If you want to become a biomedical engineer, you have to do your Bachelor of Engineering (BE) in Biomedical Engineering offered at select institutes. Otherwise, you can do your BE in any of the branches like electrical Engineering offered at select institutes. Otherwise, you can do your BE in any of the branches like Electrical Engineering, Mechanical Engineering, Computer Engineering, Electronics Engineering or Chemical Engineering and a postgraduate course in Biomedical Engineering. Alternately, you can do your BE in any of the Engineering branches and go for a postgraduate course in Medical Technology, which is considered equivalent to a postgraduate course in Biomedical Engineering. You can also complete an MBBS degree and then opt for a postgraduate degree in Biomedical Engineering/ Medical Engineering/ Medical Technology.

Biomedical engineers develop innovative biologics, processes, materials, devices and informatics to prevent, diagnose and treat diseases for patient's rehabilitation. Many of the biomedical engineers do research work along with professionals from life sciences, chemists, and medical scientists. The devices like artificial organs, prostheses (artificial devices to replace missing body parts), medical information systems, instrumentation, health management and care delivery systems, etc., are the contributions of the biomedical engineers. Thus, the engineers in this specialized field need to have a sound grounding in a basic engineering field like mechanical or electronics together with biomedical field. Here, the specialists are also concerned with developing imaging systems such as magnetic resonance, ultrasound and x- ray machines, and techniques and devices to automate insulin injections or control body functions.

Biomedical engineers find employment with companies that manufacture equipment used in hospitals and diagnostic centers or centers for research and development, manufacturing, quality control and testing as also installation, maintenance or sales and marketing departments. They can also get jobs with large hospitals for selecting, handling and maintaining sophisticated equipments in addition to building customized devices for special needs or work in institutions involved in research. There are a few government agencies where you can get recruited for product testing, safety and establishment safety standards for devices.

Employment opportunities for biomedical engineers are immense biomedical engineers are immense considering the fact that the aging of the population and focus on health issues will increase the demand for better medical devices and equipment designed by biomedical engineers. Other developments, like computer- assisted surgery and heavy research in molecular, cellular and tissue engineering will also increase the demand for biomedical engineers. Further, the rehabilitation and orthopedic engineering fields are growing at a very fast pace, which also require the services of biomedical engineers.

uneration for biomedical engineering professionals is quite decent. In medical equipment manufacturing companies, you can get anything between Rs.20,000 and Rs. 30,000 per month. In research and teaching institutions salaries vary between Rs.18,000-25,000 per month. Private hospitals and clinics pay between Rs.15,000 and Rs.25,000 per month. In case of government agencies, the remuneration per month is in the range of Rs.16,000 to Rs.22,000 per month.

se days, Biomedical Engineering along with Biotechnology and Bioinformatics has emerged as one of the hottest careers. In addition, the opening of the insurance sector has made high-quality medical care possible for millions in the country now. Healthcare is also witnessing a lot of technological growth. Taking these developments into account, one can very safely say that in near future, the biomedical engineers will be among the most sought-after professionals in public sector enterprises as well as corporate establishments. If you really enjoy research work and are deeply interested in developing cutting edge technologies, then you should pursue a postgraduate course abroad.

Speciality Areas:
There are many areas of specialization in the emerging field of Biomedical Engineering. Some of them are given below:

Engineering with its various branches like mechanical, electrical, civil, electronics, etc., has been popular among students for quite a long time. However, in the recent times Biomedical Engineering has gained currency among the student community. Biomedical Engineering combines the thorough knowledge of the principles of both medicine and engineering . The biomedical engineers apply the concepts of biology, physics as well as chemistry to develop products and devices for diagnosis and treatment. The branch integrates physical, chemical, mathematical and computational sciences and engineering principles to study biology, medicine, behaviour and health. So the biomedical engineers have to work closely in association with healthcare professionals like doctors, nurses, therapists and technicians.

Speciality Areas: There are many areas of specialization in the emerging field of Biomedical Engineering. Some of them are given below:

Bioinstrumentation This area specializes in the application of electronics and measurement techniques to develop devices for diagnosis and treatment of diseases. Specialists in this branch make newer and better instruments for rays and MRI, etc. as also cameras and other devices to help medical practitioners get a better look at the body.

Biomaterials
It relates to producing materials from both living tissues that artificial materials to replace diseased organs. The engineers make devices are functionally true copies of the organs which are to be replaced. They are capable of growing organs from tissues and cells in the laboratory.

Tissue Engineering Nowadays, tissue substitutes are being developed to restore or improve the functions to restore or improve the functions of diseases or damaged human tissues. To give one example, cells from an individual's healthy kidney are used and put in the diseased kidney to grow healthy tissue.

Biomechanics This involves application of mechanics to biological or medical problems and study the flow of bodily fluids in order to decide the specifications for the various devices such as artifical joint replacements, pacemakers, etc.

Clinical Engineering Biomedical engineers also develop and maintain computer database of medical instruments and equipment record in hospitals.

Orthopedic Bioengineering Here, engineering is used to understand the function of bones, joints and muscles and for the design of artificial joint replacements. They analyse the friction, lubrication, and wear and tear of natural joints to develop artificial limbs. Further, they also research new technologies and materials that make up bones, joints and tooth implants which are almost as good as nature's version. One of their latest responsibilities include developing and looking after fully programmed robots for use in operating rooms for reaching vital organs that may get damaged permanently, due to human error.

Navigation Systems In this specialized branch, biomedical engineers use software tools and specialized imaging equipment to create a digital picture of the insides of a human patient's body. This helps the surgeons in determining the best possible way to of about an operation. They help in developing new laser technologies for applications in routine and specialized operations, dental surgery and slimrelated disorders. The biomedical engineers also help in enhancing the capabilities and improvement in the quality of life for individuals with physical impairments. Besides, they are involved in development of homes and workplaces in such a way so as to make such people's lives easier.

Rehabilitation Engineering Rehabilitation engineering develops devices and procedures to expand the capabilities of disabled people and so improve the quality o their lives. Rehabilitation engineers design various Products that can be adapted to particular needs. For example, a seating Support that can be moulded to conform to any body shaped enables many disabled people to sit upright. However, rehabilitation engineers often develop products for a specific disabled individual.

Biomedical Engineering Qualifications If you want to becomes a biomedical engineer, you have to do your Bachelor of Engineering (BE) in Biomedical Engineering offered at select institutes. Otherwise, you can do your BE in any of the branches like Electrical Engineering, Mechanical Engineering , Computer Engineering, Electronic Engineering or Chemical Engineering and a postgraduate course in Biomedical Engineering. Alternately, you can do your BE in any of the Engineering branches and go for a postgraduate course in Medical Technology, which is considered equivalent to a postgraduate course in Biomedical Engineering. You can also complete an MBBS degree and then opt for a postgraduate degree in Biomedical Engineering / Medical Technology.

Biomedical engineers develop innovative biologics, Processes, materials, devices and informatics to prevent, diagnose and treat diseases for patient's rehabilitation. Many of the biomedical engineers so research work along with professionals from life sciences, chemists and medical scientists. The devices like artificial organs, prostheses (artificial devices to replace missing body parts), medical information systems, instrumenta-tion, health management and care delivery systems, etc., are the contributions of the biomedical engineers. Thus, the engineers in this specialised field need to have a sound background in a basic engineering field like mechanical or electronics together with biomedical field. Here, the specialists are also concerned with developing imaging systems such as magnetic resonance, ultrasound and X-ray machines, and techniques and devices to automate insulin injections or control body functions.

Biomedical Engineering Career Prospects
The kinds of institutions that employ biomedical engineers include medical research institutions, government regulatory agencies, hospitals, industrial firms and teaching institutions. Biomedical engineers often use their background in engineering and medicine to perform a coordinating role.

Biomedical engineers find employment with companies that manufacture equipment used in hospitals and diagnostic centres or centres for research and development, manufacturing, quality control and testing as also installation, maintenance or sales and marketing departments. They can also get jobs with large hospitals for selecting, handing and maintaining sophisticated equipments in addition to building customised devices for special needs or work in institutions involved in research. There are a few government agencies where you can get recruited for product testing, safety and establishing safety standards for devices.

Employment opportunities for biomedical engineers are immense considering the fact the aging of the population and focus on health issues will increase the demand for better medical devices and equipment designed by biomedical engineers. Other developments, like computer-assisted surgery and heavy research in molecular, cellular and tissue engineering will also increase the demand for biomedical engineers. Further, the rehabilitation and orthopedic engineering fields are growing at a very fast pace, which also require the services of biomedical engineers.

In research institutions, biomedical engineers supervise laboratories and equipment. They also participate in research with investigators of other background. Government positions often involve product testing and safety, as well as establishing safety standards for devices. In hospitals, biomedical engineers provide advice on selecting and using medical equipment, as also supervise equipment testing and maintenance. They may also develop customised devices for special healthcare or research needs. In industry, biomedical engineers use their understanding of living systems and technology to design and test new products.

Remuneration: Remuneration for Biomedical Engineering professionals is quite decent. In medical equipment manufacturing companies, you can get anything between Rs.20,000 and Rs.30,000 per month. In research and teaching institutions salaries vary between Rs.18,000 and Rs.25,000 per month. Private hospitals and clinics pay between Rs.15,000 and Rs.25,000 per month. In case of government agencies, the remuneration per month is in the range of Rs.16,000 to Rs.22,000 per month.

These days, Biomedical Engineering along with Biotechnology and Bioinformatics has emerged as one of the hottest careers. In addition, the opening of the insurance sector has made high-quality medical care possible for millions in the country now. Healthcare is also witnessing a lot of technological growth. Taking these developments into account, it can be very safely said that in near future, the biomedical engineers will be among the most sought-after professional in public sector enterprises as well as corporate establishments. If you really enjoy research work as corporate establishments. If you really enjoy research work and are deeply interested in developing cutting edge technologies, then you should pursue a postgraduate course abroad.

Institutions & Courses
BIOMEDICAL ENGINEERING - Where to Study - Institution in India

• All India Institute of Medical Sciences New Delhi
  Website:www.aiims.ac.in
• Dr. B.R. Ambedkar Centre of Biomedical Research
  University of Delhi New Delhi-110007 Tel: 011-27667151, 27666259
  Website:www.du.ca.in
• Indian Institute of Technology, Bombay
  Biomedical Engineering Powai, Mumbai - 400 076, Maharashtra Tel: 022-25722545 Fax: 022-25723480
  Website: www.iitb.ac.inwww.iitb.ac.in
• Indian Institute of Technology, Kharagpur
  Kharagpur- 721302, West Bengal Tel: 03222-255221 Fax: 03222-255303
  Website: www.iitkgp.ac.inwww.iitkgp.ac.in
• Banaras Hindu University Institute of Technology
  Varanasi-221005, Uttar Pradesh
  Website: www.itbhu.ac.in
• Anna University
  Chennai-600025, Tamil Nadu
• Avinashilingam Institute for Home Science and Higher Education for Women
  Coimbatore-641043, Tamil Nadu
• Osmania University Biomedical Instrumentation Centre,
  Department of Biomedical Engineering University College of Engineering Hyderabad-500007, Andhra Pradesh Tel: 040-7090083
  Website: www.bmeosmania.ac.in
• Jadavpur University
  Jupiter Building, Raja Subodh Chandra Mullick Road, Kolkata-700032 West Bengal Tel.: 033-24146129
  E-mail: samar.bthattacharya@debesh.wb.nic.in
• Dwarkadas J. Sanghvi College of Engineering
  Mumbai-400056, Maharashtra
• College of Engineering and Technology
  Belgaum-590008, Karnataka
• Gujarat University
  Ahmedabad-380009, Gujarat
• Manipal Institute of Technology
  Manipal-576119, Karnataka
• Model Engineering College
  Ernakulam-682021 Kerala