BME-BioMed

Biomedical Engineering or BioMed or Biological engineering uses engineering techniques and biological principles to develop tools to sustain life-changing Models. Engineering has spread its wing in a lot of innovative fields, Biotech is a few puffs of feather in the wing which focuses on the advances of the medicine in human healthcare .This field seeks to close the gap between Engineering and medicine, combining the design and problem-solving skills of engineering with medical biological sciences to advance health treatment. 

DOMAINS IN BME:

1. BIOINFORMATICS
2. BIOMECHANICS
3. BIOMATERIAL
4. BIOMEDICAL OPTICS
5. TISSUE ENGINEERING
6. NEUTRAL ENGINEERING
7. GENETIC ENGINEERING
8. CLINICAL ENGINEERING
9. REHABILITATION ENGINEERING
10. PHARMACEUTICAL ENGINEERING

 The branches of BME goes still,

Top areas of Biomedical research are as following

1. Neuroscience
2. Neuroimaging
3. Stem cells and Tissue Engineering
4. Bio-sensing and wearable Biomedical technology
5. Healthcare big data analysis
6. Physiological modelling and simulations
7. Biomechanics and Rehabilitation Engineering
8. Infectious disease and drug development
9. Biomedical image and signal analysis
10. Telemedicine

The above addressed branches are leading as the top research field in Bio-medical Engineering .If you want to build a career in BME after UG you can choose the above fields.

What Types of Jobs Can I Get In Biomedical Engineering?

Biomedical engineering is one of the hottest fields right now, and the types of jobs in biomedical engineering pay some of the highest starting salaries you can currently get. Being a fusion of healthcare and engineering, the two areas of study that are consistently praised for offering the best job prospects for students, biomedical engineering involves applying engineering principles to create solutions for healthcare and usually deals with the design and development of medical products, according to the Bureau of Laboratory.

Bioinstrumentation

Bioinstrumentation involves designing and developing tools and equipment that are used to diagnose and treat diseases. Most of these technologies are advanced electronic devices that function cooperatively with a computer.

Biomaterials

Biomaterials professionals are tasked with designing and developing materials that are suitable for use within the human body. These implant materials must be completely safe for patients, and that means the absence of carcinogenic properties and toxins. Implant materials also need to be structurally sound so that they can last a lifetime and chemically stable and inert. Some biomaterials make use of living cells for better assimilation into body.

Biomechanics

This sub-field deals with the body's movements. Engineers who specialize in biomechanics focus on designing and developing products that aid with motion within the body. Artificial heart valves and joint replacements are examples of biomedical products that assist with the flow of blood and motor functions, respectively.

Cellular, Tissue, and Genetic Engineering

Biomedical professionals who specialize in this area work on the microscopic level to find solutions for bigger problems. Concentrating on cellular activity makes it easier to understand the progression of diseases and develop ways to remedy or halt them before it's too late.

                                             If you wanna further study do MS l would suggest not to do a MS degree in India. We all know that the US is by far the most dominant player in the bio-technology and bio-medical field in terms of research and innovation. Hence you need to think about the investment you make .After all a Master's degree is the foundation stone for your immediate goal-getting a job ( or a PhD) and long-term career.

" Engineering has spread its wing in a lot of innovative fields, Biotech is a few puffs of feather in the wing which focuses on the advances of the medicine in human healthcare"