Biomedical Science focuses on the study of biology, life sciences, basic medicine, genetics and other aspects of the basic knowledge and skills to carry out oncology, diabetes, genetic diseases, viruses and other aspects of diagnosis and treatment and exploration.
1, basic research and biomedical sciences
Biomedical science emphasizes in-depth study of the biological processes of the human body in order to reveal the mechanisms of disease and the corresponding molecular, cellular, and tissue level changes. This includes studying areas such as genomics, proteomics, cell signaling, immunology, and pathophysiology. Through these studies, scientists can better understand the genetic basis of disease, its developmental processes, and associated biological pathways.
2. Clinical Medicine and Translational Medicine
Biomedicine is also closely related to clinical medicine and is committed to translating the results of basic research into medical practice. The goal of translational medicine is to apply research results to clinical diagnosis and treatment in order to improve disease prevention, early diagnosis and personalized treatment. Through a biomedical approach, physicians can utilize tools such as drug therapies and biotechnology to improve the health of their patients.
3. Medical Engineering and Medical Technology
Medical engineers utilize the principles and methods of engineering sciences to develop and design medical devices, medical image processing systems, bionic sensors, and wearables to improve the efficiency and accuracy of clinical practice and healthcare delivery. In addition, biomedicine involves the research and application of biomaterials, as well as the development of fields such as biomedical informatics to drive innovation and advancement in medical technology.
Career direction of biomedical science majors:
1, pharmaceutical research and development and pharmaceutical industry
Biomedical science graduates have a wide range of employment opportunities in the pharmaceutical research and development and pharmaceutical industry. They can be engaged in new drug development, drug evaluation, clinical trial design and execution. In these positions, knowledge and skills in biomedical sciences, such as molecular biology, cell biology, pharmacology and drug metabolism, need to be utilized to advance the development and marketing of new drugs.
2. Medical Imaging and Diagnostic Fields
Biomedical science graduates can choose to work in the medical imaging and diagnostic fields. They can become imaging technologists, radiologists or diagnostic sonographers, etc., and are responsible for image processing in diagnostic and therapeutic procedures using medical imaging equipment. These positions require an understanding and application of medical imaging as well as familiarity with anatomy, pathology and medical technology.
3. Scientific research and academia
Biomedical graduates may also choose to enter the field of scientific research or pursue an academic career. One can pursue basic or translational research in universities, medical schools, or research organizations to explore new medical knowledge and discoveries. These positions require an in-depth scientific background and research skills such as experimental design, data analysis and scientific writing.