Biomedical Engineering: Course, Admission 2025, Fees, Placement, Syllabus, Entrance Exam, Career Sco
About Biomedical Engineering
Biomedical engineering (BME) or medical engineering applies engineering ideas and design concepts to biology and medicine for healthcare applications such as diagnosis or therapy. BME has been used historically as a rational science to enhance the diagnosis, therapy, and monitoring in medical fields. The management of hospitals' existing medical equipment while abiding by pertinent industry standards falls under the purview of a biomedical engineer. Purchasing, regular testing, preventative maintenance, and equipment advice are all part of this.
Biomedical Engineering Course Details
Here’s a general outline of what a typical Biomedical Engineering course might cover:
Core Topics
- Introduction to Biomedical Engineering
- Overview of the field
- Career opportunities
- Biomaterials
- Properties of materials used in medical devices
- Biocompatibility and tissue interactions
- Biomechanics
- Mechanics of biological systems
- Analysis of movement and forces in the body
- Bioinstrumentation
- Design and application of medical devices
- Signal processing for biomedical applications
- Medical Imaging
- Techniques (MRI, CT, ultrasound)
- Image analysis and interpretation
- Systems Physiology
- Understanding human body systems
- Integrative approach to health and disease
- Cell and Tissue Engineering
- Concepts in regenerative medicine
- Scaffold design and cell culture techniques
- Biomedical Signal Processing
- Analyzing physiological signals
- Application in diagnostics and monitoring
- Regulatory Affairs and Ethics
- Understanding regulations governing medical devices
- Ethical considerations in biomedical research
Biomedical Engineering Eligibility Criteria
The eligibility requirements for biomedical engineering programs vary depending on the level of study and the institution:
Undergraduate
- To be eligible for undergraduate programs in biomedical engineering, you must have completed 10+2 in the science stream from a recognized board.
- You must also have scored at least 50% on the 12th exam.
- Some institutions may require you to pass entrance exams like JEE Main, state-level engineering entrance exams, or university-specific tests.
Master's
- To be eligible for a master's program in biomedical engineering, you must have graduated in biomedical engineering or biotechnology from a recognized university or institute.
- You can also pursue a postgraduate course in biomedical engineering if you have an MBBS degree.
PhD
- To pursue a PhD in biomedical science, you must have qualified UGC NET or CSIR NET with a minimum of 45–50% aggregate. To pursue a PhD in biomedical engineering at IITs, you must qualify for the GATE Biomedical Engineering exam.
Biomedical Engineering Admission Process
The standard admissions process for Biomedical Engineering is listed below; it may differ significantly based on the university and course level:
- Eligibility Check: Verify that you fulfill the qualifying conditions, including the minimal percentage, educational background, and admission exam results.
- Attend Entrance Examinations: Take appropriate entrance examinations, such as state-level engineering entrance exams, JEE Main, or BITSAT.
- Score Reporting: Get your entrance exam results and keep them up to date for the admissions process.
- Submission of Application Forms: Complete the application forms for the institutes of your choice, including the necessary paperwork and precise information.
- Entrance Exam Counseling: Attend counseling sessions based on entrance exam rankings to choose your preferred institute and branch.
- Document Verification: Verify and submit necessary documents during counseling, including academic records, identity proof, and exam scorecards.
- Seat Assignment: Pay the necessary costs and accept the seat assigned throughout the counseling procedure.
- Fee Payment: Within the allotted period, finish paying your tuition and other costs.
- Admission Verification: Verify your admission by sending in all required paperwork and finishing any last-minute requirements.
Biomedical Engineering Syllabus
Here is a Biomedical Engineering syllabus, but it can vary slightly according to the college
| Course Name |
Subjects |
| Biomedical Microsystems |
- Introduction to materials and miniaturization
- MEMS Fabrication Processes
- Microfabrication Techniques
- Micro Total Analysis Systems
|
| Hospital Management |
- Process of management
- Hospital Planning and Organisation of the Hospitals
- Supportive and Clinical Services
- Auxiliary and Other Engineering Services
- Inventory Control and Material Management
|
| Healthcare Informatics |
- Healthcare Interoperability
- HL 7 Version 2
- DICOM Standard
- DICOM Communications
- DICOM Associations
|
| Robotics in Medicine |
- Introduction to Robots and Automation
- Direct Kinematics
- Inverse Kinematics
- Robot Vision Image Representation
|
| Nuclear Medicine |
- Basics of Nuclear Physics
- Radiopharmaceuticals
- In Vivo Techniques
- Detectors in Nuclear Medicine, counting and measuring systems
|
| Research Methodology |
- Introduction and Basic Research Concepts
- Types of Research
- Research Design and Sample Design
- Research Methodology
- Formulating Research Problem
- Outcomes of Research
|
| IPR and Patenting |
- Introduction to IPR
- Enforcement of Intellectual Property Rights
- Indian Scenario of IPR
- Emerging Issues in IPR
- Basics of Patents
- Patent Rules
- Procedure for filing a patent
- Patent Databases
|
| Biomedical Microsystems |
List of experiments:
- Crystal Structure
- Biosensors
- Simulation of scaling law
- Simulation of Microvalve
- Simulation of pressure sensors
- Simulation of microchannel
- Simulation of micropump
|
Top Entrance Exams for Biomedical Engineering 2025
- JEE Main
- JEE Advanced
- GATE
- BITSAT
- VITEEE
Top Biomedical Engineering Colleges in India
Top Biomedical Engineering Government Colleges
- Indian Institute of Technology (IIT) Delhi
- Indian Institute of Technology (IIT) Bombay
- Indian Institute of Technology (IIT) Kharagpur
- All India Institute of Medical Sciences (AIIMS), Delhi
- National Institute of Technology (NIT) Trichy
Top Biomedical Engineering Private Colleges
- Manipal University, Manipal
- BML Munjal University, Gurugram
- SRM Institute of Science and Technology, Chennai
- Amity University, Noida
- LPU (Lovely Professional University), Punjab
Who should pursue Biomedical Engineering?
Biomedical engineering is particularly well-suited to individuals with interests and talents in combination from the following fields :
- It is a really interesting field if one wants to work towards improving patient care, medical devices, or healthcare technologies.
- Strong background in STEM-Related Subjects: A person should have a proper basic foundation in science and mathematics because the field deals with science and mathematics.
- Problem-solving skills: If you are keen on solving complex problems and coming out with innovative solutions, biomedical engineering has many challenges to engage your analytical thinking.
- Creativity: New medical devices or technologies require creativity and innovation to solve real-world health issues.
- Technical skills: Familiarity with programming, electronics, and engineering principles will be useful because you'll work with many different technologies.
Biomedical Engineering Scope in Healthcare and Beyond
1. Medical Devices and Equipment
- Design of Medical devices, MRI Machines, Pacemakers, and prosthetics
- Health parameter tracking in real-time using Defective devices
2. Tissue Engineering and Regenerative Medicine
- Development of Implantable scaffolds for damage repair and replacement of organs
- Scientific study related to the fields of Stem cell therapy and regenerative medicine
3. Medical Imaging
- Advancements in imaging technologies with CT, MRI, and ultrasound, improve diagnostics
- New techniques development in particularly new imaging modality with superior visualization capability
4. Biomechanics
- Study of movement and mechanics in the human body: advances in rehabilitation technology and equipment and better design in ergonomics.
- Injury prevention during sports and recovery
5. Pharmaceutical Engineering
- Activities are developed considering drug delivery systems for the effective safety of drugs.
- Researching activities on personalized medicine and pharmacogenomics.
Biomedical Engineering
Jobs
- Biomedical Engineer
- Clinical Engineer
- Regulatory Affairs Specialist
- Quality Assurance Engineer
- Rehabilitation Engineer
- Biomaterials Engineer
- Medical Imaging Engineer
Salary
This is an approximate salary for each position
- Biomedical Engineer: ? 3,00,000 to ? 8,00,000 yearly with an average of around ? 5,00,000
- Clinical Engineer: Usually gets a salary between ? 4,00,000 to ? 10,00,000 and averages around ? 6,00,000.
- Biomaterials Engineer: Usual salary between ? 4,00,000 and ? 10,00,000
- Medical Imaging Engineer: Salaries range from ? 4,00,000 to ? 12,00,000
- Biomechanics Engineer: Generally earns between ? 3,00,000 and ? 9,00,000.
Career Scope
- Diversified Job Opportunities Medical device companies and hospitals; R&D and biotech firms.
- Government Initiatives Program like "Make in India" to help local manufacturing and innovation
- Health Tech Startups The opportunities are on the rise with the focus on innovative solutions
- Interdisciplinary Areas Data scientists, AI experts, and bioinformaticians
- Regulatory & Quality Assurance Role from compliance and quality in the medical device space is on the rise
Top Recruiters
- Johnson & Johnson Medical India
- Stryker India
- TCS Healthcare Solutions
- Wipro GE Healthcare
- Cipla Limited
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