What does biomedicine do?
Biomedicine mainly studies basic knowledge and skills in biology, basic medicine, etc., and explores and improves human health knowledge, thereby innovating the prevention, diagnosis and treatment of human diseases. For example: tumor immunotherapy, research and development of human anti-aging technology, correction of genetic defects, research on genetic engineering technologies such as cloning and in vitro fertilization, synthesis of human chromosomes, etc.
The courses that biomedicine requires are "Integrated Biomedicine", "Molecular Cell Biology", "Building Organisms", "Microorganisms and Immunology", "Applied Biomedicine", "Human System" "Integrated Function", "Developmental Biology", "Human Structure and Function", etc.
Biomedical scientists have a broad research field, including cancer, diabetes, toxicology research, blood transfusion, anemia, meningitis, hepatitis, and AIDS. These are the medical fields they explore. In addition, biomedical scientists play a key role in cervical smear screening, identifying viruses and conditions, and monitoring the effectiveness of drug treatments and other diagnostic and treatment options.
Biomedical scientists use computers extensively in their daily work and are exposed to high-precision instruments, microscopes and other high-tech laboratory equipment. They are knowledgeable and familiar with the operation of many complex high-tech instruments.
Biomedical engineering:
Biomedical engineering is an interdisciplinary subject, closely related to bioengineering. Its main feature is the application of engineering methods to the medical field. It combines engineering and medicine to improve medical care, help patients receive better care, and improve the quality of life of healthy individuals. Research and development is the main content of the work of biomedical engineers, which covers a very broad field: bioinformatics, medical images, image processing, physiological signal processing, biomechanics, biomaterials, system analysis, three-dimensional modeling, etc. Examples of biomedical engineering applications include biocompatible prostheses, medical devices, diagnostic equipment, imaging equipment such as MRI and EEG, and medical pharmaceuticals.
Biomedical-Engineering is an emerging edge discipline that integrates the theories and methods of engineering, biology and medicine to study the state changes of human body systems at all levels and apply Engineering and technical means are used to control such changes, with the purpose of solving relevant problems in medicine, ensuring human health, and serving the prevention, diagnosis, treatment and rehabilitation of diseases. It has a branch that majors in biology and chemistry in bioinformatics.
The biomedical engineering industry is the two pillars of the modern pharmaceutical industry. The biomedical industry is composed of the biotechnology industry and the pharmaceutical industry. Countries and organizations have very inconsistent definitions and delineated scope of the biotechnology industry, and even the opinions of different people are often very different. Biomedical engineering is the comprehensive application of the principles and methods of life science and engineering science. From the perspective of engineering, we understand the structure, function and other life phenomena of the human body at multiple levels including molecules, cells, tissues, organs and even the entire human body system, and research for disease prevention. , a general term for artificial materials, products, devices and system technologies that treat diseases, assist human body functions, and provide health care.
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