Viktor MALYSHEV1, Yurii LIPSKYI2, Angelina GAB1, Viktoriia KOVALENKO1, Dmytro SHAKHNIN1
1 PrHEI «International European University», Akad. Hlushkov Ave. 42B, 03187 Kyiv, Ukraine email: viktor.malyshev.igic@gmail.com
2National Academy of Statistics, Accounting and Audit Pidhirna Str., 1, 04107 Kyiv, Ukraine
DOI: https://doi.org/10.37827/ntsh.chem.2024.75.171
GLOBAL BIOENGINEERING MARKET: GENERAL CHARACTERISTICS, INSTRUMENT MARKETS, SUBSTANCES AND REAGENTS, EQUIPMENT
The object of the study is the general characteristics of the world bioengineering market, the state, segment analysis, dynamics and prospects of the world markets of tools, substances and reagents, bioengineering equipment. Information is given on the most important problem areas in the health of the world population. Four areas of application of biomedical innovations are defined and areas of influence of biomedical engineering are distinguished. Possible ways and stages of bioengineering programs implementation were discussed. The general characteristics and main features of the world bioengineering market are given. Systematization of available literary data on the world market of bioengineering, markets of tools, substances and reagents, bioengineering equipment will allow for a reasonable approach to the development of domestic bioengineering and will contribute to the integration of domestic science and engineering into the European and world space. To conduct marketing analysis, the method of searching for literary data and the method of analysis were applied. Bioengineering is defined as a field of science and technology that develops the use of engineering principles in biology and medicine. The analysis of the bioengineering tools market was carried out according to the following segments: geographical regions, market products, technological ideas, fields of use; the market of substances and reagents - by geographical regions, market products and applications; of the bioengineering equipment market – by geographic regions, technologies, and the end user. The potential demand and volume of markets of different countries of the world have been determined. The dynamics and competition in the world market are monitored and the factors affecting the dynamics of the market and its key trends are indicated. The state is summarized and the prospects of further scientific research in the field of bioengineering are indicated. The main trends in the development of biotechnology are identified: personalized medicine, gene editing and CRISPR diagnostics, machine learning and artificial intelligence, stem cell technology, big data, drug research. The following scientific methods were used: the method of searching for literary data on the subject under study; method of analysis of literary sources; comparative analysis of different methodological approaches; content analysis of documents; method of systematization and classification when conducting research on the achievements of modern science and technology in the field of bioengineering. The systematization of literary data made it possible to present the problems of bioengineering in the form of tables and diagrams, which gives a certain advantage for understanding and using the material.
Keywords: bioengineering, world market, segment analysis, trend, prospects.
References:
-
1. Roadmap for the use of science, technology, and innovation to achieve the goals of sustainable development
(https://mon.gov.ua/ua/news/shvaleno-dorozhnyu-kartu-vikoristannya-nauki-tehnologij-ta-innovacij-dlya-dosyagnennya-cilej-stalogo-rozvitku).
2. Kosky Р., Balmer R., Keat W., Wise G. Chapter 16. Bioengineering. In exploring engineering (fifth edition) An
Introduction to Engineering and Design. Academic Press. 2021. P. 363–382.
(https://doi.org/10.1016/B978-0-12-815073-3.00016-8).
3. Life sciences technology insights: Scaling a product and platform model.
(https://www.mckinsey.com/industries/life-sciences/our-insights/life-sciences-technology-insights-scaling-a-product-and-platform-model).
4. 11 global health issues to watch in 2023, according to IHME experts.
(https://www.healthdata.org/acting-data/11-global-health-issues-watch-2023-according-ihme-experts).
5. Demchuk I.V. Medical science in Ukraine: real state, problems, prospects. Ukr. Med. Journ. 2020. Vol. 150(4).
P. 19–23 (in Ukrainian). (https://doi.org/10.32471/umj.1680-3051.150.233338).
6. Shatorna V.F. Nanotechnology, nanomedicine, nanobiology: a view of the problem. Bull. Probl. Biol. Med. 2013.
Iss. 1. Vol. 2 (99). P. 40–43 (in Ukrainian).
7. What is global health? The 6 biggest issues you need to know about.
(https://www.sgu.edu/blog/medical/what-is-global-health/).
8. Yeung A.W.K., Tzvetkov N.T., Gupta V.K., Gupta S. et al. Current research in biotechnology: exploring the
biotech forefront. Curr. Res. Biotech. 2019. Vol. 1. P. 34–40. (https://doi.org/10.1016/j.crbiot.2019.08.003).
9. Patou F., Dimaki M., Maier A., Svedsen W.E., Madsen J. Model-based systems engineering for life – sciences
instrumentation development. Syst. Eng. 2019. Vol. 22(2). P. 98–113. (https://doi.org/10.1002/sys.21429).
10. Chen G.Q. New challenges and opportunities for industrial biotechnology. Microbial cell factories. 2012.
Microb. Cell Fact. Vol. 11. article number 111. (https://doi.org/10.1186/1475-2859-11-111).
11. Newell J.C. The development of biomedical engineering as experienced by one biomedical engineer. Biomed. Eng.
Online. 2012 Vol. 11. Article number: 94. (https://doi.org/10.1186/1475-925X-11-94).
12. Life sciences. (https://www.proclinical.com/life-sciences).
13. Important ways that bioengineering has enhanced health care
(https://engineeringonline.ucr.edu/blog/4-ways-bioengineering-has-enhanced-health-care/).
14. Rajathi1 A.A., Raj A.S., Rajalakshmy P.K., Gerard Joe Nigel K.J. Review on biomedical instrumentation.
Biomedical engineering and its various applications. Int. Journ. Adv. Res. Electrical, Electronics, and
Instrumentation Eng. 2014. Vol. 3(3). P. 7707–7719. (www.ijareeie.com).
15. Malyshev V., Kushchevska N., Korotieieva A., Bruskova D.-M., Lukashenko T., Zalubovskiy M. Investigation of
state, trends and structure of the world market of nanopowders. Technology Audit and Production Reserves. 2019.
Vol. 46(2/4). P. 34–42. (in Ukrainian). (https://doi.org/10.15587/2312-8372.2019.167234).
16. Malyshev V., Kushchevska N., Korotieieva A., Bruskova D.-M., Zalubovskiy M., Lukashenko T. Analysis and
systematization of marketing studies data of the Ukrainian nanopowder market and formation of the program for its
development. Technol. Audit & Prod. Reserves. 2019. Vol 47(3/4). P. 28–34 (in Ukrainian).
(https://doi.org/10.15587/2312-8372.2019.172152).
17. Malyshev V., Gab A., Kovalenko V., Pryshedko O., Shakhnin D. Estimation of global nanomedicine market: status,
segment, analysis, dynamics, competition and prospects. Technol. Audit & Prod. Reserves. 2024. Vol. 75(4). P.
48–59. (in Ukrainian). (https://doi.org/10.15587/2706-5448.2024.299271).
18. Life Science Tools Market. (https://www.precedenceresearch.com/life-science-tools-market/amp).
19. Holban A.-M. Materials for Biomedical Engineering. Organic Micro and Nanostructures. Book. Elsevier Inc. 2019.
(https://doi.org/10.1016/C2017-0-04440-3).
20. Qin G., Kai X. Advanced materials for biomedical engineering applications. In book: Design, Fabrication,
Properties and Applications of Smart and Advanced Materials. 2016. P. 376–412. (https://doi.org/10.1201/b19977-13).
21. Life Science Reagents Market (https://www.precedenceresearch.com/life-science-reagents-market/amp).
22. Webster J.G. The ten most important biomedical engineering devices. In: Magjarevic, R., Nagel, J.H. (eds)
World Congress on Medical Physics and Biomedical Engineering. 2006. IFMBE Proceedings. Vol 14. P. 664–667.
(https://doi.org/10.1007/978-3-540-36841-0_154).
23. Life Science Instrumentation Market Size And Forecast
(https://www.verifiedmarketresearch.com/product/life-science-instrumentation-market/).
24. Tор 7 Biotechnology Trends to Watch in 2024
(https://sigma.software/about/media/top-7-biotechnology-trends-to-watch-in-2024).
25. Tор 7 Biotechnology Trends (https://www.google.com/search?q=TOP+7+BIOTECHNOLOGY+TRENDS&oq=TOP+7+BIOTECHNOLOGY+TRENDS+&gs_lcrp=EgZjaHJvbWUyBggAEEUYOTIGCAEQRRg80gEJMTczN2owajE1qAIAsAIA&sourceid=chrome&ie=UTF-8).
26. Almuhana W.H.J, Aljamali N.M. Review on biomedical engineering and engineering technology in bio-medical
devices. J. Adv. Electr. Dev. 2021. Vol. 6(2). P. 18–24. (www.matjournals.com).
27. Fedyna S.M., Kovalov B.L., Ignatchenko V.M. Bioeconomics: the Essence of the Concept, Strategies, Status and
Prospects of Development of Entrepreneurial Forms in Ukraine. ISJ MER. 2019. No. 3. P. 16–27. (in Ukrainian).
(https://doi.org/10.21272/mer.2019.85.02).
28. Concept of the State strategy for the development of the bioeconomy of Ukraine until 2030 (Project). (in
Ukrainian). Electronic resource: (https://www.nubip.edu.ua/node/72005).
29. Maksymenko V.B., Biloshytska O.K., Ovcharenko G.R., Yurjeva K.A. Actual tasks of biomedical engineering in
Ukraine. Biomed. Eng. Technol. 2020. No. 3. P. 1–5 (in Ukrainian).
(https://doi.org/10.20535/2617-8974.2020.3.195550).
How to Cite
MALYSHEV V., HRYTSAN I., GAB A., KOVALENKO V., SHAKHNIN D. GLOBAL BIOENGINEERING MARKET: GENERAL CHARACTERISTICS, INSTRUMENT MARKETS, SUBSTANCES AND REAGENTS, EQUIPMENT. Proc. Shevchenko Sci. Soc. Chem. Sci. 2024. Vol. LXXV. P. 171-187.