BIOMEDICAL ENGINEERING

Are you passionate about science and engineering, especially in the fields of medicine and biology? The Biomedical Engineering major might be the perfect choice for you. Let's explore the opportunities and challenges in this field, as well as the skills and knowledge needed to become an outstanding biomedical engineer.

Introduction to the Major

Biomedical Engineering (BME) is an emerging interdisciplinary field that combines knowledge of science, engineering, and medicine. The core courses include Analog Electronics, Digital Electronics, Signals and Systems, Biomedical Sensing, Biomedical Signal Processing, Biomedical Materials and Regenerative Medicine, Antibody Engineering Technology, among others. 

Students also complete relevant experiments and course designs, including Engineering Training, University Physics Experiments, Biochemistry Experiments, Microbiology and Immunology Experiments, Electrical and Electronic Technology Experiments and Training, Analog Electronics Experiments, Digital Electronics Experiments, Basic Biomedical Engineering Experiments and Professional Experiments, Scientific and Technological Innovation Activities, Cognitive Internships, and Production Internships. 

Through the combination of theory and practice, students deeply master the basic theories and professional knowledge of life sciences and engineering sciences, systematically grasp the basic methods and experimental skills involved in biomedical engineering, and have the ability to solve complex engineering problems in areas such as nanomedicine and regenerative medicine, biomedical sensing and instrumentation, and biomedical image processing.

Training Objectives

The Biomedical Engineering major integrates biology, medicine, materials, electronics, and information fields, using modern engineering techniques to solve problems related to prevention, detection, diagnosis, treatment, and rehabilitation in the medical and health fields. 

This major aims to cultivate high-quality interdisciplinary talents with good humanistic scientific literacy, a sense of national responsibility, international vision, and innovative awareness, who master the basic theories of biomedical engineering and related disciplines, have the ability to comprehensively apply multidisciplinary knowledge and methods to solve practical problems in the medical field, and possess strong management and team leadership skills, adapting to the development of related industries such as biomedical materials, biomedical sensing, and medical instruments.

Graduation Requirements

• Master the basic theories and methods of biomedical engineering.
• Have the ability to develop and apply medical devices.
• Have the ability to design biomedical engineering experiments and analyze data.
• Have the ability to conduct independent scientific research and a good sense of innovation.
• Have team spirit and good communication skills.

Core Courses

• Biomedical Signal Processing
• Biomedical Sensors
• Principles and Design of Medical Instruments
• Biomaterials
• Biomechanics
• Biomedical Imaging Technology
• Medical Micro-Nano Technology
• Clinical Engineering

Research Directions

• Biomedical Imaging and Signal Processing: Research on medical imaging technology and the acquisition, processing, and analysis of biomedical signals.
• Biomaterials and Tissue Engineering: Research on biomaterials for medical applications and their use in tissue repair.
• Biomechanics and Rehabilitation Engineering: Research on the mechanical properties of the human body and the design and application of rehabilitation devices.
• Medical Devices and System Design: Research on the design, development, testing, and maintenance of medical devices.
• Clinical Engineering and Medical Information Technology: Research on the management of hospital equipment and the development and application of medical information systems.

Degree Awarded

Graduates of the Biomedical Engineering major will be awarded a Bachelor of Biomedical Engineering degree.

Career Development

Graduates of this major have a wide range of employment opportunities and can engage in technical development, process design, production process control, and enterprise management in fields such as the medical device industry, biotechnology industry, bioinformatics industry, international pharmaceutical and health product companies, as well as management institutions, medical institutions, and research institutes in the healthcare sector. 

Additionally, students can be exposed to the cutting-edge technology and research hotspots in the field of biomedical engineering during their training and can choose to pursue master's or doctoral degrees at renowned universities at home and abroad.

Related Majors

• Medical Imaging Engineering
• Bioengineering
• Electronic Information Engineering
• Mechanical Engineering
• Computer Science and Technology

Top Universities Offering Biomedical Engineering Programs in China

1. Tsinghua University
2. Zhejiang University
3. Shanghai Jiao Tong University
4. Peking University
5. Tongji University