Basic subjects
Higher Mathematics
Physics
Chemistry and ecology
Computer science
Computer and engineering graphics
Metrology, standardization and measuring instruments
Philosophy
Cultural studies
Foreign language
Sociology
Life safety
Economics and law
Theoretical foundations of electrical engineering
Fundamentals of instrument and system design
Specialized subjects
Computer technologies in biomedical research
Human morphology and anatomy
Medical devices, apparatuses, systems and complexes
Electronics
Biophysics
Circuit engineering and system engineering
Modeling of biological processes and systems
Technical methods of diagnostic research and therapeutic effects
Means of removing diagnostic information and summarizing therapeutic effects
Design and technology of production of devices and systems
Clinical laboratory and environmental electronic equipment
Acoustic methods and devices in medicine
Maintenance of medical equipment
Safety and reliability of medical equipment
Program Overview
We train future specialists in the field of engineering and computer graphics, materials science, machine parts, electrical engineering and electronics - a specialist with spatial thinking, understanding the anatomy and physiology of a person who is versed in the biocompatibility of materials and devices, an expert in the field of medical and technical safety.
Students in the biotechnology degree program are accomplished professionals who are pursuing the degree to continue their career advancement, they work in fields like biotech, academic research, pharmaceuticals.
If you wanted to participate in the creation of high-tech medical devices, biomechanical prostheses, robotic medical complexes, artificial organs and life support systems and gain knowledge and competencies in electronics, robotics, biophysics, biomechanics and biochemistry, you have chosen good program.
Program Benefits
• The competencies of graduates are based on the interrelation of two fields: technology and medicine.
• The uniqueness of the educational program consists in the acquisition of skills and competencies by students based on the study of innovative technologies in the field of biotechnical systems on new equipment and on the basis of new scientific information.
• The advantage of the curriculum is the balance of fundamental, theoretical and practical training, its variability, as well as the availability of project activities in terms of disciplines.
• Current managers and employees of specialized organizations, enterprises and partner institutions of the program are involved in educational and industrial practices, final state certification.
Prospects. Career & Employment
Biotechnology represents the coming together of two disparate subject areas: biology and technology. It combines theories studied closely in natural sciences and engineering degrees and applies these to real-world concerns.
Our graduates have gone on to Master and PhD programs in the fields of AI and machine learning, cell and systems biology, proteomics, pharmacy, genetics, and neurogenetics at national universities.
Ultimately, choosing to work as a biotechnologist offers the opportunity to be at the forefront of cutting-edge science, improve people's lives, and engage in fulfilling, intellectually stimulating work.
Sample job titles in Biotechnology include: Antibody Engineer, Biotechnology Engineer, Computational Biologist, Data Scientist, Field Application Specialist, Biomedical Engineer, etc.
After educational program students can:
- Continue their education at Master's Degree program.
- Take part in internship to explore a topic in Bioinformatics, Biotech Management or Project Management.
Why is it important to pursue a higher education?
The program "Technologies and Architecture of medical equipment" takes into account the requirements of professional standards corresponding to the professional activities of graduates, who must possess competencies in engineering and computer graphics, materials science, machine parts, electrical engineering and electronics, possess spatial thinking, understand human anatomy and physiology, understand the biocompatibility of materials and devices, be an expert in the field of medical and technical safety.