Physical properties of functional nanomaterials as a subject of study in the training of medical personnel
- Authors: Gugalo V.P1, Zhukov V.A1, Ostroumova Y.S1, Khanin S.D2
-
Affiliations:
- Military Medical Academy named after S.M. Kirov
- St. Petersburg State University of Telecommunications named after Prof. M.A. Bonch-Bruevich
- Issue: Vol 7, No 6 (2025)
- Pages: 324-329
- Section: ARTICLES
- URL: https://ogarev-online.ru/2687-0428/article/view/376996
- ID: 376996
Cite item
Abstract
this article is devoted to the development and implementation of nanomaterials in medicine, as well as the issues of their physical and technical properties and the possibility of application in the diagnosis and therapy of diseases. The key physical properties of nanomaterials for use in medicine have been identified, and the need for training medical personnel in the field of nanotechnology has been substantiated. The mechanical, optical, magnetic, and surface properties of nanomaterials are considered, as well as their role in creating effective drug delivery systems, biosensors, and contrast agents for imaging. Special attention is paid to the possibility of using nanoparticles and nanostructures for targeted therapy of oncological and other serious diseases, as well as tissue regeneration and implantation. Studying the mechanisms of action and physical properties of nanomaterials allows students of medical universities to better understand their use in diagnosis and therapy, as well as correctly interpret research results. Mastering this knowledge contributes to a deeper understanding of the biocompatibility of materials, which is important for clinical practice. The use of active learning technologies, such as case studies and project methods, significantly improves the quality of the educational process, expands the experience and strengthens the scientific basis of students' knowledge.
About the authors
V. P Gugalo
Military Medical Academy named after S.M. Kirov
Email: vic-zhukoff@yandex.ru
V. A Zhukov
Military Medical Academy named after S.M. Kirov
Email: vic-zhukoff@yandex.ru
Yu. S Ostroumova
Military Medical Academy named after S.M. Kirov
Email: sinklit@mail.ru
S. D Khanin
St. Petersburg State University of Telecommunications named after Prof. M.A. Bonch-Bruevich
Email: sd_khanin@mail.ru
References
- Agrawal C.M. Reconstructing the human body using biomaterials // JOM. 1998. № 50 (1). P. 31 – 35.
- Emerich D.F., Thanos C.G. The pinpoint promise of nanoparticle-based drug delivery and molecular diagnosis // Biomol. Eng. 2006. № 23. P. 171 – 184.
- Kalish H. Et al. Combination of transfection agents and magnetic resonance contrast agents for cellular imaging: relationship between relaxivities, electrostatic forces and chemical composition // Magn. Reson. Med. 2003. № 50. P. 275 – 282.
- Soppimath K.S., Aminabhavi T.M., KulkarniA.R., Rudzinski W.E. Biodegradable polymeric nanoparticles as drug delivery devices. 2021. № 70. P. 1 – 20.
- Белая книга по нанотехнологиям: Исследования в области наночастиц, наноструктур и нанокомпозитов в Российской Федерации. М.: Издательство ЛКИ, 2008. 344 с.
- Гурьев Е.Л, Шанвар С., Звягин А.В., Деев С.М., Балалаева И.В. Фотолюминесцентные наноматериалы для медицинской биотехнологии. Acta Naturae. 2021. Т. 13. № 2(49). С. 16 – 31.
- Мартин-Пальма Р., Лахтакия А. «Нанотехнологии – ударный вводный курс: пер. с англ.: учебное пособие. Долгопрудный: Издательский Дом «Интеллект», 2017. 208 с.
- Нано- и биокомпозиты / под ред. А.К.-Т. Лау, ф. Хуссейн, Х. Лафди: пер. с англ. М.: БИНОМ. Лаборатория знаний, 2015. 390 с.
- Наноструктуры в медицине / под ред. К. Гонсалвес, К. Хальберштадт, к. Лоренсин, Л.Наир; пер. с англ. М.: Бином. Лаборатория знаний, 2019. 519 с.
- Физика и технология наноструктурированных функциолнальных материалов: монография / Под ред. С.Д. Ханина и Ю.А. Кумзерова. СПб. : Изд-во Военной академии связи, 2023. 328 с.
- Рамбиди Н.Г., Березкин А.В. Физические и химические основы нанотехнологий. М.: ФИЗМАТ, 2009. 456 с.
Supplementary files
