Methods for Studying Materials and Structures in Electronics as Applied to the Development of Medicinal Endoprostheses of Titanium with Enhanced...
Shaykhaliev A. I., Polisan A. A., Ivanov S. Yu., Kiselev D. A., Parkhomenko Y. N., Malinkovich M. D., Cherkesov I. V., Temirov A. A., Molchanov S. A.
Russian Microelectronics
Vol.47, Issue8, P. 575-582
Опубликовано: 2018
Тип ресурса: Статья
DOI:10.1134/S1063739718080103
Аннотация:
Abstract: Titanium alloys approved for clinical use in Russia are widely used in traumatology, maxillofacial surgery, and stomatology, mainly for manufacturing various endoprostheses and dental implants, i.e., structures to be introduced and installed into the bone and soft tissues of the human organism, capable of both biointegration and bioadaptation in the tissues of the human organism. In the field of medicinal material science, particularly, in designing structures for medicinal use based on titanium and its alloys and also various coatings on the surface of such structures, the modern methods and instruments developed for the electronic industry are being widely used. The methods designed for investigating materials and structures in electronics are employed in medicinal technology and particularly in the development of titanium implants. This makes it possible to develop the fundamentals for the technology of preparing the optimal microrelief on the surface of titanic endoprosth
Ключевые слова:
anatase; atomic force microscopy; endoprosthesis; fibrointegration; profilometer; surface relief
Atomic force microscopy; Atomic layer deposition; Coatings; Collagen; Dental alloys; Dental prostheses; Histology; Musculoskeletal system; Surface roughness; Surface treatment; Surgery; Tissue; Titanium alloys; Titanium dioxide; Average surface roughness; Endoprosthesis; fibrointegration; Maxillofacial surgery; Profilometers; Root mean square roughness; Surface reliefs; Titanium dioxides (TiO2); Metal implants
Язык текста: Английский
ISSN: 1608-3415
Shaykhaliev A. I. Astemir Ikramovich 1965-
Polisan A. A.
Ivanov S. Yu. Sergej Yuryevich 1957-
Kiselev D. A.
Parkhomenko Y. N.
Malinkovich M. D.
Cherkesov I. V. Igor` Vladimirovich 1978-
Temirov A. A.
Molchanov S. A.
Шайхалиев А. И. Астемир Икрамович 1965-
Полисан А. А.
Иванов С. Ю. Сергей Юрьевич 1957-
Киселев Д. А.
Пархоменко Y. Н.
Малинкович М. Д.
Черкесов И. В. Игорь Владимирович 1978-
Темиров А. А.
Молчанов С. А.
Methods for Studying Materials and Structures in Electronics as Applied to the Development of Medicinal Endoprostheses of Titanium with Enhanced Fibroinegration Efficiency
Methods for Studying Materials and Structures in Electronics as Applied to the Development of Medicinal Endoprostheses of Titanium with Enhanced...
Текст визуальный непосредственный
Russian Microelectronics
Pleiades Publishing, Ltd.
Vol.47, Issue8 P. 575-582
2018
Статья
anatase atomic force microscopy endoprosthesis fibrointegration profilometer surface relief
Atomic force microscopy Atomic layer deposition Coatings Collagen Dental alloys Dental prostheses Histology Musculoskeletal system Surface roughness Surface treatment Surgery Tissue Titanium alloys Titanium dioxide Average surface roughness Endoprosthesis fibrointegration Maxillofacial surgery Profilometers Root mean square roughness Surface reliefs Titanium dioxides (TiO2) Metal implants
Abstract: Titanium alloys approved for clinical use in Russia are widely used in traumatology, maxillofacial surgery, and stomatology, mainly for manufacturing various endoprostheses and dental implants, i.e., structures to be introduced and installed into the bone and soft tissues of the human organism, capable of both biointegration and bioadaptation in the tissues of the human organism. In the field of medicinal material science, particularly, in designing structures for medicinal use based on titanium and its alloys and also various coatings on the surface of such structures, the modern methods and instruments developed for the electronic industry are being widely used. The methods designed for investigating materials and structures in electronics are employed in medicinal technology and particularly in the development of titanium implants. This makes it possible to develop the fundamentals for the technology of preparing the optimal microrelief on the surface of titanic endoprosth