Digital modeling, prospects for technology development in the medical university
- Authors: Nechiporuk E.Y.1, Shvedova V.G.1, Sych G.V.1
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Affiliations:
- Voronezh State Medical University named after N.N. Burdenko
- Issue: Vol 14 (2025): Материалы XXI Международного Бурденковского научного конгресса 24-26 апреля 2025
- Pages: 645-647
- Section: Управление в здравоохранении
- URL: https://new.vestnik-surgery.com/index.php/2415-7805/article/view/10349
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Abstract
In the modern world, digital technologies penetrate into all spheres of our lives, and medicine is no exception. One of the key areas of development of medicine is the use of digital prototypes, which allow creating virtual models of organs and tissues, as well as using them in diagnostics and treatment of diseases. This topic is extremely relevant, as digital prototypes open up new opportunities in the field of healthcare and are of great importance for improving the quality of medical care. The role of digital prototypes in medicine is difficult to overestimate. They open up wide opportunities for diagnostics, planning and implementation of medical interventions, as well as for training and advanced training of medical personnel. The use of virtual models allows doctors to study the patient's anatomy in detail, identify pathological changes, plan the optimal course of surgery, simulate various treatment options and evaluate their effectiveness.
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Introduction. Digital technologies have revolutionized various fields in recent years, and medicine is no exception. One of the most significant innovations is the use of digital prototypes. Digital prototypes are virtual models created using modern computer technologies such as 3D modeling and data analysis.[1] In medicine, digital prototypes can be used to create organ models, simulate surgeries, test medical equipment, and develop new medical technologies. The use of digital prototypes in medicine has a number of significant advantages over traditional diagnostic and treatment methods. One of the key advantages is the ability to conduct virtual experiments and simulate various situations without the need to affect a real patient. This reduces risks to patients' health, optimizes therapeutic approaches, and tests new methods and medical technologies. Another important advantage is the increased accuracy and objectivity of medical research. Digital prototypes are used in the creation and production of personalized medical devices such as prostheses, implants, and orthopedic devices. Based on three-dimensional models of the patient's organs and tissues, these products can be manufactured taking into account individual anatomical features, which increases their efficiency and comfort.
Digital prototypes make it possible to obtain more detailed and accurate information about the condition of organs and tissues, identify early signs of diseases, which is often unavailable using traditional diagnostic methods.[2] In addition, digital models allow you to analyze large arrays of medical data, identify hidden patterns and errors, which is impossible with manual analysis.
Objective. During the survey, find out the assessment of the importance of using prototypes in modern medicine. Materials and methods of research. Theoretical and practical methods:
study of literature and other sources of information. Survey: questionnaire survey of 80 students by filling out online forms among 5-6 year students of the medical and dental faculties, as well as residents of the medical university.
Results of the study. It was found that 95% of respondents assess the importance of using digital technologies in medical practice;
47.5% see the advantages of using these technologies in improving the accuracy and diagnostics;
22.5% believe that digital models will improve the quality of patient care; 53% of respondents would take a course on the use of digital prototypes for further use in their profession. 27.5% of students believe that digitalization will increase the availability of medical services, and 37.5% are confident that the use of digital prototypes will accelerate the automation of routine tasks for doctors. Thus, the survey results indicate that the majority of participants are aware of and recognize the significant benefits provided by the use of digital prototypes, especially in the context of improving the quality of treatment and diagnostic accuracy. Respondents pay particular attention to improving diagnostic results and the therapeutic process, which emphasizes the relevance of digital technologies in healthcare. The survey data confirm the active desire of the medical community to implement digital solutions aimed at optimizing work in the field of healthcare and improving the quality of care provided.
Conclusion. Digital prototypes play a key role in modern medicine, opening up new opportunities for visualization, diagnostics, treatment planning, development of personalized medical products, training of medical personnel and conducting clinical trials. The approaches provided by digital medicine can improve
About the authors
Ekaterina Yurevna Nechiporuk
Voronezh State Medical University named after N.N. Burdenko
Email: lady.nechiporuk@yandex.ru
ORCID iD: 0009-0000-8717-406X
Student
Russian Federation, 394036, Russia, Voronezh, Studencheskaya st., 10Vera Grigorevna Shvedova
Voronezh State Medical University named after N.N. Burdenko
Email: vera.vera.shvedova@mail.ru
ORCID iD: 0000-0002-6742-5543
SPIN-code: 1999-9630
Assistant Professor of the Department of Management in Healthcare
Russian Federation, 394036,Voronezh,St.Studencheskaya,10Galina Vladimirovna Sych
Voronezh State Medical University named after N.N. Burdenko
Author for correspondence.
Email: sichgala@gmail.com
ORCID iD: 0000-0001-8517-7427
Candidate of Medical Sciences, Associate Professor of the Department of Healthcare Management
Russian Federation, 394036,Voronezh,St.Studencheskaya,10References
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- Михайлов, Д. [2024]. Использование 3D-печати в обучении медицинских работников. Вестник медицинского образования, 37 (4), С.56-63.
- В.Н. Павлов, А.М.Ханов, А.Г.Тюрганов. Цифровая медицина: ожидания и перспективы//Цифровое здравоохранение.-2022.Т №2.- C.-.2
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