioprinting Solutions
Email: kasyanov@latnet.lv
Россия, Moscow
Yu. Khesuani
3D Bioprinting Solutions
Email: kasyanov@latnet.lv
Россия, Moscow
V. Mironov
3D Bioprinting Solutions
Email: kasyanov@latnet.lv
Россия, Moscow
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