Author: КОМАНДА № 5 "Singularitatem" | TEAM No. 5 "Singularitatem"
Introduction:
Studying the future of science is an important task for understanding the trends and prospects for the development of society. Scientific discoveries and innovations have a huge impact on various spheres of life, including medicine, industry and social aspects. One of the areas with great potential for development is genetic engineering, which allows the manipulation of the genetic material of organisms. However, serious problems also arise, such as mortality from genetic diseases and a lack of public awareness about this area.
Identification of key points in the development of genetic engineering before 2100:
As a result of the study, we have identified several key points in the development of genetic engineering that may occur by 2100. These include: The emergence of a "home diagnostician", the acceleration of drug screening using AI, the development and development of personalized vaccines, the selection of individual drugs using genome sequencing, Genetic engineering has become a part of human life, Medicine has become completely preventive.
The choice of the direction of study and research was justified by the expected profitability and high prospects.
Development of biopharmacology and 3D printing:
In the first part of the work, the development of biopharmacology and 3D printing was investigated. Biopharmacology is a scientific field that studies the effects of drugs on the body, while 3D printing is a technology for creating three-dimensional objects using various materials. Both directions have great potential for use in medicine.
The statistics of mortality from genetic diseases and the market of genetic engineering were studied to substantiate the prospects of the direction and its importance in the future.
They formed a model of the future World in 2100.
They presented their design works to popularize genetic engineering and justified their novelty. We have not forgotten about crazy ideas, which, most likely, will not turn out to be crazy at all after some time.
Conclusion:
At the end of the work, we emphasized the importance of the development of biopharmacology and 3D printing, as well as the need to combat mortality from genetic diseases. Genetic engineering is one of the key areas of scientific development and has great potential to improve the health of the population. However, in order to achieve full success in this area, it is necessary to develop ethical and legal norms, as well as raise public awareness about gene technologies. Only by observing all this complex work will we be able to realize the potential of genetic engineering and ensure the well-being of future generations.