Biomedical engineering

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Biomedical
engineering

Bachelor's program

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Program's main objective

This curriculum is intended for undergrads pursuing biotechnology as their field of study. The goal of this curriculum is to give students specific expertise in the areas of chemistry, biology, genetics, bioinformatics, and biophysics in addition to the fundamental understanding in the natural sciences. Students select the academic path that interests them the most during the procedure, such as genetics, molecular biology, bioinformatics, or biophysics.
The program's aim is to offer the most comprehensive representations of these fields so that students can specialize even further and have the chance to study a few chosen topics in-depth.

Who is this program intended for?

Undergraduates who want to pursue a career in biotechnology, biophysics, bioinformatics.

Conditions of admission

Language skills

Upper-intermediate or above in English

Minimum required knowledge

High degree of basic school understanding in chemistry, biology, mathematics, and physics

Efficiency

Time-management abilities

Soft skills

Perseverance and patience

Commitment

Unquenchable need for knowledge

15 seats per program

4 years

Tuition fee or scholarship

Skills

Skills obtained during education program

Experimental biology
Knowledge and expertise in the practical use of tissue engineering, molecular and cellular biotechnology, and genomic engineering techniques.
01
Drug research
Modern technologies for the development of drugs and vaccines
02
Data analysis
Abilities in bioinformatics and molecular modeling
03
Solving real problems
Understanding the proper methods for approaching real biology and genetics problems and being able to reformulate them in technical terms
04
Cross-disciplinary knowledge
Competent understanding and useful abilities in the fields of biophysics, bioinformatics, and molecular biology

05
Relevant research fields
Fundamental experimental abilities for studying microbial, cell, and viral activity
06
Expertise
Fundamental understanding and practical proficiency with the elements of material science, tissue engineering, and medical biotechnologies
07

Career prospects

A curriculum in biomedical engineering blends specialized biological and medical knowledge with the fundamentals of mathematical and physical sciences. Graduates have an advantage over other applicants because of this quality for potential employers. Both scientific fields and numerous commercial businesses employ our graduates.

Our students conduct research with various partners during their studies, including the Scientific Research Institute of Physical-Chemical Medicine, the Rogachev National Research Center of Pediatric Hematology, Oncology, and Immunology, BostonGene, ChemRAR, the Engelhardt Institute of Molecular Biology, RAS, the Vavilov Institute of General Genetics, RAS, and the Institute of Bioorganic Chemistry, RAS.

Our students get essential practical skills from the numerous laboratory practices and project sessions they participate in. They can take part in a variety of projects beginning in their first year, including lab research and partner and student-run businesses' ventures.

Our alumni work in labs, in pharmaceutical and medical companies, and in a variety of sectors, including bioinformatics, genetics, and manufacturing gadgets.