biomedical engineering phd online

Biomedical Engineering Ph.D.

Use specialized technical expertise to create devices for a healthier world, one life at a time.

Tomorrow’s most impactful healthcare and medical technologies will come from advanced engineering principles and the study of biology and medicine. Develop the high-level knowledge and skills to be a vital contributor in the rapidly growing field of medical devices.

Why earn a Ph.D. in biomedical engineering?

If you're an international student, refer to the international application process for deadlines.

At the forefront of increased life expectancy, reductions in cancer deaths and overall healthcare progress are medical innovations. From advanced optical scanners that eliminate the need for biopsies, to needle-free diabetes care, to advanced prosthetics, biomedical engineers help save and improve lives on a mass scale.

Through this graduate program in the College of Engineering & Mines, you'll contribute to the research and development of the next generation of:

• Other medical devices yet to be envisioned

You'll gain the skill-set to be a part of team that create medical devices that increase safety and survival rates for patients all around the world.

Individualize your program and choose from several Biomedical Research Groups (BRG) including:

• Biomechanics
• Biomaterials
• Bio-instrumentation
• Multi-scale
• Bio-simulation and modeling
• Bio-signals
• Other emerging areas

UND's Ph.D. in Biomedical Engineering

Increase your career opportunities with a Ph.D. program designed to focus on areas where biomedical engineering expertise is most needed.

Enhance your professional skills at 60+ free workshops offered through the UND School of Graduate Studies. Our goal is to provide you with the workforce skills and job search strategies to succeed.

Leverage the expertise and resources of three departments: College of Engineering & Mines , School of Medicine & Sciences   and NDSU's College of Engineering.

Study at a Carnegie Doctoral Research Institution ranked #151 by the NSF. Students are an integral part of UND research.

Is a Ph.D. in biomedical engineering worth it?

Projected job growth for bioengineers and biomedical engineers through 2032

U.S. Bureau of Labor Statistics

Median annual salary for bioengineers and biomedical engineers, 2023

Our graduates can expect to be highly sought by companies in the rapidly growing field of medical devices. These companies may include top medical device companies like:

• Johnson & Johnson
• GE Healthcare
• Baxter International
• Philips (Healthcare)

What can you do with a Ph.D. in biomedical engineering?

With a Ph.D. in biomedical engineering, career opportunities may include:

• Biomedical Engineer
• R&D Research Scientist
• Product Development Engineer
• Medical Device Mechanical Engineering Lead
• Principal System Engineer
• Clinical Engineering Director

Ph.D. in Biomedical Engineering Courses

EE 456. Digital Image Processing. 3 Credits.

Digital image retrieval, modification, enhancement, restoration, and storage. Image transformation and computer vision. The associated laboratory provides hands-on experiences. Prerequisite: EE 304 and EE 314 . On demand.

EE 508. Intelligent Decision Systems. 3 Credits.

Systems and networks will be designed to work in an uncertain environment. Systems will be optimized using Neural Networks and Fuzzy Logic concepts. Prerequisite: EE 314 or consent of instructor.

ME 490. Special Laboratory Problems. 1-3 Credits.

Laboratory investigations of interest to students and faculty. Repeatable to maximum of 6 credits. Prerequisite: Consent of instructor. Repeatable to 6.00 credits. On demand.

EE 521. Digital Signal Processing. 3 Credits.

Modern methods of digital signal processing will be studied. Techniques that will be used include the recursive and nonrecursive discrete-time filters and the Fourier Transform. Prerequisite: EE 314 .

Online Biomedical Engineering Ph.D.

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Intelligent

Research Locations

Biomedical Engineering Ph.D. students are expected to perform cutting edge research and must be selected by a research faculty member to join their research group or act as advisor. Most of these students will be required to complete research work in person, or possibly at research facilities at your own location, which will depend on the project, thesis topic and faculty advisor to determine how much of the program can be completed online.

Campus Visit

Online Ph.D. Biomedical Engineering candidates are required to visit the UND campus in Grand Forks, ND. A minimum of three campus visits are required and you'll need to make a presentation during each visit. One of these presentations can be the oral presentation for the qualifying exam. Additionally, a Ph.D. candidate should be present for the Ph.D. dissertation defense.

Flexible Online Biomedical Engineering Ph.D. Courses

With asynchronous classes, you do not attend class at a set time. If you need to balance work, family, and other commitments, this flexible format allows you to learn anywhere at any time.

Depending on your instructor, you’ll learn online through:

• Lesson modules
• Streaming video content
• Virtual libraries
• Posted lectures
• Online simulations

There will be times when you interact with your instructor and classmates through online discussion boards, polls, and chat rooms.

Your learning revolves around materials that can be accessed on your own time within a set time frame. However, this is not a self-paced course. You’ll have structure and deadlines.

Top-Tier Biomedical Engineering Ph.D. Online Student Resources

Over a third of UND's student population is exclusively online; plus, more take a combination of online and on campus classes. You can feel reassured knowing you won't be alone in your online learning journey and you'll have resources and services tailored to your needs. No matter how you customize your online experience, you’ll get the same top-quality education as any other on campus student.

• Same degree:  All online programs are fully accredited by the Higher Learning Commission (HLC) . Your transcript and diploma are exactly the same as our on-campus students.
• Same classes: You’ll take courses from UND professors, start and end the semesters at the same time and take the same classes as a student on campus.
• Real interaction:  You can ask questions, get feedback and regularly connect with your professors, peers and professionals in the field.
• Your own academic advisor:  As an invaluable go-to, they’re focused on you, your personal success and your future career.
• Free online tutoring:  We're here to help you one-on-one at no cost. Plus, get access to a variety of self-help online study resources.
• Unlimited academic coaching:  Need support to achieve your academic goals or feeling stumped by a tough course? We'll help with everything from stress and time management to improving your memory to achieve higher test scores.
• Full online access: Dig into virtual research at UND's libraries. Improve your writing skills with online help from the UND Writing Center. Get online access to career services, veteran and military services, financial services and more.
• 24/7 technical support:  UND provides free computer, email and other technical support for all online students.
• Networking opportunities: Our significant online student population means you’ll have a large pool of peers to connect with. UND has numerous online events and activities to keep you connected.

Best Online College

Our high alumni salaries and job placement rates, with affordable online tuition rates make UND a best-value university for online education. UND's breadth of online programs rivals all other nonprofit universities in the Upper Midwest making UND one of the best online schools in the region.

UND ranks among the best online colleges in the nation for:

• Affordability
• Student satisfaction (retention rate)
• Academic quality (4-year graduate rate)
• Student outcomes (20-year return on investment per Payscale.com)

Biomedical Engineering Research

Preventing falls in parkinson’s disease.

Ph.D. student Rabiee Fadil developed a new type of medical device to help people with Parkinson’s know when they might be at a higher risk for a falling incident.

Check out the biomedical engineering faculty you'll work with at UND or discover additional doctoral opportunities.

• Department of Biomedical Engineering
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The 5 Best Doctor of Biomedical Engineering (BME Ph.D.) Degree Programs

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Biomedical Engineering is defined as the application and combination of engineering principles and concepts of design to biology and medicine for healthcare. Students explore the life sciences and utilize computational practices and theories in disciplines that include biological science, engineering, computer science, and advanced mathematics.

The program aims to equip students in the areas of engineering, computer science, mathematics, and life sciences to be able to generate leaders in the areas of research, medical engineering, and science.

One of the objectives of a Ph.D. in Biomedical Engineering (BME Ph.D.) is to provide detailed training for students to conduct original research and progress toward a doctoral dissertation.

It also has a goal of promoting the advancement of knowledge and the development of new devices in the areas of engineering, biology, and medicine. It covers bioinformatics, biomechanics, biomaterial, biomedical optics, tissue engineering, genetic engineering, neural engineering, pharmaceutical engineering, medical devices, clinical engineering, and rehabilitation.

Graduates of this Ph.D. program are dedicated, hard-working, and organized because of the detailed coursework for earning the degree. Therefore, graduates are treated significantly in the corporate world.

One of the potential career paths for those who have earned a BME Ph.D. is the academy. In fact, some doctorate Biomedical Engineering programs require doctorate students to show teaching competence as a requirement of their training.

Attending on-campus courses may, therefore, help graduate students gain practical experience as teaching assistants. An online BME Ph.D. in Biomedical Engineering program is research-intensive but is most appropriate for working students or those with proximity issues.

______________________________

Best Doctor of Biomedical Engineering Degree Programs

Rowan university.

DOCTOR OF PHILOSOPHY IN BIOMEDICAL ENGINEERING

School Highlights: The Rowan College of Engineering at Rowan University supplies a huge number of relevant degrees, resources, and opportunities. Students can potentially earn their bachelor’s, master’s, and doctorate degrees in Biomedical Engineering at this one fabulous institution of higher education.

The Ph.D. curriculum is grounded in traditional engineering principles. Yet, it also allows students to explore any number of areas within the discipline, such as robotic surgery, nanotechnology, and the creation of artificial organs and limbs.

Rowan University is very well-established in the field of biomedical engineering, and its excellent location provides avenues to labs, companies, and research facilities in New Jersey, Philadelphia, and New York.

Coursework Options:

• Physiological Fundamentals in Biomedical Engineering
• Introduction to Electrical and Magnetic Lecture/Lab
• Introduction to Mechanics Lecture/Lab

Campus Location: Glassboro, NJ

Accreditation:

• Middle States Commission on Higher Education 3624 Market Street, Suite 2 West Philadelphia, PA 19104 www.msche.org, (267) 284-5000
• Accreditation Board for Engineering and Technology

Acceptance Rate: 77% Retention Rate: 83% Graduation Rate: 78%

LEARN MORE ABOUT ROWAN UNIVERSITY’S PH.D. IN BIOMEDICAL ENGINEERING (BME) DEGREE

University of tennessee, knoxville.

BIOMEDICAL ENGINEERING MAJOR, PH.D.

School Highlights: The University of Tennessee is a prominent and exceedingly popular public school. The Knoxville campus provides undergraduate and graduate programs in engineering, including the 36-credit Ph.D. in Biomedical Engineering. It is a robust and in-depth general approach to the profession in which students complete knowledge-depth coursework as well as specialization classes.

The electives allow students to strategize individual academic pathways that lead more toward their personal goals and aspirations. There is also an Energy Science and Engineering concentration that is offered in collaboration with the Oak Ridge National Laboratory, which is a tremendously rare and exciting opportunity.

Concentration Options:

• General Program
• Energy Science and Engineering

Campus Location: Knoxville, TN

• Higher Learning Commission

Acceptance Rate: 78% Retention Rate: 90% Graduation Rate: 72%

LEARN MORE ABOUT THE UNIVERSITY OF TENNESSEE, KNOXVILLE’S DOCTOR OF PHILOSOPHY IN BIOMEDICAL ENGINEERING

Columbia university.

DOCTORAL DEGREE IN BIOMEDICAL ENGINEERING

School Highlights: Students who are lucky enough to gain enrollment at Columbia University, one of the nation’s most prestigious and competitive schools, can choose from three exciting specialization options, all of which can be found below. Each one significantly differs from the last and provides a unique approach to a complex discipline.

Columbia University retains some of the most fabulous faculty members in the world, and doctoral students have the privilege of tapping into their decades of knowledge in biomedical engineering, as well as their connections across the country and the globe.

The curriculum includes topics in teaching, as well as assistantship and supervisory opportunities, making it a great choice for those pursuing careers in education.

• Biomechanics
• Cell and Tissue Engineering
• Biosignals and Biomedical Imaging

Campus Location: New York City, NY

• Middle States Commission on Higher Education

Acceptance Rate: 4% Retention Rate: 95% Graduation Rate: 95%

LEARN MORE ABOUT COLUMBIA UNIVERSITY’S DOCTORAL DEGREE IN BIOMEDICAL ENGINEERING

Johns hopkins university.

BIOMEDICAL ENGINEERING (BME), PH.D.

School Highlights: John Hopkins University is yet another of the country’s most acclaimed institutions of higher education that also provides a unique approach to a doctoral degree in biomedical engineering. Students are required to complete two semesters of coursework that have multiple pathways.

The General Curriculum is broken down into electives in Quantitative Biology and Mathematics, and there is a wide variety of possibilities in these two categories alone. However, the Alternate Life Sciences Tracks offer a fascinating approach to BME in three different curricula focusing on areas such as neuroscience cognition and systems bioengineering.

JHU is at the forefront of this exciting interdisciplinary field of modern scientific research and trains doctoral students to “work at the cutting edge” of the profession.

• General Curriculum
• Alternate Life Sciences Curricula

Campus Location: Baltimore, MD

Acceptance Rate: 8% Retention Rate: 96% Graduation Rate: 93%

LEARN MORE ABOUT JOHNS HOPKINS UNIVERSITY’S BIOMEDICAL ENGINEERING PH.D. PROGRAM

Boston university.

BIOMEDICAL SCIENCES PH.D. PROGRAM

School Highlights: Boston University provides what might be the most innovative doctoral degree in Biomedical Sciences of these five universities. The general coursework, or the Foundations in Biomedical Sciences (FiBS), lays the groundwork for interdisciplinary research with focused preparation and investigation for career advancement.

First-year Ph.D. students explore a wide variety of areas within three high-quality laboratory rotations while completing the core curriculum. The labs subsequently help students focus their degree in one of the ten fascinating departments below.

This is an outstanding choice for any number of students pursuing a degree in the field of Biomedical Engineering, in large part because of the sheer number of available concentration options. There is no telling where graduates might end up upon completing this doctoral program.

• Biochemistry
• Genetics & Genomics
• Microbiology
• Molecular & Translational Medicine
• Nutrition & Metabolism
• Oral Biology

Campus Location: Boston, MA

• New England Association of Schools and Colleges

Acceptance Rate: 22% Retention Rate: 94% Graduation Rate: 89%

LEARN MORE ABOUT BOSTON UNIVERSITY’S BIOMEDICAL SCIENCES PH.D. PROGRAM

H ow long can a ph.d. in biomedical engineering degree take to earn.

A Ph.D. in Biomedical Engineering is generally granted to students after four to six years of research and coursework. A master’s degree is required to pursue a Ph.D. in this particular field.

A BME Ph.D. opens doors of opportunities for students to become experts in this field of study and help them attain their professional and personal goals.

During this period, doctorate students will have a deeper understanding of chemistry and biology’s fundamental principles. It prepares students for various high-paying jobs.

The exact period it takes to earn a BME Ph.D. may vary depending on the academic institution offering the program and the student. This is the reason why students should efficiently research any potential school and become aware of any responsibility that comes along with earning this degree.

What are the possible career opportunities for a Ph.D. in Biomedical Engineering graduate?

A BME Ph.D. graduate becomes adequately prepared for different career paths, which may include research and development careers for the advanced levels in private industries and government laboratories.

As well as teaching positions in Biomedical Engineering disciplines in academic institutions, research in hospitals and medical-related companies, medical equipment manufacturing, pharmaceutical and medicine manufacturing, navigational, measuring, and manufacturing of electro-medical and control instruments.

Graduates of a BME Ph.D. program can create solutions to biomedical problems through the use of conceptual and computational methods related to engineering. There is a deeper understanding of data analysis and mathematics, along with courses such as biomedical product development and biomaterial science.

Specialists aid in the development of equipment and products that are relevant to the study. BME Ph.D. students are active participants in seminars and conferences that focus on the methods of conducting independent research and the use of tools and techniques to construct practical solutions.

Here are some of the career paths that a Ph.D. in Biomedical Engineering degree holder can pursue, along with their expected salaries:

• Biomedical Engineer for research and patent development companies – $99,950
• Biological technicians – $49,650
• Software developers – $124,200
• Research scientists – $136,670
• Biomedical Engineering Director – $89,921

Other job positions include medical device developer, scientific and bioinformatics analyst, research scientist, medical project manager, and education and research at universities.

The U.S. Bureau of Labor Statistics says that Biomedical Engineers are part of a progressive industry with an employment rate that is projected to rise by 4% between the years 2022 and 2032. The average annual salary for biomedical engineering professionals was $99,550 as of May 2022.

What is the general curriculum for a BME Ph.D. program?

The first phases of the Biomedical Engineering Ph.D. program require students to complete the basic life science curricula. The advanced course materials and subjects are sometimes lifted from a medical program’s curriculum.

Common BME, Ph.D. course topics also include Biomedical Imaging, Biostatistics, Nanotechnology, Molecular Biology, Cardiovascular systems, Computational Modeling of Physiological systems, and Bioengineering.

Many universities readily accept students who have a strong interdisciplinary background or can demonstrate experience in multidisciplinary research. A BME Ph.D. program is interdisciplinary and aims to equip students to collaborate with teams of specialists to design and assess systems for solving complex medical issues.

Generally, the BME Ph.D. coursework varies and is dependent upon a student’s preferred area of specialization, recommendations from advisors or academic committees, and focus of research. Students of this online program deal with specific topics in engineering, life sciences, and mathematics.

Other topics include cellular and molecular bioengineering and quantitative physiology and upper-level mathematics and engineering courses. Depending on the features of the program, students are required to write and defend their dissertations to a panel of experts.

How does a student get admitted to a Ph.D. in Biomedical Engineering program?

Admission to a BME Ph.D. program may differ depending on the academic institution. A bachelor’s and master’s degree in biology, mathematics, or computer science is typically required.

Eligible applicants for a Ph.D. in Biomedical Engineering program are students who are interested in advanced research concerning tissue regeneration, biomaterials, or medical optics. Students become well-equipped to become leaders in research and development for academic and industrial settings.

What are the schools that offer a Ph.D. in Biomedical Engineering program?

Ph.D. in Biomedical Engineering program is offered as a hybrid program at  Rowan University and at the University of Tennessee- Knoxville . On the other hand, some of the schools that offer a Ph.D. in Biomedical Engineering program on-campus are Columbia University , Johns Hopkins University, and Boston University .

If you find significant innovations like artificial organs, prostheses, instrumentation, medical information systems, health management, and care delivery systems interesting, then a Ph.D. in Biomedical Engineering program will equip you for various career opportunities at present and in the future.

Is a Doctor of Biomedical Engineering degree worth the time and expense?

The answer to this question depends on your career goals and how much time and money you are willing to invest. A Doctor of Biomedical Engineering degree can open up many doors for career advancement and provide you with an understanding of the principles and techniques used in modern biomedical engineering.

However, it is also an expensive and time-consuming degree, so you should consider whether the investment of time and money is worth it for your particular goals.

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Applied Biomedical Engineering Master's Program Online

Enrich your career as a biomedical engineer with a master's degree you can earn online, part-time. Our program is affiliated with the #1 ranked U.S. News & World Report Biomedical Engineering master's. Our online courses will challenge you to think creatively about how to develop intelligent design engineering to solve today’s most critical problems in biology and medicine.

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Applied Biomedical Engineering Program Overview

In the Johns Hopkins Engineering Applied Biomedical Engineering online, part-time master’s program, you will study with acclaimed experts in biomedical research and medical care who are spearheading the latest techniques in practice and research. From using physiological knowledge and mathematical methods to design lab experiments and equipment to developing biological system modeling and computer simulation, you will take a deeper dive into the science and engineering that impacts the health of humanity.

You will also work alongside our colleagues who are scientists, physicians, and engineers at the world-renowned Johns Hopkins Hospital during a unique hybrid two-weekend residency course in Baltimore. Dynamic and life-saving solutions evolve from these biomedical engineering course projects, including a student who redesigned the Ebola protective suit by integrating a cooling system. In this hands-on, immersive lab experience, you will also design and build your own EKG monitor.

Take your biomedical engineering career to the next level with this unique interdisciplinary online, part-time master’s program that will allow you to:

• Gain high demand skills to advance in the biomedical industry
• Apply engineering principles to solve physiological and medical challenges
• Design laboratory experiments and equipment
• Engineer innovative solutions to unmet clinical needs
• Translate cutting edge biomedical research into technologies of the future
• Learn on your terms and enjoy a flexible course schedule in a format that works best for you

Master’s Degree Focus Areas

A focus area must be selected.

• Biomechanics
• Medical Devices
• NeuroEngineering
• Translational Tissue Engineering

Focus Area Requirements

We offer three program options for Applied Biomedical Engineering: you can graduate with a Master of Science in Biomedical Engineering degree or a post-master's or graduate certificate.

Applied Biomedical Engineering Courses

See course requirements, prerequisites, focus areas, and electives offered within the program. For exact dates, times, locations, fees, and instructors, please refer to the course schedule published each term.

Program Contacts

Eileen haase.

Brock Wester

Anil Maybhate

Andrew Marshall

Tuition and fees.

Did you know that 78 percent of our enrolled students’ tuition is covered by employer contribution programs? Find out more about the cost of tuition for prerequisite and program courses and the Dean’s Fellowship.

Why Hopkins?

Apply engineering principles to shape the future of the biomedical industry.

Study with faculty who are practicing scientists and notable professionals with corporations and government entities, including the Johns Hopkins Applied Physics Lab, NASA, Raytheon, and the U.S. Department of Defense. Exceptional one-on-one mentoring sets you on a course to be a confident, knowledgeable leader.

Hands-On Experience - Get access to specialized lab opportunities offered at the Johns Hopkins Hospital and the university’s state-of-the-art laboratories on our main Homewood campus.

Biomedical Engineering Practice and Innovation - This hybrid residency course is an integral part of the Applied Biomedical Engineering program curriculum, and it covers experimental and design work primarily in the areas of physiology, cell and tissue engineering, and biomedical instrumentation.

“ As most of our students are coming from entirely biological or engineering backgrounds, we give them a total spectrum of activities from bench to bedside—which is a hallmark of biomedical engineering as an interdisciplinary field. ”

Academic Calendar

Find out when registration opens, classes start, transcript deadlines and more. Applications are accepted year-round, so you can apply any time.

Related News

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When his employer solicited new medical device ideas, Nick Desantis ’12, MS ’18 was ready with a presentation he honed during his master's studies.

A Jellyfish-Inspired Ocean Sensor

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EP Instructor Leslie Hamilton and her APL team find new ways to collect and transmit ocean data.

Student Spotlight: Robert McDonald, Applied Biomedical Engineering

Robert McDonald spent years working as a controls engineer before realizing that his real interest lay elsewhere: in the medical device field. A move to a firm specializing in that field and enrollment in the Applied Biomedical Engineering program at Johns Hopkins Engineering for Professionals Program has not only helped focus his interest and hone his skillset, but has also enabled him to develop a wireless electromyography device for his program capstone project. McDonald says his invention could help scientists collect data more efficiently and less expensively.

Penn State    |    College of Engineering

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Doctor of Philosophy (Ph.D.) in Biomedical Engineering

A flexible research program designed for your career goals.

Our highly flexible, mentored biomedical engineering graduate program is multidisciplinary. Along with biomedical engineering faculty, courses are taught by faculty in the Eberly College of Science and the Colleges of Earth and Mineral Sciences, Engineering, and Medicine.

We get you ready for success

• A curriculum with a strong foundation in traditional engineering and life sciences that includes fundamental coursework in biomedical engineering and a number of ancillary areas including physics, chemistry, biology, materials research, esthesiology, orthopedics and rehabilitation, and more.
• Students enjoy state-of-the-art research facilities and an exclusive partnership with the Penn State Hershey Medical Center.
• The unique landscape of the biomedical engineering graduate program fosters learning and collaboration among students, engineers, clinicians, and professionals in the biomedical industry.
• Focused specialization in one or more cutting-edge research areas.

The degree involves graduate coursework, a candidacy exam following the first year, a comprehensive exam in the third year, and a final defense upon successful completion of a doctoral dissertation. Full requirement details and a course map can be viewed in the Graduate Student Handbook . Requirements for the Ph.D. program are typically completed within four to five years but vary depending on the scope of the research and individual education paths.

Program Requirements

Credits (total: 29 credits).

• Earned at a Penn State campus and recognized by the Graduate School (20 credits)
• 6 credits of biomedical engineering; 6 credits of life science; 6 credits of technical/quantitative/biomedical engineering electives. 12 of these credits must be lecture- or laboratory-based and at the 500 level. The other 6 credits can be 400 or 500 level lecture-based courses and do not include the ethics course or colloquium.
• Additional credits at the 500 level in courses relevant to your research (6 credits)
• BIOE 590: Graduate Seminar (Register every semester until comprehensive exam is passed)
• BIOE 591: Ethics and Professional Development (1 credit)
• BIOE 600: Thesis Research (At least 12 credits)

A breakdown of the program requirements and the program timeline can be found in the Graduate Student Handbook .

Research Focus Areas

Application deadline.

The deadline to apply for the fall semester is December 1.

Visit the Penn State Graduate School website and apply to the “BME PHD” program.

Application criteria can be found on our website at How to Apply .

Contact Information

• Dr. Leo Lei Associate Professor of Biomedical Engineering, Program Coordinator, 515 CBEB 814-865-2290 [email protected]
• Virginia Simparosa Graduate Programs Assistant 814-865-8087 [email protected]
• Graduate Handbook

The Department of Biomedical Engineering administers the bachelor of science, master of science, and doctorate degree programs in biomedical engineering. Our work combines traditional engineering principles with medicine and technology for the betterment of human health and society. 

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Department of Biomedical Engineering

122 Chemical and Biomedical Engineering Building

The Pennsylvania State University

University Park, PA 16802-4400

Phone: 814-863-6614

Email: [email protected]

Biomedical Engineering, PhD

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Biology, Genetics, Research, Science, approved for STEM-OPT extension, biomedical

The School of Biological and Health Systems Engineering faculty offer a graduate program leading to the PhD in biomedical engineering.

Areas of study include:

• biomaterials, biosensors, biomarkers and biomimetic materials
• biomedical imaging
• molecular, cellular and tissue engineering
• neural and rehabilitation engineering
• synthetic and systems biology

The doctoral degree in biomedical engineering is conferred upon evidence of excellence in research resulting in a scholarly dissertation that is a contribution to knowledge.

This program may be eligible for an Optional Practical Training extension for up to 24 months. This OPT work authorization period may help international students gain skills and experience in the U.S. Those interested in an OPT extension should review ASU degrees that qualify for the STEM-OPT extension at ASU's International Students and Scholars Center website.

The OPT extension only applies to students on an F-1 visa and does not apply to students completing a degree through ASU Online.

• College/school: Ira A. Fulton Schools of Engineering
• Location: Tempe
• STEM-OPT extension eligible: Yes

84 credit hours, a written comprehensive exam, an oral comprehensive exam, a prospectus and a dissertation

Required Bioengineering Courses (18 credit hours) Doctoral students are required to complete six credit hours from each of the following three areas: BME graduate courses (BME prefix) (6) life science or biology graduate courses (6) quantitative math or engineering (6)

Other Requirement (3 credit hours) BME 780 Teaching Practicum (3)

Technical Electives (9 credit hours)

Research (37 credit hours) BME 792 Research (37)

Seminar (5 credit hours) BME 591 Seminar (5)

Culminating Experience (12 credit hours) BME 799 Dissertation (12)

Additional Curriculum Information Up to six credit hours of the required biomedical engineering courses and technical electives combined may be at the 400 level.

Courses used to satisfy the technical electives requirement must be selected from the list of 400- to 700-level courses that are not selected as required BME courses.

Applicants must fulfill the requirements of both the Graduate College and the Ira A. Fulton Schools of Engineering.

Applicants are eligible to apply to the program if they have earned a bachelor's or master's degree from a regionally accredited institution.

Applicants must have a minimum cumulative GPA of 3.00 (scale is 4.00 = "A") in the last 60 hours of their first bachelor's degree program, or a minimum cumulative GPA of 3.00 (scale is 4.00 = "A") in an applicable master's degree program.

All applicants must submit:

• graduate admission application and application fee
• official transcripts
• a statement of purpose
• resume or curriculum vitae
• three letters of recommendation
• proof of English proficiency

Additional Application Information An applicant whose native language is not English must provide proof of English proficiency regardless of their current residency.

Students should view the School of Biological and Health Systems admission checklist for specific admission procedures and deadlines.

Program learning outcomes identify what a student will learn or be able to do upon completion of their program. This program has the following program outcomes:

• Ability to independently develop an approach for identifying problems, collecting, analyzing and interpreting data in the area of biomedical engineering
• Develop ability to communicate original biomedical research as scholarly work or publication
• Develop teaching practices under faculty supervision that are appropriate for biomedical engineering education within industry or academia

Professionals who specialize in biomedical engineering research areas are in high demand across sectors and industries, including business, academia, hospitals, government agencies and research facilities. The skill sets gained by graduates of the doctorate program in biomedical engineering are sought by local, national and international employers.

Career examples include:

• bioinformatics scientist
• biomedical engineer
• medical scientist
• molecular biologist

Harrington Bioengineering Program | ECG 334 [email protected] 480-965-3028

Biomedical Engineering - Online

About the Program

Whether you’re learning how to design surgical robotics tools or other life-saving innovations, our online Master of Science in Biomedical Engineering program will give you the engineering expertise you need to help solve today’s biomedical problems in careers across medical institutions, manufacturing and research facilities, universities and more.

An extension of one of the world's first—and most highly ranked—biomedical engineering programs, our online option allows you to live and work wherever you’re located as you advance your education at Case Western Reserve.

Student Resources

Whether you’re looking for information about education abroad opportunities, have questions about visas, or are interested in international opportunities on campus, these quicklinks will help you quickly navigate some of the key resources our website offers for students.

What to Expect

Our biomedical engineering department encompasses the research and resources of two of Case Western Reserve’s top-ranked schools: the School of Medicine and Case School of Engineering. So in our 30-credit-hour online program, you'll gain a foundation in both, through core classes and electives that will teach you how to adapt to today's biomedical engineering research environment.

You’ll take four biomedical engineering-specific courses totaling 12 credit hours and two core engineering classes (six credit hours), plus two translational courses and two technical electives to round out your experience.

Though the material you’ll learn in these classes is the same as our on-campus program, it has been designed especially for online learning, including using dedicated simulation software. Plus, you’ll partner with our on-campus students for design projects and presentations, helping you form lasting networks.

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Beyond the classroom.

As an online student, you’ll be able to tap into the myriad resources available to our on-campus students and even join student organizations, such as the Biomedical Graduate Student Organization or Underrepresented Minorities in Biomedical Engineering.

We encourage you to form connections in and outside the classroom—bonds that will last as you join the university’s network of nearly 120,000 alumni around the world who are eager to support their fellow Spartans in their careers.

By the Numbers

schools of which our department is part

in biomedical research grants across the department

credit-hour program

biomedical engineering graduate program, U.S. News and World Report

founding year of our department—among the first in the U.S.

Application Requirements

Our program thrives when we have students with diverse perspectives and a range of educational, professional and life experiences. We look forward to learning more about you!

• Online application
• Bachelor's degree from an accredited college or university 
• A personal statement outlining your interests, goals and relevant experience
• Unofficial transcripts
• Two letters of recommendation
• GRE score (optional) 

View full application details on our admissions website.

Quick Links

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• Summer Research Experience for Teachers

Research Areas

• Partner Research Organizations
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Ph.D. Program

Our research-oriented Ph.D. program provides high-level command of concepts and an unsurpassed research experience that turns students into world-class researchers with specialization in their chosen  area of research .

BME Doctor of Philosophy (Ph.D.) Program

Biomedical engineering at Cornell University focuses on interdisciplinary research to achieve a quantitative understanding of human biology at all spatial and temporal scales, from molecules and cells to tissues and organs, with the goal of improving human health. Our mission is to educate students to understand the human body as an integrated system and the mechanisms of disease through quantitative engineering analysis, and to use that understanding to design better therapeutic strategies, devices, and diagnostics. 

Admission Requirements

Application Deadline: The application requirements and deadline for the Ph.D. programs are listed on the  Graduate School's website .

GRE: Cornell's graduate field of biomedical engineering will no longer requires GRE scores from applicants , and will review all applications blinded for GRE scores.

Graduate Student Experience at Cornell

Graduate education at Cornell is focused on individualized programs tailored to the background, needs, and interests of each student. Cornell combines an Ivy League tradition with many features of a land grant university to provide outstanding programs of teaching and research in all areas of human inquiry. Students shape their course of study working within an academic framework developed with a Special Committee of faculty advisors chosen by the student. Doctoral programs are typically completed in five to six years.

While a list of our  research areas cannot fully capture the integrated nature of Biomedical Engineering at Cornell, it does provide helpful information to understand the breadth of research available at the Meinig School. 

Opportunities for Training in Education and Outreach

In addition to a world-class research environment, the BME department at Cornell has opportunities for you to learn to become a better educator, communicator, and science advocate. Cornell BME students have opportunities to teach students at various levels, from middle school through high school to undergraduates, educating them about science and engineering.

Ph.D. Linkage Program

Ph.D. students who will do their thesis research in a NYC lab generally signup for the Linkage Program, which includes an increased stipend and access to subsidized housing. For more information and forms, visit the links below.

• Linkage Program overview described in the Graduate School web pages.
• Application form , updated by the Weill Cornell Medical Graduate School.
• Cornell Engineering Ph.D. Resources
• Financial Aid

Testimonial by

I was amazed at how inclusive and family-oriented the BME faculty, staff, and students were. Many things assured me that I would be in a supportive and collaborative environment which is exactly what I wanted and needed.

Ph.D. Program Features

Ph.D. Summer Immersion Term

Clinical practice and research in a hospital setting (8-week summer) at Weill Cornell Medicine and associated hospitals in New York City.

Ph.D. Requirements

Ph.D. Research Opportunities

Ph.D. Financial Aid

Ph.D. Student Handbook

Ph.D. Spotlights

Giving forward, giving back: a degree with impact on cancer patients and future researchers

Ph.D. student Shola Onissema-Karimu is studying how drugs and stem cells affect bone during cancer treatment and hopes to mentor future scientists to make informed decisions about their career choices. Read more about Giving forward, giving back: a degree with impact on cancer patients and future researchers

Exploring whether goldfish hold the key to spinal cord injury treatment

Spotlight on Cátia Dombaxe, MSc., a Meinig School doctoral candidate from Luanda, Angola, studies molecular mechanisms associated with spinal cord regeneration, is an entrepreneur, diversity champion, and was recently onboarded as a NatGeo Explorer. Read more about Exploring whether goldfish hold the key to spinal cord injury treatment

From Tanzania to Cornell: A biomedical engineer's journey to bridge gaps in global health

Ph.D. student Omary Mzava is developing cell-free nucleic acids assays to diagnose and monitor infectious and immune-related diseases. Read more about From Tanzania to Cornell: A biomedical engineer's journey to bridge gaps in global health

Blue Marble University

Scholarly, Convenient, Affordable…Online Degrees

Online Biomedical Engineering Doctoral Program

Doctor of Science (D.Sc.) in Biomedical Engineering

3 Year Curriculum You Can Complete Entirely Online Revised and Updated for May 2023

Pre-requisite: A minimum of a Bachelor Degree (or equivalent in education and training) with demonstrated competency in science, engineering, computer science, and math.

This is a broad and exciting field which combines applied engineering with current rapid advances in Biology and Medicine. The major goal of this interdisciplinary field is to use design and problem solving engineering skills to improve health care. Examples of biomedical applications include the development of biocompatible prostheses, medical devices, imaging equipment, and regenerative tissue growth.

We believe that the most important medical observation of our time is that repair stem cells taken from a patient’s blood can heal damaged tissue and can repair bodily functions. Stem cell science has opened a whole new and exciting area for biomedical engineers. New designs of equipment and processes are needed in the areas of batch preparation of stem cells, labeling and sorting of cells, cell preservation techniques, clinical diagnostic imaging devices to find such cells, scaffolding and other techniques for tissue creation, nanotechnology, as well as cellular delivery devices.

Fermentation Biotechnology: An exploding field where biotech engineers are said to be able to create any chemical using advances in this field.

Yet, even though tissue engineering and fermentation biotechnology remain our focus, our program is rock solid in   all the other hot new fields of nanotechnology, imaging systems, fiber optics and bio-sensors, biophotonic instrumentation, bioinformatics, robotics, medical devices and implants.

It is intended that a graduate of our program will be equally at home in an academic or industrial/pharmaceutical research lab, teaching setting, medical device manufacturer, medical imaging developer, clinical stem cell treatment clinic, clinical engineering environment, or in hospital administration.

We have an exciting program, and it is not as difficult as you think!! Dissertation topics are always open to the student to select what he/she would like to research (with faculty guidance and approval). We are currently encouraging dissertations that relate to the batch processing of human stem cells, growth media, and nanotechnology for labeling and sorting of cells, but this topic in biomedical processes is not a requirement.

We operate on a trimester schedule, which means that our academic year is divided into 3 segments of 4 months each. In each 4 month period, students take three courses. For some terms, or as determined by the University, students may be assigned courses in sequence, lasting about 1 month each. In that event, for any approximate one month period, a student will be studying one course.

TOTAL: 72 TRIMESTER CREDITS (Equivalent to the USA Minimum Requirement for a Doctoral Degree)

Please View Or Download Our Curriculum Here: 2023 Curriculum D.Sc. Biomedical Engineering

The program comprises 72 trimester credits, and consequently is equivalent to the minimum 60 semester credits for a USA regionally accredited college or university. Upon completion, and for a nominal fee, graduates typically will be able to obtain a Certificate of Equivalency from a foreign education credentials evaluation service  for employment purposes in the USA.

Also available is our 5 year BS/DSc Curriculum for High School Graduates): This program features 2 years of preparation courses in basic sciences leading into our regular 3 year doctoral program. Graduates receive combined Bachelor Degree and Doctoral Degree. B.S./D.Sc. Biomedical Engineering:

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BioMedical Engineering OnLine

Celebrating 20 years of Biomedical Engineering Online

Read our special anniversary collection  here . 

Join us as an Editorial Board Member

We are recruiting Editorial Board Members with expertise in the following to be reviewers: Bioinformatics, Image Processing, Tissue and Cell Engineering, Biomedical Image Processing, Rehabilitation, and Novel Medical Devices. 

If you are interested, please follow the link in the title and contact the Publisher! 

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In vivo video microscopy of the rupturing process of thin blood vessels to clarify the mechanism of bruising caused by blunt impact: an animal study

Authors: Tatsuo Fujikawa and Yoji Yamada

Ferroptosis in radiation-induced brain injury: roles and clinical implications

Authors: Lifang Li, Xia Liu, Chunfeng Han, Licheng Tian, Yongzhi Wang and Baolin Han

Tissue engineering strategies hold promise for the repair of articular cartilage injury

Authors: Chenhui Yang, Rongjin Chen, Changshun Chen, Fei Yang, Hefang Xiao, Bin Geng and Yayi Xia

A personalized clinical assessment: multi-sensor approach for understanding musculoskeletal health in the frail population

Authors: R. Re, A. Scano, O. Amata, L. Spinelli, A. Tomba, C. Brambilla, A. Frizziero, A. V. Caserta, R. Cubeddu, A. Torricelli and D. Contini

Deep learning for the harmonization of structural MRI scans: a survey

Authors: Soolmaz Abbasi, Haoyu Lan, Jeiran Choupan, Nasim Sheikh-Bahaei, Gaurav Pandey and Bino Varghese

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How smartphones are changing the face of mobile and participatory healthcare: an overview, with example from eCAALYX

Authors: Maged N Kamel Boulos, Steve Wheeler, Carlos Tavares and Ray Jones

Automated system for lung nodules classification based on wavelet feature descriptor and support vector machine

Authors: Hiram Madero Orozco, Osslan Osiris Vergara Villegas, Vianey Guadalupe Cruz Sánchez, Humberto de Jesús Ochoa Domínguez and Manuel de Jesús Nandayapa Alfaro

Biological effects of exposure to magnetic resonance imaging: an overview

Authors: Domenico Formica and Sergio Silvestri

Organ-on-a-chip: recent breakthroughs and future prospects

Authors: Qirui Wu, Jinfeng Liu, Xiaohong Wang, Lingyan Feng, Jinbo Wu, Xiaoli Zhu, Weijia Wen and Xiuqing Gong

Oscillometric measurement of systolic and diastolic blood pressures validated in a physiologic mathematical model

Authors: Charles F Babbs

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Article Collection International Conference on Aging, Innovation and Rehabilitation 2024 (ICAIR 2024) Edited by Milos Popovic, Babak Taati

Article Collection International Conference on Aging, Innovation and Rehabilitation Edited by Milos Popovic, Babak Taati

Thematic series Deep learning in biomedical engineering Edited by Robert Koprowski

Thematic series Advanced signal processing and modeling for neuroengineering Edited by Fei Chen, Shi-xiong Chen and Dong-mei Hao

Thematic series Trends in e-health and m-health: technology developments for improved healthcare Edited by Alessia Paglialonga

Thematic series Artificial intelligence in biomedical imaging Edited by Robert Koprowski

Thematic series Advances in medical robotics and automation for surgery and rehabilitation Edited by Dhanjoo Ghista and Kelvin Wong

Thematic series Biomedical engineering and the heart: coronary blood flow, myocardial perfusion, myocardial ischemia and infarcts detection, customized stents and bypass surgery Edited by Dhanjoo Ghista and Kelvin Wong Thematic series Advances in neuroimaging: insights into neurological and psychiatric disease Cross-journal series Edited by Kelvin Wong

Announcing the launch of In Review

BioMedical Engineering Online , in partnership with Research Square, is now offering In Review . Authors choosing this free optional service will be able to:

• Share their work with fellow researchers to read, comment on, and cite even before publication
• Showcase their work to funders and others with a citable DOI while it is still under review
• Track their manuscript - including seeing when reviewers are invited, and when reports are received

Editor-in-Chief

Ervin Sejdic, University of Pittsburgh, USA

Aims and scope

BioMedical Engineering OnLine is an open access, peer-reviewed journal that is dedicated to publishing research in all areas of biomedical engineering.

BioMedical Engineering OnLine is aimed at readers and authors throughout the world with an interest in using tools of the physical and data sciences, and techniques in engineering, to understand and solve problems in the biological and medical sciences. Read more .

3MT Poster Awards at KITE ICAIR Conference, 2024

Biomedical Engineering OnLine proudly sponsored 3 poster awards at the 2024 International Conference on Aging Innovation and Rehabilitation in Toronto, CA, May 6&7.  The winners are: 

• Shaghayegh Chavoshian, Institute of Biomaterials and Biomedical Engineering, University of Toronto, Canada--Poster:  The Effect of Obstructive Sleep Apnea on Daytime Airway Narrowing in Older Adults with Asthma
• Nicholas Moser, Institute of Medical Science, University of Toronto, Canada--Poster: Adults with Persistent Concussion Symptoms – Does Individualized Rehabilitation Improve Outcomes?     
• Rachael Carson, Faculty of Health, York University, Canada--Poster:  A prospective pilot evaluation of Cardiac College for Women in the cardiac rehabilitation setting          

Do you have an idea for a thematic series? Let us know!

Thematic series.

BioMedical-Engineering OnLine has published the following thematic series:

International Conference on Aging, Innovation and Rehabilitation 2024 (ICAIR2024)

International Conference on Aging, Innovation and Rehabilitation

Advanced signal processing and modeling for neuroengineering

Trends in e-health and m-health: technology developments for improved healthcare

Artificial intelligence in biomedical imaging

Advances in medical robotics and automation for surgery and rehabilitation

Biomedical engineering and the heart: coronary blood flow, myocardial perfusion, myocardial ischemia and infarcts detection, customized stents and bypass surgery

Advances in neuroimaging: insights into neurological and psychiatric disease

Our data and software availability policy

Our journal’s policy is for all data, previously unreported software or custom code described in the manuscript to be made freely available for any scientist wishing to use them for non-commercial purposes, without breaching participant confidentiality. All authors must include an ‘Availability of Data and Materials’ section in their manuscript, detailing where the data, software or code supporting their findings can be found. Authors who do not wish to share their data and materials must state that it will not be shared, and give the reason. However, these authors are still expected to make their data and materials available to reviewers on a confidential basis. Please see BioMed Central’s Editorial policies page for more information.

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Citation Impact 2023 Journal Impact Factor: 2.9 5-year Journal Impact Factor: 3.5 Source Normalized Impact per Paper (SNIP): 1.016 SCImago Journal Rank (SJR): 0.692 Speed 2023 Submission to first editorial decision (median days): 4 Submission to acceptance (median days): 123 Usage 2023 Downloads: 1,215,029 Altmetric mentions: 390

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ISSN: 1475-925X

• Submission enquiries: [email protected]

Engineering

Biomedical engineering, master of science in biomedical engineering.

Apply your engineering expertise to the mechanisms of life with a master’s degree in biomedical engineering from the Virginia Commonwealth University (VCU) College of Engineering. We are among the best graduate programs in the nation as ranked by U.S. News and World Report .

You will learn to meld engineering and technology with medicine and biomedical sciences with access to a variety of specializations from biomedical imaging systems to artificial organs and more. 

What you’ll learn

Our 30-credit program can be completed in under two years by full-time students and allows you to specialize in areas like:

• Artificial organs
• Biomaterials
• Biomedical imaging systems
• Brain-computer interfaces
• Cardiovascular devices
• Cell and tissue engineering
• Immunoengineering
• Mechanobiology of disease
• Neural engineering
• Orthopedic biomechanics
• Regenerative medicine
• Rehabilitation and human factors engineering 
• Tissue and cellular engineering

You will develop advanced analytical, experimental and technical skills in engineering and science. This will be complemented by a focus on communication, key to the development of your leadership potential through cross-team collaboration and information sharing. By applying creativity to form innovative solutions, master’s program students will use their knowledge to solve technological problems to meet the needs of our changing society and advance the quality of human life.

Your skills can help advance the practice of medicine. Participate in advanced research at one of the nation’s most well-equipped engineering facilities and take advantage of the VCU College of Engineering’s many industry partnerships to further experience and connections. You can work with:

• The Center for Rehabilitation Science and Engineering
• Hunter Holmes McGuire Veterans Affairs Medical Center-Richmond
• Pauley Heart Center
• Sheltering Arms Institute
• VCU science departments
• VCU School of Dentistry
• Virginia BioTechnology Research (Bio+Tech) Park with Activation Capital

The VCU College of Engineering is etched into the landscape of Richmond, placing students in a culturally vibrant and diverse city full of potential, providing unique learning and job opportunities. Master’s program students also have access to benefits like:

• Close partnerships with hospitals and health organizations like VCU Health , Hunter Holmes McGuire Veterans Affairs Medical Center-Richmond , Sheltering Arms Institute and The Center for Rehabilitation Science and Engineering . VCU Engineering students have access to VCU Health’s outstanding health science campus and opportunities to collaborate with other partner organizations.
• Faculty who are industry experts , finding innovative solutions to biomedical engineering problems as respected leaders in their fields with well-funded labs and industry partnerships.
• Design your own path to education with flexible electives and focus on biomedical engineering topics you are passionate about.
• Dedicated Career Services department that provides internship and employment opportunities
• Industry connections through college partnerships with public and private industry
• Interdisciplinary education to teach collaboration with engineering practitioners outside your field of study

Reference the VCU Bulletin for a full list of biomedical engineering classes. Master’s program courses are 500 level and above (for example, EGRB 602). Below are a few signature courses from the program:

• Numerical Methods and Modeling in Biomedical Engineering (EGRB 601) : You will gain proficiency in the use of computational methods and modeling to solve realistic problems in biomedical engineering. Advanced technical skills in numerical data analysis and modeling applications for biology and medicine will also be developed. Advancing your problem-solving skills and understanding the strengths and weaknesses of different numerical approaches applied in biomedical engineering is an important component of this course.
• Biomedical Engineering Systems Physiology (EGRB 602) : Learn the basic physiology of major organ systems while identifying and implementing mathematical modeling approaches to simulate and better understand these organ systems. You will also learn how to apply engineering concepts, such as fluid dynamics, thermodynamics, structural mechanics and mass transport to better understand organ system physiology.

If you’re looking to enter a professional school, like medicine or dentistry, a graduate degree in biomedical engineering can enhance your resume. It also boosts career opportunities upon graduation, especially if you’re entering a research field.

The VCU College of Engineering master of science with a concentration in tissue engineering and regenerative medicine can facilitate career advancement in a number of specializations related to biomedical engineering like:

• Research Scientist/Engineer : Conduct research to develop and advance rehabilitation and assistive device technologies
• Clinical Scientist : Integrate rehabilitation engineering technologies into medical practice to improve patient outcomes
• Clinical Research Coordinator : Oversee and coordinate clinical trials related to rehabilitation medicine
• Biomedical Engineer : Apply engineering principles to design and develop medical devices, implants and systems related to rehabilitation engineering
• Regulatory Affairs : Work with government agencies (like the U.S. Food and Drug Administration) to facilitate the approval and commercialization of new therapies and products
• Biotech Startup Entrepreneur : Take innovative ideas in rehabilitation engineering and assistive devices and develop them into commercial ventures

With the help of our Career Services team, VCU College of Engineering graduates have many opportunities to network with alumni and industry professionals. Our students work at companies like:

• Bionica Labs
• GlaxoSmithKline
• Harvard University
• IEH Laboratories & Consulting Group
• LifeNet Health Sciences
• Merck & Co., Inc.
• Plakous Therapeutics
• PPD (part of Thermo Fisher Scientific)
• Recovery Centers of America
• Simon-Kucher & Partners
• Syneos Health
• U.S. Patent and Trademark Office

How to apply

VCU offers an online, self-managed application process. See what’s needed to apply for an engineering graduate program and reference our list of Frequently Asked Questions (FAQ) .

Start your application

• Whiting School of Engineering
• Johns Hopkins School of Medicine

• Johns Hopkins Biomedical Engineering
• Prospective Students
• Graduate Program Overview

PhD Program

Biomedical engineering has emerged as one of the most exciting interdisciplinary research fields in modern science. Biomedical engineers apply innovative approaches from the experimental life sciences in conjunction with theoretical and computational methods from the disciplines of engineering, mathematics, and computer science. At Johns Hopkins University, we train engineers to work at the cutting-edge of this stimulating discipline. We believe in the importance of in-depth training in life sciences, modern engineering, mathematics, and computer science.

What should you consider when looking at graduate schools?

When researching graduate schools, a prospective student should consider the research opportunities, the people, the professional and academic networking community, and the location. As you will be spending the next four to seven years of your life in grad school, you will want to assess each of these components. Using the achievements of BME faculty and program graduates as the measure for success, we feel we have created an ideal environment for an enriching and rewarding graduate school experience at Johns Hopkins.

An intellectually stimulating environment and the nurturing spirit of collegiality extend throughout the program. Year after year, we attract the best and brightest students world-wide to participate in this very competitive program.

Johns Hopkins is known as one of the top medical schools, and many of the physicians here are incredibly enthusiastic about research. Collaborations are not only approachable, but also greatly encouraged. We also organize seminars and networking events to connect the clinical, engineering, and basic science aspects of research.

Hopkins BME faculty are engineering the future of medicine, with research articles regularly appear in a host of high-impact academic journals. They have been featured on journal covers, interviewed for podcasts, and have participated in a multitude of academic seminars and conferences.

Graduate students are permitted to select any Hopkins faculty as their thesis advisor. Faculty areas of expertise span the realm of biomedical research — increasing the likelihood that you will find a faculty advisor in the research area where you have the most interest.

Baltimore, also known as “Charm City,” is a smaller city that is rich in history and culture, with an unassuming feel. The city is filled with museums, conservatories, sports teams, parks, and, of course, crab.

Hopkins has two main campuses in Baltimore, but faculty and labs are generally localized. While the city has both a metro and bus system, most find it convenient to simply use the free Hopkins shuttle, which runs between the Homewood and East Baltimore campuses. 

Specialize in one of seven focus areas:

• Biomedical Data Science
• Computational Medicine
• Genomics & Systems Biology
• Imaging & Medical Devices
• Immunoengineering
• Neuroengineering
• Translational Cell & Tissue Engineering

MD PhD Program

Read the Johns Hopkins University privacy statement here .

• Biomedical Engineering, PhD through the School of Medicine

Whiting School of Engineering

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Omsk State Medical University

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Omsk State Medical University, Russia : Fees & Admission 2024-25

With affordable tuition fee and world-class infrastructure, studying MBBS in Russia has grown to be a top option among medical aspirants around the world. Majority of the Russian medical universities are approved by major international organizations and features top-quality faculties. For Indian students who struggle to get admission in Indian medical institutions, Russian medial universities can be a better option keeping in mind the high-quality of education provided.

University at a Glance

• World Ranking – 5603
• Country Ranking – 214

Located in the city of Omsk, Russia, the medical faculty at Omsk State Medical University was established in 1920. The university maintains a great relationship with various educational organizations from around the world including countries like Japan, USA, and Western Europe. The clinical departments of Omsk State Medical University are placed in some of the largest municipal hospitals spread across the city, and the hospitals are well-equipped with all kinds of modern tools.

Omsk State Medical University features a large library which has a collection of around 6, 00,000 books and publications. With the latest technologies and best teaching methodologies, the university continuously produces the best medical professionals in the world.

Accreditation and Recognition of Omsk State Medical University

Omsk State Medical University, Russia is rated prestigiously in the world-ranking systems and the MBBS degree they offer are recognized by;

• World Health Organization (WHO);
• International Association of Universities;
• Association of European Universities;
• And, National Medical Commission (NMC);

Omsk State Medical University comprises of 59 departments with 73% of the faculty staffs holding an academic degree. Nearly 100 staff members are MD-PhD full professors, while 300 of them are MD-PhD associate professors.

Faculties / Departments at Omsk State Medical University

Omsk State Medical University, Russia now has 5 faculties as listed below:

• Faculty of Medicine
• Faculty of Pharmaceutical
• Faculty of Stomatology
• Faculty of Paediatrics
• Faculty of Preventive Medicine

Why Study MBBS in Omsk State Medical University, Russia

Ever since it became fully functional, Omsk State Medical University has never failed to show up in the list of top 100 universities in Russia. Having trained over 30,000 medical professionals since its advent, the university is renowned for maintaining high-quality educational standards.

Every year over 4500 students applies to study MBBS at Omsk State Medical University of which 1200 students hail from nearly 50 foreign countries. When it comes to both accommodation and campus infrastructure, the university is well-equipped with modern facilities.

Here are a few benefits you need to know about Omsk State Medical University before making your decision to study MBBS in Russia.

• The entire curriculum is taught in English.
• Omsk State Medical University, Russia is a state-owned university that maintains high-level of educational standards.
• The tuition fee is quite low, and so is the cost of living when compared to the other countries with equal quality of living standards.
• Students are given clinical training in municipal hospitals with around 9600 beds in the clinical centers of the university.
• Omsk State Medical University, Russia maintains has continuously maintained its position among the top 100 universities in Russia.
• Omsk Oblast is the 7th largest city in Russia, and features many attractions as well as comfortable climate with 300 sunny days in a year.

Duration of MBBS in Omsk State Medical University

The duration of MBBS at Omsk State Medical University, Russia is 6 years where the first 5 years are dedicated to theoretical studies and the last one year to clinical practice/ internship. During the second and third year, students can opt to take part in practical researches as well.

Intake for MBBS Admission in Omsk State Medical University

The admission for MBBS undergraduate and postgraduate courses at Omsk State Medical University, Russia opens on July and runs till August. However, it is important that you apply before 30th July every year as the visa process can take anywhere from 2-3 months. There were also instances when students were denied a visa due to minor errors.

Eligibility for MBBS Admission in Omsk State Medical University

Indian students who wish to study Omsk State Medical University, Russia needs to fulfil the following eligibility criteria to quickly get admission.

• The applicant should be over 17 and below 25 years old on or before the date of admission.
• The applicant should be a high-school graduate or should hold an equivalent degree with Physics, Chemistry, Biology, and English as subjects.
• The applicant should have secured at least 50% aggregate in all the above-mentioned subjects in 10+2.
• If the applicant falls under the category SC/ST/OBC, he/she must have secured at least 45% in all the above-mentioned subjects in 10+2.
• The applicant should clear NEET as it is mandatory for students coming from India.

Documents for MBBS Admission in Omsk State Medical University

• Filled application form
• Passport-size photographs
• An original, valid passport
• Birth certificate
• 10th board exam scorecard
• 12th board exam scorecard
• Attested character certificate
• Filled NMC application form

MBBS Admission Procedure in Omsk State Medical University

All the candidates who meet the above-mentioned eligibility criteria can easily procure a seat at Omsk State Medical University, Russia.

Briefly listed below is the admission security to apply to Omsk State Medical University, Russia.

• Fill the application form, and gather all the required documents.
• The documents will then be sent to the university, where it will be analysed by the authorities, after which you will receive the invitation letter.
• Once you receive the invitation letter, the process to apply for the visa begins at the embassy of the respective country.
• Documents are submitted at the embassy and the admission fee is deposited to the Omsk State Medical University, Russia’s account.

We assist you throughout the entire process of applying to the university till completing your 6-year MBBS course at the university in numerous ways. We carefully collect, analyse and send your documents to the university on your behalf, and initiate the visa process after receiving the invitation letter. With us, you will always get to enjoy a taste of the trust factor.

MBBS Fees in Omsk State Medical University

Disclaimer: Study Europe Consultants cautiously affirm that the given amount of Tuition Fees is not volatile and subject to change without any prior intimation to the students. Also, the amount is in USD, not in Indian Rupees. To know the exact tuition fees, Hostel Fees, Living Cost and Exchange Value of USD in Indian Rupees, please contact our experts at Study Europe.

Accommodation Facilities in Omsk State Medical University

Omsk State Medical University offers a total of six hostel building for students to reside in of which 3 hostels are specially prepared to accommodate international students. The three dormitories together house around 1344 students on double or triple sharing basis. Every hostel is equipped with facilities like kitchens, bathrooms, study rooms, and shower units. Internet facility is available 24/7 and Indian food is also made available to Indian students in the hostel’s mess.

As Omsk State Medical University put special emphasis on the students’ health, the campus also features well-equipped gyms, sports and recreation centers, and ski-centers for students.

The university conducts various sports and recreational activities for students every year as Omsk State Medical University strongly believes it helps in turning the candidates into better versions of themselves. Additionally, the creative groups for international, regional, as well as national competitions open a sea of opportunities for the students.

Why Students Prefer MBBS Study from Russia?

Russia has been the top choice of not only the Indian medical students but also for the medical aspirants from the different corner of the world. Today, Russia has become the education hub. There are many reasons making MBBS in Russia the top choice for medical students.

The Top Reasons for MBBS in Russia

• Top-class education facilities for medical students
• No specific entrance examinations for getting MBBS admission
• Both tuition fees and cost of accommodation are on the lower side
• Safe and peaceful atmosphere good for studies
• Medium of instruction is English for the international medical candidates
• No demand of capitation or donation of any kind
• Students from more than 57 countries travel to Russia for medical education every year
• The best of the labs and research facilities are being provided by the universities in Russia to medical aspirants
• Medical universities in Russia are duly recognised by NMC, WHO, and others
• Cooperative and qualified faculties to assist students anytime
• Welcoming people around who value education
• Along with the various facilities to study, the top NMC approved universities in Russia offers mingling of cultures and exchange of cultural values.

MBBS Fees Structure and Course Duration

Why Choose Study Europe.in?

• Study Europe is the best solution when you are looking for consultancy firm for MBBS abroad. You can complete rely and trust us
• Our aim is to fulfill every MBBS aspirant’s dreams
• We take care of the overall admission procedure from start to the end
• We provided categorized and customized solution to all MBBS aspirant
• We deal with the best universities in Europe and all of them are accredited
• We are available 24×7; you can contact with via our chat service
• We are an authorized educational representative and fully trustworthy consultancy firm

Contact Us for guaranteed admission in the English Medium NMC approved Medical Colleges at affordable cost and study MBBS Georgia | MBBS Russia | MBBS Ukraine and MBBS Kyrgyzstan.

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Top Universities in Russia

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REVIEWS AND STUDENTS TESTIMONIALS

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It is a great place to study MBBS as the universities are so technologically well equipped. There is so much advancement in the whole education system of Russia.

Niharika Singh

I am a student good in study. I was able to fulfill my dream of studying medicine abroad with the support of professional counselors at Study Europe based in Delhi.

My name is Kiran Deep. I wished to pursue MBBS from Russia. Study Europe helped me seek admission in a renowned Russian medical institution.

Pradyuman Deshpandey

My name is Pradyuman from Ahmedabad. Study Europe provided me the right solution to my concerns and today I am pursuing course in medicine.

Pooja Sharma

The fee structure is quite affordable at Russian MBBS universities which are a great advantage for Indians, as fees in India are quite high.

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Omsk Oblast

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The flag of Omsk Oblast is a rectangular cloth of three vertical bands of equal size: the right and left red and white medium. In the centre of the white band, there is a blue vertical wavy azure pole which is 1/3 of its width.

The ratio of the flag's width to its length is 2:3.

The interpretation of symbols [ ]

The main background of the flag of Omsk Oblast is red. It symbolizes bravery, courage, fearlessness. It is the colour of life, charity, and love.

The white symbolizes nobility, purity, justice, generosity, and indicates the climatic features of Siberia.

The wavy azure (blue) post symbolizes the Irtysh River, the main waterway of the oblast. Allegorically, the blue reflects beauty, majesty, and gentleness.

Flag Redesigns [ ]

• 2 Gallery of flags of dependent territories
• 3 Flags of country subdivisions