About Course
Ph.D. (Biomedical Engineering) Courses, Eligibility, Admissions, Syllabus, Career Options, Frequently asked Questions.
Overview and About the Course:
The goal of the STEM topic of biomedical engineering, a branch of engineering and technology, is to enhance human health and healthcare systems via creative use of technology. To address our current medical requirements, biomedical engineering blends engineering with biology, leading to the development of ground-breaking products including artificial organs, surgical robots, prostheses, novel medications, and more.
Degrees in biomedical engineering are multidisciplinary, requiring the same quantitative, analytical, and conceptual understanding from adjacent disciplines including anatomy, nuclear engineering, electronics, Materials Science, and even computer science. Orthopaedic implants, medical imaging, stem cell engineering, physiological signal processing, and other topics are some of the sub disciplines that Bio & Biomedical Engineering covers.
The National Science Foundation and the National Institutes of Health both support research programmes including the doctor of philosophy in biomedical engineering that are well-known both domestically and abroad. A number of positions in the public and commercial sectors are open to graduates of the doctor of philosophy in biomedical engineering degree.
Candidates with a PhD in biomedical engineering can find employment as analytical chemists, toxicologists, healthcare scientists, and more in a range of fields, including pharmaceutical firms, commercial labs, and healthcare organisations.
• The PhD programme provides coursework in mathematics, systems-level biology or biology at the molecular level, and tissue engineering.
• In biomedical engineering, issues in biology and medicine are defined and solved using engineering methods and concepts.
• Applicants for this programme provide their expertise in engineering, biology, and medicine to the medical equipment and healthcare sectors.
• Candidates may choose biomedical engineering in order to benefit people, take on the challenge of working with living systems, or solve issues with health care delivery using cutting-edge technology.
• Careers in biomedical engineering can be found in a variety of environments, including industry, healthcare, academia, private laboratories, and government.
A PhD in Biomedical Engineering, also known as a Doctor of Philosophy in Biomedical Engineering, is a doctorate programme in biomedical engineering that lasts three years but can be extended to five. Studying Tissue Engineering, Molecular or Systems-Level Biology/Physiology, and Mathematics are all required courses for the Biomedical Engineering degree.
The surveillance, treatment, and prevention of a number of medical disorders, such as cardiovascular disease, osteoporosis, spinal cord injuries, and tumour growth, are among the conditions that students can learn about while taking this course.
Candidates of a PhD in biomedical engineering can find employment in a variety of fields, including drug industrial companies, commercial laboratories, hospital entities, etc., as medicinal chemists, pharmacologists, healthcare scientists, etc.
For a three-year programme, the typical tuition for a PhD in biomedical engineering programme at Indian schools ranges from INR 25,000 to INR 3,00,000.
An average income of INR 3 lakhs to 8 lakhs per annum is given to those with a PhD in biomedical engineering.
Course Highlight of Ph.D. in Biomedical Engineering:
Full name of the course |
Doctor of Philosophy in Biomedical Engineering |
Duration of the course |
3 to 5 years |
Type of the Degree |
Doctorate |
Eligibility Criteria |
55% on a master's degree from the recognised university or college |
Examination Mode |
Semester Based |
Admission Process |
Entranced Based |
Average Course Fee |
INR 25,000 to 3,00,000 |
Recruiting Areas |
Healthcare institutions, academic institutions, environmental pollution prevention, pharmaceutical companies, hospitals, blood banks, industrial laboratories, cancer research institutes, research departments, agriculture and forestry, forensic science, public health laboratories, and cosmetics companies are a few examples. |
Top Recruiters Companies |
Biomedics, Medex India Ltd, Ranbaxy Diagnostics, Nexus Health Systems, Claris Lifesciences Ltd, Wipro Biomedical, BPL Healthcare, Instromedix Pvt. Ltd, EMCO Medical Pvt. Ltd, etc. |
Job Profiles |
Medical scientists, researchers in the life sciences, physiological scientists, analytic chemists, clinical research associates, forensic scientists, clinician associates, professional laboratory technicians, pharmacologists, etc. |
Average Annual Salary |
INR 3 lakhs to 8 lakhs |
Why to do Ph.D. in Biomedical Engineering:
Each person will have different aims and goals, and they will determine whether they pursue a PhD in biomedical engineering. The following are some justifications for enrolling in this course.
· PhD holders may be able to examine challenging life sciences-related problems and develop future solutions.
· Students who successfully complete this degree may expect to earn an annual pay package that ranges from INR 3 lakhs to 8 lakhs per annum.
· They will be able to develop new tools, methods, and implementations that offer answers to increasingly challenging medical and health-related challenges if they have solid knowledge in electrical, mechanical, and materials engineering as well as platforms from the life sciences.
· In a wide range of fields, biomedical engineering is crucial. These professionals can include other scientists, engineers, members of the marketing and sales teams, lawyers, and anyone else in between.
· With an emphasis on clinical and commercial applications, it promotes a mix of biomedical engineering and life science studies. Graduates are equipped to lead their fields, particularly in the medical device sector, and to establish a professional network in the neighbourhood.
Eligibility Criteria Required for the course, Ph.D. in Biomedical Engineering:
Applicants must meet the following requirements in order to be deemed eligible for admission to this programme in the field of PhD biomedical engineering:
· Students must have earned a minimum of 55% on their B.E. and M.E./M. Tech. exams.
· Applicants must be in possession of a Master's in Biomedical Engineering from an accredited institution.
Skills for the course, Ph.D. in Biomedical Engineering:
PhD holders in Biomedical Engineering require both hard and soft abilities to be successful in their careers. These abilities might not always be teachable within the confines of the educational system. The only way to perfect these skills is via practise. Thus, students should take advantage of any opportunity to broaden their horizons and learn new things. Among the few of these skills are:
· Observation Techniques
· Progress Tracking
· Thinking Techniques
· Skills in Communication
· Skills for Dealing Pressure
· Instructing Human Development
· Guide Wisely
· Hard Working
Admission Process for the course, Ph.D. in Biomedical Engineering:
The majority of universities and institutions that offer PhD Biomedical Engineering programmes admit students depending on how well they did on their Master's degree exams. However, some universities do provide admission exams to evaluate a candidate's aptitude and skill sets.
· First of all, candidate have to apply in the institute for the course he wanted to do.
· A student must perform well in the GATE, and AP EAMCET etc. admission exams held by the relevant Universities in order to pursue a Ph.D. in Biomedical Engineering. Additionally, students must do well in the round of personal interviews.
· After the examination result candidate have to go through to the interview round or in a group discussion.
· After the interview process the next step in counselling or enrolment in the college.
· For enrolment student have submit required documents as per the college guidelines or requirements.
Admission Based on Entrance Exam for Ph.D. in Biomedical Engineering:
The following are the entrance-based admission requirements for a PhD in Biomedical Engineering:
· To successfully register, candidates must submit an application through the entrance examination organization's official website.
· The authorities will announce the examination date, and applicants must appear for the test.
· The applicants need to achieve a good grade or CGPA in the relevant exams in order to be accepted to the PhD in Biomedical Engineering programme.
· The authorities will present a merit list of the chosen applicants and assign the pupils the necessary college seats.
· In order to be admitted, the candidates must pass additional rounds of personal interviews.
Tips to get Admission in the college for the course, Ph.D. in Biomedical Engineering:
Obtaining entrance to a reputable college is crucial for a higher education research programme like a PhD in Biomedical Engineering. Here are a few key ideas to remember when you seek admission to a reputable university.
· If you are fervently interested in applying for a PhD in Biomedical Engineering, you must achieve a respectable grade in your Post Graduate level of study.
· If you are getting ready to take an entrance exam, you must also get a high CGPA on that exam to be admitted to a reputable PhD in Biomedical Engineering College.
· Please investigate the prospective college before making any plans to attend any college or institution.
· Ensure that university offers the ideal curriculum and adequate facilities to train you to master a PhD in Biomedical Engineering.
Entrance exams for the course, Ph.D. in Biomedical Engineering:
To get admitted to the PhD Biomedical Engineering programme, candidates must take a variety of entrance tests at the national and state levels. PhD programmes in biomedical engineering are available at universities like IITs and NITs, and applicants must take the GATE test.
Some of these well-liked PhD biomedical engineering admission tests are listed below.
GATE:
The Indian Institute of Science and the IITs jointly administer this national test to choose students for PhD posts or lectureships at Indian institutions and colleges.
AP EAMCET:
The state-level admission test is called AP EAMCET. For entry into a variety of programmes, including the PhD Biomedical Engineering programme, the test is administered.
Tips to prepare the entrance exam for the course, Ph.D. in Biomedical Engineering:
The following information can aid applicants in getting ready for the entrance exam.
· First of all, Create a schedule for your study time. You will be able to concentrate on each subject and give each topic equal time.
· Go through the exam's syllabus in detail. Instead of studying a completely unrelated subject, it will assist you in focusing on key themes.
· Examine the question papers from the prior year to have a better grasp of the admission tests. There are several books for entrance exams that include previous year's test questions and the solutions.
· It's crucial to comprehend the fundamentals of the subjects rather than memorising the answers. You may use it to help you answer challenging queries.
· Every admission test consists of MCQs with a single right response. Additionally, there is a failing grade.
· It's crucial to only answer questions you are certain of. Considering that there is a negative marking, speculation is to be avoided.
Top Colleges for the course, Ph.D. in Biomedical Engineering:
Check out the list of the top 10 colleges with their location for the course, Ph.D. in Biomedical Engineering.
Rank |
College name |
College location |
1 |
IIT Delhi |
New Delhi |
2 |
IIT Hyderabad |
Hyderabad |
3 |
IIT BHU |
Varanasi |
4 |
IIT Ropar |
Rupnagar |
5 |
NIT Kurukshetra |
Kurukshetra |
6 |
North-Eastern Hill University |
Shillong |
7 |
NIT Raipur |
Raipur |
8 |
PSG College of Technology |
Coimbatore |
9 |
Vinayaka Missions University, Salem |
Salem, Tamil Nadu |
10 |
Manipal Academy of Higher Education |
Manipal |
Syllabus for the course, Ph.D. in Biomedical Engineering:
The PhD in Biomedical Engineering programme syllabus varies from university to university, however it generally comprises of certain basic foundation courses that students can choose from according to their interests.
• Biomechanics
• Signal Processing
• Computer Graphics
• Design of Algorithms and Data Structures
• Subjects of Study
• Biomedical Instrumentation
• Image Processing
• Biomedical Imaging Systems
Job Prospects and Career after doing the course, Ph.D. in Biomedical Engineering:
After earning a degree in this area, a candidate has a wide range of employment options. They will find it simple to get employment in the public sector, the commercial sector, and several other industries. Additionally, they have the option of working as a professor or lecturer at colleges or universities.
PhD candidates in biomedical engineering are looking for jobs in the public and commercial sectors as consultants, professors, and research and development engineers in fields including bioinstrumentation, biomaterials, biomechanics, tissue engineering, and recovery and recycling.
PhD biomedical engineers can work in academia, as well as in senior research and development roles in business and other organisations.
PhD graduates in biomedical engineering may find employment as pharmacologists, forensic scientists, healthcare scientists, research scientists in the life sciences, analytical chemists, clinical biomedical engineers, and research associates in the clinical setting.
Job Profiles after doing the course, Ph.D. in Biomedical Engineering:
Biotechnologist:
To determine the amounts of compounds present or to learn more about chemicals, these experts evaluate samples from diverse sources.
Chemist:
They contribute to the creation of goods including medicines, synthetic textiles, and cosmetics. Chemists can develop and enhance procedures and items including pharmaceuticals, electronics, and cosmetics.
Representative of the Pharmaceutical Industry:
They discovered how to use their interpersonal skills along with their understanding of medical treatments and pharmaceuticals to increase sales for pharmaceutical corporations. In order to promote a product or service, they travel to hospitals, healthcare institutions, and pharmacies and arrange appointments with physicians and medical personnel.
Scientific Clinical:
Clinical scientists strive to increase our understanding of biomedical research, medicine, and the mechanisms that power and sustain living things. They are regarded as medical scientists who work in clinics, hospitals, labs, research institutions, universities, and institutes.
Studying scientist:
They often work in just about every field of science there is. They organise and carry out research projects and experiments in a variety of fields, such as geomatics, pharmacological, climatology, and medical research.
Benefits after doing the course, Ph.D. in Biomedical Engineering:
Every person's aims and objectives will determine whether they pursue a PhD in biomedical engineering. Here are a few justifications for enrolling in this course.
In order to meet these issues, bioengineers are involved in the design and creation of devices including cardiac pacemakers, defibrillators, artificial kidneys, blood oxygenators, prosthetic hearts, and joints.
• By integrating their knowledge of electrical, mechanical, and materials engineering with platforms from the life sciences, students will be able to develop novel methods, systems, and applications that offer solutions to more difficult medical and health-related issues.
• Students are well-equipped to lead their industries, notably the one of medical devices, and to give back to the neighbourhood by creating a network of experts.
• PhD graduates could be able to analyse complex problems in the biological sciences and provide new solutions. It strikes a balance between biomedical engineering and life science research while concentrating on clinical and commercial applications.
• Participants may anticipate making, on average, between INR 4,00,000 and INR 11,00,000 per year after finishing this degree.
• Designing tools, systems, and algorithms, synthesising information from multiple technological sources to create new processes, and doing research to address clinical issues are all valuable applications of biomedical engineering.
• Applications for biomedical engineering are numerous. These experts include, but are not limited to, other scientists, engineers, marketing and sales teams, lawyers, and everyone in between.
Scope after doing the course, Ph.D. in Biomedical Engineering:
The highest educational degree one may obtain in the nation is a PhD, which is a doctoral level degree. After earning a PhD in biomedicine, most people don't continue their education.
• Professionals work in a variety of settings, including hospitals, manufacturing facilities for medical equipment, industrial companies, academic and medical institutions, pharmaceutical companies, and government regulatory bodies.
• Graduating students are promptly employed in high-paying job profiles and have high employability rates. Knowing this opens up endless possibilities for learning and knowledge.
• After completing this degree, they are employed as teachers at colleges or universities, and they must pass the UGC-NET test in order to be hired as permanent lecturers.
• Biomedical engineers can work for the National Aeronautics and Space Administration and the National Institutes of Health after having sufficient expertise in the relevant industry.
• As soon as you complete your PhD, you will be eligible to teach at UGC-scaled institutions and universities as well as for lecturer positions in biomedicine.
Question. Which universities provide the best PhD programmes in biomedical engineering?
Answer. IIT New Delhi, IIT Hyderabad, IIT BHU, Manipal Academy of Higher Education, IIT Ropar, NIT Raipur, and many more premier institutions and universities that offer PhD programmes in biomedical engineering.
Question. Which career profiles are open to those with a PhD in biomedical engineering?
Answer. Biomedical scientists, healthcare scientists, research scientists (life sciences), analytical chemists, clinical biomedical engineers, clinical research associates, forensic scientists, physician associates, scientific laboratory technicians, toxicologists, etc. are all careers that PhD biomedical engineering students can pursue.
Question. What is a PhD in Biomedical Engineering good for?
Answer. Candidates can find work in government regulatory agencies, drug makers, hospitals, industrial companies, educational and health institutes, and other industries.
Question. What qualifications must one meet in order to be admitted to a PhD programme in biomedical engineering?
Answer: Applicants must meet the following requirements in order to be deemed eligible for admission to this programme in the field of PhD biomedical engineering:
Doctorate in Biomedical Engineering
Overview and About the Course:
The goal of the STEM topic of biomedical engineering, a branch of engineering and technology, is to enhance human health and healthcare systems via creative use of technology. To address our current medical requirements, biomedical engineering blends engineering with biology, leading to the development of ground-breaking products including artificial organs, surgical robots, prostheses, novel medications, and more.
Degrees in biomedical engineering are multidisciplinary, requiring the same quantitative, analytical, and conceptual understanding from adjacent disciplines including anatomy, nuclear engineering, electronics, Materials Science, and even computer science. Orthopaedic implants, medical imaging, stem cell engineering, physiological signal processing, and other topics are some of the sub disciplines that Bio & Biomedical Engineering covers.
The National Science Foundation and the National Institutes of Health both support research programmes including the doctor of philosophy in biomedical engineering that are well-known both domestically and abroad. A number of positions in the public and commercial sectors are open to graduates of the doctor of philosophy in biomedical engineering degree.
Candidates with a PhD in biomedical engineering can find employment as analytical chemists, toxicologists, healthcare scientists, and more in a range of fields, including pharmaceutical firms, commercial labs, and healthcare organisations.
-
The PhD programme provides coursework in mathematics, systems-level biology or biology at the molecular level, and tissue engineering.
-
In biomedical engineering, issues in biology and medicine are defined and solved using engineering methods and concepts.
-
Applicants for this programme provide their expertise in engineering, biology, and medicine to the medical equipment and healthcare sectors.
-
Candidates may choose biomedical engineering in order to benefit people, take on the challenge of working with living systems, or solve issues with health care delivery using cutting-edge technology.
-
Careers in biomedical engineering can be found in a variety of environments, including industry, healthcare, academia, private laboratories, and government.
A PhD in Biomedical Engineering, also known as a Doctor of Philosophy in Biomedical Engineering, is a doctorate programme in biomedical engineering that lasts three years but can be extended to five. Studying Tissue Engineering, Molecular or Systems-Level Biology/Physiology, and Mathematics are all required courses for the Biomedical Engineering degree.
The surveillance, treatment, and prevention of a number of medical disorders, such as cardiovascular disease, osteoporosis, spinal cord injuries, and tumour growth, are among the conditions that students can learn about while taking this course.
Candidates of a PhD in biomedical engineering can find employment in a variety of fields, including drug industrial companies, commercial laboratories, hospital entities, etc., as medicinal chemists, pharmacologists, healthcare scientists, etc.
For a three-year programme, the typical tuition for a PhD in biomedical engineering programme at Indian schools ranges from INR 25,000 to INR 3,00,000.
An average income of INR 3 lakhs to 8 lakhs per annum is given to those with a PhD in biomedical engineering.
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