M.E - Biomedical Engineering

Overview:

Biomedical Engineering is a discipline that serves as the link between the complexities of technology and medicine. Both these fields ? technology and medicine are relentlessly evolving thereby emphasizing the ever-increasing demand for biomedical engineering.  It is a multidisciplinary profession that entails a broad array of diagnostic and therapeutic applications which assists healthcare practitioners like doctors and physicians.

Biomedical Engineering or Bioengineering or BME as it also known is a stem field of Engineering which deals with Science, Technology, Engineering and Mathematics.  The course processes awareness towards the algorithm for the essential data of the biology and makes the graduates learn about the advanced lessons in biomedical analytical, the quantitative and electric fields for interpreting and processing the data through enhanced techniques.

A Master of Engineering (MEng) in Biomedical Engineering is a 2 year professional postgraduate degree that provides students with theoretical and practical skills to prepare them for careers in the biomedical industry.   It  is an advanced degree that combines engineering practices with a focus On Health Care, Biology and Medical applications.  Biomedical engineering involves learning how to create medical devices and equipment, such as prosthetics, safe polymers for the human body, medicinal tools and pharmaceuticals. Graduates with a biomedical engineering degree can pursue careers in multiple industries, including health research, manufacturing, and medical software development.

The program typically includes core engineering units, biomedical engineering specialist units, and a capstone project or dissertation.  Students may also take elective units.  The program covers all the aspects involved in Biomedical Engineering starting from molecular biology, body physiology, system level biology and mathematics.

The idea behind this branching stream is to use engineering principles to advance medicine. The aim is to provide better healthcare services to the people. Biomedical engineering scope has tremendously increased in the past decade. As people are growing more aware of medical advancements, they are opting for biomedical care.

Biomedical engineers use engineering principles to develop technologies and solutions in healthcare-related fields, such as medical devices, drug delivery systems, and medical imaging. They can also specialize in areas like biomaterials, biomechanics, or bioinformatics.

Some Highlights of M.E Biomedical Engineering:

Top Colleges offering  M.E - Biomedical Engineering in India

IIT Kanpur

COEP

IIT Hyderabad

IIT Bombay

Manipal University, Manipal

BMSCE, Bangalore

NIT Allahabad

SRM University, Kanchipuram

VIT Vellore

Why study M.E Biomedial Engineering?

If you're interested in using technology to improve the physical well-being of others, you may pursue a degree in biomedical engineering. Getting a master's degree in this field can help you find a career in the health care industry to research, develop and operate medical technologies. By learning fundamental information about this advanced degree and some potential careers in the field, you can decide whether it's the right career path.

As a biomedical engineer, you will research, design, and develop medical products and modify equipment used hospitals and the community. You can make a difference in the quality of life and lifespan of individuals across the world, and this reason alone creates immense career satisfaction.

Biomedical engineering experts are employed by pharmaceutical companies and government agencies to create tools that benefit doctors and patients. According to a study, employment rates for biomedical engineers are projected to rise by 10% between 2023 and 2035, compared to other engineering specialties.

Scope of Biomedical Engineering in India:

It is a booming subject with various opportunities in management, laboratory work, education, research and consultancy. One can work in the private sector or numerous national healthcare laboratories.

How is Biomedical Engineering Different?

Biomedical engineers differ from other engineering disciplines that have an influence on human health in that biomedical engineers use and apply an intimate knowledge of modern biological principles in their engineering design process.

Admission Procedure for M.E Biomedical Engineering:

First research and choose reputable institutes in India offering Biomedical Engineering programs. Moreover, given below is the general admission procedure for Biomedical Engineering admissions, which can vary slightly depending on universities and course levels:

·         Eligibility Criteria Check: Ensure you meet the eligibility requirements such as educational qualifications, minimum percentage, and entrance exam scores.

·         Appear for Entrance Exams: Take relevant entrance exams like JEE Main, BITSAT, or state-level engineering entrance exams.

·         Score Reporting: Obtain and keep your entrance exam scores ready for the admission process.

·         Application Form Submission: Fill out application forms for the chosen institutes, providing accurate details and required documents.

·         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 Allotment: Accept the seat allotted in the counseling process, paying any required fees.

·         Fee Payment: Complete the payment of tuition and other fees within the specified timeframe.

·         Admission Confirmation: Confirm your admission by submitting all necessary documents and completing any additional formalities.

Eligibility Criteria for M.E Biomedical Engineering

One should have a Bachelor’s degree with a minimum of 50% marks for being capable of taking admission in the M.E Biomedical Engineering course. There are some premium colleges that take admission with 60% marks. Few entrance exams are also there for the students such as GATE, IPU CET, BHU PET, and TANCET. There is no age limit for this course.

Entrance Exams for M.E Biomedical Engineering
Entrance exams are the basic test process to check the capability of the students who want to take admission in the respective course. There are many entrance exams that are conducted from time to time as per the academic session. Students can also find out the exact M.Tech Biomedical Engineering course details by researching online.


GATE
IPU CET
BHU PET
TANCET

Career Opportunity

M.E Biomedical Engineering job opportunities are available to students at ease. A student can easily map their M.E Biomedical Engineering course as per his or her future aspirations with options ranging from Business Development Coordinator, Consumer Insight Analyst, etc. IT Manager jobs are the primary areas of employment for graduates of the course.

The M.E Biomedical Engineering scope of work for a graduate is comprehensive and varies over a large number of working areas and sectors. Listed below are some of the popular jobs that are undertaken by graduates:

ME Biomedical Engineering Employment Areas

Diagnostic Centres
Hospitals
Maintenance or Sales
Manufacturing Units
Marketing Departments
Quality Control and Testing Centres
Research and Development Centres

ME Biomedical Engineering Job Types

Biomedical Engineer
Colleges & Universities
Clinical Research Engineer
Design Assurance Engineer
Regulatory Compliance Analyst
Support Specialist
Support Technician
Technical Assistant

Syllabus 

Semester-1

Anatomy and Physiology
Applied Mathematics for Electronics Engineers
Biomedical Sensors & Instrumentation
Diagnostic & Therapeutic Equipment
Medical Imaging Systems
Practical
Clinical Instrumentation Lab

Semester- 2

Bio-Mechanics
Rehabilitation Engineering
Elective-I
Advanced Neural Computing
Bio-MEMS
Finance Management in Hospital
Elective-II
Biomaterials
Computer-Based Medical Instrumentation
Finite Element Analysis
Physics in Medicine
Elective-III
Bio-Statistics
Health Informatics
Hospital Architecture
TeleHealth Technology
Practical
Hospital Information System Lab

Semester-3

Elective-IV
Hospital Waste Management
Hospital Planning, Organization & Management
Signal Processing & Image Processing Techniques Applied to Biological Systems
Elective-V
Health Policy and Equipment Management
Physiological Modelling
Tissue Engineering
Elective-VI
Human Resource Management in Hospital
Principles of Genetic Analysis
Quality Assurance & Safety in Hospitals
Practical
Project Work (phase I) Summer Training Prerequisite

Semester-4

Project Work (Phase II)