Basic educational system: five years, four years | Enrollment target: | Education: technical secondary school | Professional code: 08260 1.

Training objectives

Training objectives

Training objectives: This major cultivates compound senior professionals with good humanistic quality and teamwork spirit, systematically grasps the basic theory, knowledge and skills of biomedical engineering, can engage in engineering technology development, service, management and education or pursue postgraduate studies in enterprises and institutions in medical devices and medical and health industries, and has strong knowledge updating ability and innovation ability. Training requirements: Students in this major mainly study the basic theories and knowledge of life science, electronic technology, computer and information science, medical instruments and biomedical materials, accept strict scientific experiments, technical research and development training and preliminary scientific research training, and master the basic engineering skills of biomedical application research, product development and management. Graduates should acquire the following knowledge and abilities: 1. Have a solid knowledge of natural science and a certain foundation in humanities, art and social sciences; 2. Master certain physiological and medical knowledge; 3. Master the basic principles and applications of biomedical electronics and information technology, the basic theories and analysis methods of biomedical information detection and processing, and the basic principles and design methods of biomedical materials. 4. Understand the frontier of biomedical engineering and the development trend of new technologies; 5. Understand the medical device industry standards and relevant laws and regulations; 6. Have a sense of innovation and have certain scientific research, scientific and technological development and organizational management capabilities; 7. Have the ability to retrieve, read and translate foreign documents, and have the ability to write scientific foreign languages and communicate with each other. Main subject: biomedical engineering. Core knowledge fields: medical foundation, engineering physiology, electronic technology foundation, computer principle and application, biomedical sensors, modern medical instruments, biomedical signal processing, medical imaging and image processing, biomedical optics, biomechanics, biomedical materials, etc. Main practical teaching links: production practice, clinical practice, graduation project (graduation thesis), extracurricular scientific research training, etc. Main professional experiments: electronic technology basic experiment, computer technology experiment, physiology experiment, medical instrument experiment, biomedical sensing experiment, biomedical signal processing experiment. Length of study: five years/four years. Degree awarded: Bachelor of Engineering or Bachelor of Science.

Professional ability requirements

Professional ability requirements

The main contents of professional teaching

The main contents of professional teaching

Anatomical physiology, biochemistry and molecular biology, bioinformatics, biomedical sensors, medical imaging, medical analysis instrument principle, medical instrument principle, biomedical engineering frontier, magnetic resonance imaging principle and application, engineering physiology training the following professional directions: medical instruments.

Major (skill) direction

Major (skill) direction

Medical device enterprises: medical device research and development, debugging and maintenance, and medical representatives; Medical institutions: operation, maintenance and management of imaging equipment.

Example of vocational qualification certificate

Example of vocational qualification certificate

Examples of continuing learning majors

Employment direction

Employment direction

The employment prospect of biomedical engineering specialty is very good. The main employment directions of graduates are management institutions, state organs, medical institutions and international pharmaceutical and health care products enterprises. The main employment destinations of biomedical engineering students are research institutions, hospital imaging, equipment, clinical engineering, information centers and other related departments, medical equipment-related enterprises and institutions, and relevant government management departments. Graduates' work direction: hospitals, hospital equipment departments, radiology departments, information centers and other departments, mainly engaged in medical equipment maintenance, procurement management, information management and other work; Medical device enterprises, enterprises engaged in research and development, sales and maintenance of medical devices. Sales is mainly to update the equipment of old customers in the region, and at the same time, it is necessary to develop new sales channels; After-sales engineer, mainly responsible for equipment installation, debugging and maintenance. The development of medical device enterprises in South China is generally good, with many enterprises and many employment opportunities. Computer related enterprises. Biomedical engineering majors have learned a wide range of knowledge, including many courses in computer, and many graduates have entered such enterprises. Medical colleges and universities are engaged in teaching and scientific research of medical imaging technology; Apply for civil servants in relevant directions; Besides, there are other ways of employment, such as joining the army, participating in the plan to support the western region, working in the village, applying for Selected Graduates and starting your own business.

Biomedical engineering graduates can cooperate with government agencies, medical institutions (clinical research, highly specialized medical care and management), scientific research institutes, universities (basic research and teaching), international medical and health care enterprises (management and research and development), private institutions and doctors to use, sell and serve medical devices. Graduates can directly participate in highly specialized medical care and solve problems in basic clinical research, which are developed by them.

Corresponding occupation (post)

Corresponding occupation (post)

Other information:

The definition of biomedical engineering is probably to solve biological and medical problems by engineering methods.

Biomedical engineering is a first-class discipline (that is, the level is equivalent to "finance" and "electronics", which means a wide range of disciplines), and there is no subordinate two disciplines. So, for example, universities will divide this major into materials, medical electricity, images and so on.

As for the prospect, the market for medical instruments is still very large, and there is a great demand for talents. There is also a great demand for medical image processing. After graduation, image processing can be done not only on medical images. EEG is developing.

Medical materials, especially artificial limbs, are very scarce in China. That's about all I know. It is best to study this major at least for a master's degree.

I. Employment prospects:

Can be in management institutions and state organs, medical institutions (clinical research, highly specialized medical care, management)

With the cooperation of scientific research institutes, universities (basic research and teaching), international medical and health products enterprises (management and research and development), private institutions and doctors, graduates can directly participate in highly specialized medical care and solve problems in basic clinical research. The equipment and system they developed played a very important role in the observation, diagnosis, treatment and alleviation of diseases.

Second, the employment direction:

The main destinations for students' employment are research institutions, hospital imaging, equipment, clinical engineering, information centers and other related departments, medical equipment-related enterprises and institutions, and relevant government administrative departments.

Biomedical engineering (BME) combines the principles of physics, chemistry, mathematics, computer and engineering, and is engaged in the research of biology, medicine, behavior or hygiene;

Put forward basic concepts, generate knowledge from molecular level to organ level, develop innovative biological products, materials, processing methods, implants, instruments and informatics methods, and use them for the purposes of disease prevention, diagnosis and treatment, patient rehabilitation and health improvement.

The main destinations for students' employment are research institutions, hospital imaging, equipment, clinical engineering, information centers and other related departments, medical equipment-related enterprises and institutions, and relevant government administrative departments. The future is still very good.

At present, doctors have many professional employment destinations, and the main counterparts are mainly medical device-related enterprises, such as some foreign companies, such as GE, Siemens, Philips, Johnson & Johnson, and some domestic enterprises, such as UIH, Mindray and Lan Yun.

No matter whether it is a provincial-level civil servant or a national-level civil servant, the Food and Drug Administration has a special position to recruit biomedical engineering professionals.

Biomedical engineering is a discipline aimed at solving medical related problems, ensuring human health and serving the prevention, diagnosis, treatment and rehabilitation of diseases. It is a comprehensive interdisciplinary subject, which is its greatest feature.

Biomedical engineering integrates the theories and methods of engineering, biology and medicine, studies the state changes of human body system at all levels, and uses engineering technology to control this change. Biomedical engineering majors cultivate senior engineering talents who have basic theoretical knowledge related to life science, electronic technology, computer technology and information science, and the scientific research ability of combining medicine with engineering technology, and can engage in the research, development, teaching and management of electronic technology, computer technology and information industry such as biomedical engineering and medical instruments.

References:

Biomedical Engineering-Baidu Encyclopedia

Simply put, the task of biomedical engineering is to apply biological knowledge and engineering means to solve practical problems in medicine.

At present, there are many employment opportunities for biomedical majors. The main counterparts are medical device-related enterprises, such as some foreign companies, such as GE, Siemens, Philips, Johnson & Johnson, and some domestic enterprises, such as UIH, Mindray and Lan Yun.

Or go to universities, research institutes, etc. Continue scientific research.

Some people switch to biomedical related things, such as going to the hospital, consulting and so on.

No matter whether it is a provincial-level civil servant or a national-level civil servant, the Food and Drug Administration has a special position to recruit biomedical engineering professionals. On this shopping road, majors can limit a large number of people. Therefore, if you want to apply for civil servants, this position is the best choice, but unfortunately, this position at the national level requires graduate students.

Biomedical engineering (BME) combines the principles of physics, chemistry, mathematics, computer and engineering, and is engaged in the research of biology, medicine, behavior or hygiene; Put forward basic concepts, generate knowledge from molecular level to organ level, develop innovative biological products, materials, processing methods, implants, instruments and informatics methods, and use them for the purposes of disease prevention, diagnosis and treatment, patient rehabilitation and health improvement.

Biomedical engineering is a new frontier discipline. It combines the theories and methods of engineering, physics, biology and medicine, studies the state changes of human body system at all levels, and uses engineering technology to control this change. Its purpose is to solve medical problems, safeguard human health and serve the prevention, diagnosis, treatment and rehabilitation of diseases.

Service. One of its branches is biological information, chemical biology and so on. He mainly studies biology, computer information technology and instrumental analytical chemistry. The development of microfluidic chip technology provides new technical prospects for biomedical engineering of medical diagnosis and drug screening, as well as personalized and translational medicine. Chemical biology, computational biology and microfluidic chip are all systems biotechnology, so it will move towards a unified future with system bioengineering.