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Overview
Biomedical Engineering (BME) is a multidisciplinary field that applies engineering principles to healthcare. It's focused on improving diagnosis, monitoring and therapy. The field is diverse, with applications ranging from prostheses development to regenerative tissue growth.
The Biomedical Engineering course in India for Bachelor's degrees spans 3-4 years and for postgraduate degrees, it's typically 2 years and in abroad, similar practice is followed. The Biomedical Engineering syllabus is designed to equip graduates with a unique set of skills, enabling them to apply engineering principles to solve health problems and manage medical equipment in hospitals.
The career prospects for BME graduates are vast and continually growing with technological advancements. They can work in various sectors including management, laboratory work, education, research and consultancy, making a positive impact on health and wellbeing.
Scope
The scope of Biomedical Engineering is vast in both India and abroad. In India, the healthcare industry's significant growth drives demand for skilled professionals who can innovate and implement cutting-edge medical technologies.
Abroad, the demand for Biomedical Engineers is predicted to rise by 23% between 2014 to 2024. This field positively impacts health and well-being by developing less painful medical tests, devising new ways for blood tests, screening for infectious diseases and genetics.The Biomedical Engineering syllabus in Indian Institutes is meticulously designed to equip students with a broad foundation in the field of Biomedical Engineering. It encompasses a wide range of subjects, from basic sciences to specialised biomedical engineering courses. This comprehensive BME curriculum prepares students for a variety of career paths in healthcare technology and research.
Semester |
Subjects Covered |
1 |
Professional Communication, Mathematics-I, Engineering Chemistry, Engineering Mechanics, Basic Electrical Engineering, Value & Ethics in Profession |
2 |
Mathematics-II, Physics-I, Environment & Ecology, Elements of Electronics Engineering, Introduction to Programming |
3 |
Biomathematics & Biostatistics, Physics-II, Engineering Physiology & Anatomy, Circuit Theory & Networks, Analog Electronic Circuits |
4 |
Biomechanics, Biophysical Signals & Systems, Digital Electronics & Integrated Circuits, Object Oriented Programming using C++, Biomaterials |
5 |
Medical Molecular Biology, Bio-Fluid Mechanics, Basic Mathematics, Medical Aspects Of Electromagnetic Theory |
6 |
Embedded Systems In Medicine, Engineering And Biomaterials, Introduction To Bio-Telemetry And Analysis |
7 |
Advanced Biomedical Instrumentation, Biomedical Signal Processing, Medical Imaging Techniques |
8 |
Hospital Management and Clinical Engineering, Rehabilitation Engineering, Biomedical Ethics |
The International Biomedical Engineering syllabus is designed to offer students a worldwide view of the discipline. It weaves together principles from engineering, biology, and medicine, and incorporates the latest international research and methodologies. This eclectic curriculum readies students for a global career in biomedical engineering, encouraging innovation and progress in healthcare technologies.
Let's take a look at the undergraduate Biomedical Engineering syllabus offered by the Yale School of Engineering & Applied Science:
Semester |
Subjects Covered |
1 |
Mathematics-I, Engineering Chemistry, Engineering Mechanics, Basic Electrical Engineering, Professional Communication |
2 |
Mathematics-II, Physics-I, Environment & Ecology, Elements of Electronics Engineering, Introduction to Programming |
3 |
Biomathematics & Biostatistics, Physics-II, Engineering Physiology & Anatomy, Circuit Theory & Networks, Analog Electronic Circuits |
4 |
Biomechanics, Biophysical Signals & Systems, Digital Electronics & Integrated Circuits, Object Oriented Programming using C++, Biomaterials |
5 |
Medical Molecular Biology, Bio-Fluid Mechanics, Basic Mathematics, Medical Aspects Of Electromagnetic Theory |
6 |
Embedded Systems In Medicine, Engineering And Biomaterials, Introduction To Bio-Telemetry And Analysis |
7 |
Advanced Biomedical Instrumentation, Biomedical Signal Processing, Medical Imaging Techniques |
8 |
Hospital Management and Clinical Engineering, Rehabilitation Engineering, Biomedical Ethics |
Also Read: Masters in Biomedical Engineering in USA
The Biomedical Engineering (BME) curriculum is a harmonious fusion of theoretical learning and practical exposure. This educational journey is marked by two significant pillars: practical training and laboratory work.
Practical training plunges students into real-life situations, offering a stage to utilise their knowledge, resolve issues, and make informed decisions. This immersive experience amplifies their grasp of theoretical concepts and nurtures vital skills like critical thinking, problem-solving and teamwork.
Laboratory work serves as the perfect complement, granting students the chance to experiment with a variety of technologies and apparatus used in Biomedical Engineering. It acts as a proving ground for validating the theories absorbed in the classroom.
The integration of these components into the Biomedical Engineering syllabus effectively forms a bridge between theory and practice. It guarantees that students acquire a thorough understanding of both the theoretical underpinnings and practical applications of Biomedical Engineering.Internships are a cornerstone of the Biomedical Engineering (BME) curriculum, acting as a portal for students to explore the diverse aspects of Biomedical Engineering, whether it's medical device design, biomaterials, or biomedical signal processing. These internships offer students an up-close encounter with the most recent technologies and methodologies in the field. But more than that, they provide a stage where students can apply the theoretical knowledge they've amassed in the classroom, tackling real-world problems head-on.
In India and abroad, Biomedical Engineering internships often involve working on research projects, developing medical devices or improving healthcare technologies. Additionally, students can collaborate with healthcare professionals, giving them a unique perspective on the practical applications of BME.
The Biomedical Engineering (BME) syllabus is a launchpad for students, gearing them up for their internships. It's packed with hands-on training and lab work, ensuring students are ready to hit the ground running. As they navigate through their BME journey, they master the basics. So, when it's time for internships, they're all set to make a real impact in their host organisations.The MS Biomedical Engineering syllabus in India is designed with a keen eye for detail, aiming to provide students with deep insights and practical research experience in specialised areas of Biomedical Engineering. It's a balanced blend of advanced coursework and research activities, setting the stage for students to step into leadership roles across various sectors such as industry, academia or government.
Semester |
Subjects Covered |
1 |
Advanced Mathematics, Biomedical Instrumentation, Medical Imaging Techniques, Biomechanics |
2 |
Biomedical Signal Processing, Biomaterials, Medical Aspects Of Electromagnetic Theory, Embedded Systems In Medicine |
3 |
Advanced Biomedical Instrumentation, Rehabilitation Engineering, Biomedical Ethics, Research Methodology |
4 |
Thesis/Project Work |
The International Biomedical Curriculum for a Master of Science (MS) degree offers a comprehensive and globally recognised education in Biomedical Engineering. It incorporates the latest international research, practices, and technological advancements. This curriculum equips students with the skills and knowledge to contribute to the global biomedical engineering community and to innovate in a rapidly evolving field.
Semester |
Subjects Covered |
1 |
Mathematics for Engineering, Programming, Mechanical Systems, Human Anatomy and Physiology, Biological Medical Science |
2 |
Medical Biophysics, Medical Instrumentation, Mechatronics, Mathematics and Physics of Biomedical Engineering, Basic Mechanics for Biomedical Engineering |
3 |
Bio-fluid Mechanics, Strength of Materials for Biomedical Engineering, Thermodynamics for Biomedical Engineering, Medical Aspects of Electromagnetic Theory, Medical Molecular Biology |
4 |
Physiology for Biomedical Engineering, Anatomy, Instrumental Biomolecular Analysis, Fundamental Biochemistry, Biomedical Imaging Technologies |
The field of Biomedical Engineering offers a variety of Biomedical Engineering Specialisations. These specialisations allow students to focus on specific areas of interest within the broad spectrum of biomedical engineering, enhancing their expertise and opening up diverse career opportunities.
Some of the popular Biomedical Specialisations in both India and Abroad:
The field of Biomedical Engineering presents a wealth of Biomedical Engineering Job Opportunities both in India and abroad. Opportunities in the field of Biomedical Engineering are vast and varied, cutting across sectors such as academia, industry and healthcare.
These roles capitalise on the distinctive intersection of medicine and engineering. As biomedical technologies continue to evolve at a rapid pace, there is a growing global demand for professionals who possess the requisite skills in this domain.
Biomedical Engineering Job Roles and Opportunities in India and Abroad:
BME Specialisation |
Job Role |
Salary in US$ |
Salary in INR |
Biomechanics |
Biomedical Engineer |
$60,000 - $85,000 |
₹44,00,000 - ₹62,00,000 |
Cellular and Tissue Engineering |
Tissue Engineer |
$70,000 - $90,000 |
₹51,00,000 - ₹66,00,000 |
Imaging |
Imaging Specialist |
$75,000 - $100,000 |
₹55,00,000 - ₹73,00,000 |
Medical Devices |
Medical Devices Engineer |
$65,000 - $88,000 |
₹48,00,000 - ₹64,00,000 |
Systems and Synthetic Biology |
Systems Biologist |
$70,000 - $95,000 |
₹51,00,000 - ₹69,00,000 |
The Biomedical Engineering syllabus, with its key courses and specialisations, provides a comprehensive foundation for students in India and abroad. It opens up a multitude of Biomedical Engineering job opportunities in various sectors. Thus, it's a promising field for those interested in the intersection of medicine and engineering, offering a pathway to a rewarding and impactful career.
If you're considering a career in Biomedical Engineering abroad, contact AECC today to explore your study options and take the first step towards your dream career!
Biomedical Engineering is a field that combines the design and problem-solving skills of engineering with medical and biological sciences to improve healthcare diagnosis, monitoring and therapy.
Key courses in Biomedical Engineering include Biomechanics, Cellular and Tissue Engineering, Imaging, Medical Devices and Systems and Synthetic Biology.
Biomedical Engineers can work in various roles such as Biomedical Engineer, Instrument Engineer, Installation Engineer, Maintenance Engineer, Manufacturing Engineer, Software Engineer, Physician, Quality Engineer and more.
Specialisations in Biomedical Engineering include Biomechanics, Cellular and Tissue Engineering, Imaging, Medical Devices, and Systems and Synthetic Biology.
The average salary for a Biomedical Engineer in India is approximately ₹3,55,878 per year.
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