Biomedicine and bioengineering

By biomedicine we mean fundamental (theoretical) medicine, which is based on the achievements of the natural sciences, primarily biology, in order to create new and improve already known methods and means of treatment, prevention and diagnosis of human and animal pathologies, support of a full-fledged physical, mental and social well-being of a person.

Biomedicine is directly related to the following medical and biological sciences: anatomy, physiology, pathology, pharmacology and toxicology, bioorganic and pharmaceutical chemistry, pharmacognosy, cosmetology, immunology and allergology, histology, cytology, embryology, biomechanics, valeology, hygiene and occupational pathology, epidemiology , social medicine, clinical laboratory diagnostics, cryomedicine, hematology, endocrinology, oncology, translational, personalized and regenerative medicine, radiobiology, biochemistry and biophysics, molecular and cellular biology, genetics, microbiology, mycology, virology, developmental biology, ecology, entomology, parasitology , helminthology.

By bioengineering we mean the interdisciplinary approach of using engineering principles in biology and medicine.
Bioengineering is directly related to the following applied (technical, engineering) sciences: biotechnology, bioengineering, medical and biological informatics and cybernetics (including biomedical visualization), systems and computational biology, biocompatible materials and artificial organs, prosthetics and orthotics, rehabilitation engineering (including orthopedic and sports bioengineering), regenerative engineering (including tissue and organ engineering), biosafety and bioprotection technologies, pharmaceutical engineering, industrial pharmacy, technologies of biologically active substances, medicines, medical devices and other products in the healthcare system, biosensors, medical device engineering , clinical engineering, good engineering practices in biotechnology, pharmacy, medicine.

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