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Biomedical Engineering, Ph.D.

The biomedical engineering Ph.D. program at Saint Louis Engineering will strongly focus on independent research and innovation, pursuit of academic excellence, strong industry partnerships, innovative teaching methodologies, and diversity and inclusion. These elements will collectively prepare students for successful careers and address the evolving needs of the region, nation, and world.

As part of their degrees, the students will take graduate-level courses at ū to deepen their knowledge, understanding and skills in the discipline as well as perform independent discovery or design-focused original research under the guidance of a graduate faculty member. The degree will culminate in the defense of a dissertation as well as original research publications in peer-reviewed journals and research presentations at local and national scientific conferences. This high level of scholarship will increase the department's visibility and reputation among peer institutions and will position our graduates to become leaders in their chosen fields.

Curriculum Overview

This is a 42-credit-hour program, with 30 hours of coursework and 12 hours of Dissertation Research. Full-time students typically would complete their coursework in two and a half years. Students will have a choice between a written or an oral qualifying exam, which they will take by the end of their second year in the program. They will have an oral defense of their dissertation proposal at the end of their coursework.

Fieldwork and Research Opportunities

School of Science and Engineering graduate students gain valuable experience working with both faculty and peers. Additional opportunities to publish in scientific journals and attend professional conferences prepare our graduates for careers in industry or academia.

ū’s location in a vibrant and industry-rich city means that faculty members have access to and relationships with industry professionals. The School of Science and Engineering provides many opportunities for these professionals to interact with students, share their real-world experiences, network and even collaborate on research projects. Therefore, students have access not only to top-notch faculty but to the most recent developments in industry.

The expert faculty of the School of Science and Engineering collaborate with graduate students in groundbreaking research in the following areas:

  • Biomaterials
  • Human movement
  • Drug delivery
  • Engineering education
  • Haptic and human-machine interfaces
  • Innovation and entrepreneurship
  • Biomechanics
  • Mechanotransduction
  • Neuroengineering
  • Tissue engineering and regenerative medicine

Careers

Graduates of the doctoral program seek employment in the industry, government or in an academic setting.

Admission Requirements

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Most admitted students meet the following criteria:

  • Undergraduate cumulative GPA of at least 3.00
  • A four-year undergraduate degree in Biomedical Engineering, Bioengineering, Biochemical/Biomolecular/Bioelectrical Engineering or closely related engineering and science discipline
  • Additional consideration will be prior research experience demonstrated by the applicant, which could be in the form of an earned thesis MS degree from a previous institution or an undergraduate research experience with a demonstrated research output (e.g., conference presentations, publications, etc.). Such students will be given higher consideration for acceptance into the program even though students coming directly from a BS degree with no prior research experience will also be considered if they clearly demonstrate an ability and motivation to conduct independent scientific research.
  • Acceptance decisions will be based on BME faculty expertise and lab openings such that incoming students can be successfully matched with a faculty member to conduct a research project that is in alignment with the student’s preparation, interest, and career goals.

Application Requirements

  • Application form
  • Transcript(s) from all colleges and universities attended
  • Three letters of recommendation (preferably from recent instructors or research advisors)
  • Résumé or curriculum vitae
  • Professional goal statement

Requirements for International Students

Along with the general admission requirements above, the following must be provided by prospective international students:

  • Demonstration of.
  • Proof of financial support that must include:
    • A letter of financial support from the person(s) or sponsoring agency funding the time at ū.
    • A letter from the sponsor's bank verifying that the funds are available and will be so for the duration of study at the University.
  • Academic records, in English translation, for postsecondary studies outside the United States. These must include the courses taken and/or lectures attended, practical laboratory work, the maximum and minimum grades attainable, the grades earned or the results of all end-of-term examinations, and any honors or degrees received. WES and ECE transcripts are accepted.

Review Process

Applications for the Ph.D. program will be sent to the BME Department for evaluation and an admission decision will be based on BME faculty expertise and lab openings. The goal is to ensure a successful match with a faculty member to conduct a research project that is in alignment with the student's preparation, interest, and career goals.

In cases where students come from a non-biomedical engineering background, the applications will be sent to the BME program to review and determine fit and/or pre-requisite/concurrent classes that the applicant would need to take to qualify for doctoral studies in BME.The students will receive conditional acceptance and the classes they need to take will be specified in SLATE and in the offer letter.

Tuition

Tuition Cost Per Credit
Graduate Tuition $1,370

Additional charges may apply. Other resources are listed below:

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Information on Tuition and Fees

Miscellaneous Fees

Information on Summer Tuition

Financial Support

The School of Science and Engineering offers graduate fellowship awards and assistantships each year. Assistantships provide tuition, stipend and health insurance. There are also many opportunities for students to receive funding through external research grants that are managed by individual faculty.

For more information, visit the: .

  1. Graduates will demonstrate in-depth knowledge of theories and methodologies, to address fundamental questions in their primary field of study.
  2. Graduates will engage in meaningful research within the field or explore interdisciplinary or innovative projects. Under the mentorship of an advisor, students will both design and execute research projects while developing intellectual independence; creatively synthesize broad areas of theory and scholarship to generate novel concepts and insights; demonstrate the capability to critically assess scholarly works within the discipline.
  3. Follow the principles of ethics in their field and academia. Demonstrate, throughindependent research and service, the value of their discipline to the academy and community at large. Interact productively with people from diverse backgrounds as both leaders/mentors and team members with integrity and professionalism.
  4. Students will demonstrate skills in oral and written communication, enabling them to disseminate their work effectively in their field. Students will produce original scholarly contributions in their field.
  5. Students will attend and/or present their independent research to local, regional, national, or international audiences through presentations given in a range of venues, from graduate seminars to professional meetings and/or conferences/symposia/workshops; participate in professional organizations; engage in professional activities such as teaching, internships, fellowships, grant applications.
Required Courses3
ѷ5010
Research Analysis
ѷ5040
Technical Communication in the Discipline
Foundational Courses6
Students select 6 credits from the following:
ѷ5130
Medical Imaging
ѷ5410
Tissue Engineering
ѷ5600
Quantitative Physiology I
ѷ5650
Quantitative Physiology II
ѷ5400
Tissue-Material Interfaces
ѷ5210
Human Movement Biomechanics
Electives21
Select 21 credits from the following:
5230
Introduction to Computational Fluid Dynamics
5080
Advanced Cell Biology
5430
Advanced Principles of Virology
5630
Concepts of Immunobiology
5640
Advanced Microbiology
5700
Advanced Molecular Biology
5720
Advanced Cancer Biology
ѷ4200
Biomechanics
ѷ4400
Biomaterials
ѷ5100
BioData Processing and Machine Learning
ѷ5150
Brain Computer Interface
ѷ5300
Biotransport
ѷ5320
Drug Delivery
ѷ5340
Biofluids
ѷ5420
Tissue Engineering Scaffold Fabrication Techniques
ѷ5430
Regenerative Engineering
ѷ5455
Biomaterials Characterization and Instrumentation
ѷ5850
Design of Biomedical Engineering Lab Experiments
ѷ5910
Co-op with Industry (maximum of 3 credits)
ǰѷ5915
Internship with Industry
ѷ5930
Special Topics
ѷ5970
Research Topics
ѷ5980
Graduate Reading Course
ѷ6000
Preparing Future Faculty
ѷ6930
Special Topics
ѷ6970
Research Topics
ѷ6980
Graduate Reading Course
5100
Introduction to General Linear Modeling
ᷡ5610
Biochemistry 1
ᷡ5630
Introduction to Chemical Biology and Biotechnology
䷡5153
Image Processing
ٳ5210
Programming for Health Data Scientists
ѷ5820
Technology Entrepreneurship
ѷ5902
Numerical Methods
ʴձ5350
Intro to Microscopy Techniques
ʱ۳5010
Nanoscience and Nanofabrication Frontiers
ʱ5040
Generating Evidence from Public Health Data
Dissertation Research12
Students will take a total of 12 credits over multiple semesters
ѷ6990
Dissertation Research
Total Credits42

Continuation Standards

Students must maintain a cumulative grade point average (GPA) of 3.00 in all graduate/professional courses.

A grade of C or lower for any class will require the student to retake the class and earn a grade of B or higher or take an equivalent class in its place, where the substitute class needs to be approved by the Graduate Program Coordinator. A student with a GPA below 3.0 or a grade of C in any class (even when the overall GPA is above 3.0) will be placed on academic probation. Students will be allowed 9 credit hours or 2 successive academic terms during which coursework registrations are recorded to return to good standing. Students will not be eligible to graduate or advance to candidacy while on academic probation.

Non-Course Requirements

Required Biomedical Engineering Seminar

The Biomedical Engineering Department offers a Graduate/Research seminar each fall and spring semester, which meets most weeks on Wednesdays at 3:30 PM. Graduate students are required to attend this seminar for the first 2 years of their PhD program and encouraged to attend for the remainder of their time in the program. Students are permitted to miss at most two seminar sessions each semester during the first 2 year in the program.

Program of Study Form

By the end of their first semester, each student should complete a Program of Study form listing the courses they plan to take to complete the requirements for their program. The form needs to be filed with the SSE Graduate Office and can be updated annually as needed.

The Qualifying Examination

The qualifying examination is intended to test the student's fundamental knowledge in biomedical engineering and may be taken no more than twice. If a student is not able to pass this examination after exhausting all of the allowed chances, they could be transferred to the MS degree program or choose to leave the graduate program.

There are both written and oral qualifying exam options as described in the BME graduate handbook.The intent of the written examination format is to allow doctoral students to qualify for pursuit of doctoral studies by demonstrating their PhD-level knowledge in three topics related to their research project. The intent of the oral examination format is to allow a doctoral student to qualify for pursuit of doctoral studies through evaluation of their research writings (a first/co-first author manuscript, which could be published, accepted, submitted or in preparation), and evaluation of their responses during a single oral exam conducted after review of the writings. To successfully qualify, students must demonstrate PhD-level knowledge in three identified topical areas and the research writings submitted by the student should represent significant potential for scholarly research at the doctoral level. Each topical area selected by the student for consideration in this examination format must be related to the content of the research writings submitted by the student.

The qualifying exam (in either written or oral format) must be completed by the end of the second year of the Ph.D. program. Both written and oral qualifiers need to be taken in a single day in either early summer (June) or winter (January). Students are responsible for scheduling their qualifying exam in consultation with their PhD advisor. In the case of failure for the first attempt, written feedback will be provided that can be used by the student as guidance in their second and last attempt at this examination.

Each student will choose 3 courses for their qualifying exam (for both written and oral format), where at least one of the selected topics must be from the list of foundational BME courses. The faculty conducting the Qualifying Exam will consist of the instructors of the selected courses. In the event that course instructors have changed, a student will have the option of nominating either the current or past course instructor to provide the examination (subject to approval by the BME Graduate ProgramCoordinator). Three examiners must be selected for each Qualifying exam – one per course topic. For the research writing exam format, if two courses taught by the same instructor are chosen for the exam, the instructor of those courses must nominate (subject to approval by the BME Graduate Program Coordinator) an alternate instructor to provide the exam for one of the courses. If the student’s graduate advisor is not an instructor for any of the selected courses, the advisor can be present at the oral exam, but will not be an evaluator.

The Dissertation Proposal

The examining committee for the proposal examination consists of the student’s Guidance Committee members. As part of the proposal, students are required to submit a written document that describes the research project. The document should be submitted 2 weeks prior to the proposal defense. The document should contain enough introductory material to inform the proposal examination committee about the underlying background of the project. The document should also contain additional logically arranged sections, such as sections on objectives, experimental and theoretical methods, results, conclusions, and timelines for finishing the dissertation.

The Dissertation Proposal will be presented orally in a seminar lasting 20 to 40 minutes. Following the seminar, the Guidance Committee conducts an oral examination of the student within the area of the proposed research. Students should take this examination after passing the oral qualifying examination and after all coursework has been completed (typically after 2.5 years in the program). If a student does not pass the proposal examination on their first attempt, a second and final attempt shall occur within one additional semester.

Students who pass the qualifying and dissertation proposal examinations become Ph.D. candidates. A student must be admitted to candidacy at least two full sequential semesters before the date on which the doctorate degree will be conferred.

Final Defense of the Ph.D. Dissertation

The dissertation defense is conducted by the student’s Guidance Committee. In the event that not all of the members who served on the proposal examination are available to serve on the dissertation defense committee, substitutions may be made. However, the final makeup of the dissertation defense committee must in all cases consist of at least 3 faculty members from the BME program and at least 1 person from outside the program. The minimum members required is 5.

As part of the dissertation defense, students are required to submit a written dissertation that describes the resuts from the research project. The student should consult the Formatting Guide for ū Graduate Education for details concerning the preparation and format of the Dissertation. The traditional dissertation format typically includes an introduction, a review of the literature, methodology, results, and discussion. In addition, the Department of Biomedical Engineering offers a “manuscript-style” format. This is similar to the non-traditional format described in the Office of Graduate Education’s dissertation formatting guide. If this option is used, the student will normally use the following format: Chapter 1 - Introduction; Chapter 2 - Manuscript #1; Chapter 3 - Manuscript #2; Chapter 4 - Manuscript #3; Chapter 5 - Conclusions and Future Work. With either format, the dissertation must be formatted in accordance with the regulations of Graduate Education. Once completed, the dissertation will be approved by the research mentor and a copy given to each member of the student’s Guidance Committee; the dissertation should be distributed two weeks before the public presentation (see below). The committee will evaluate the dissertation, make comments and suggest any necessary corrections or changes.

The dissertation defense will be presented orally in a public seminar lasting 30 to 45 minutes. The open forum is followed by a closed-door session, where the Guidance Committee conducts an oral examination of the student within the area of the conducted research. A 2-hour block should be reserved for the defense. The time and location of defense must be publicized two weeks in advance so that the defense can be attended by all interested persons.

The candidate may only take the final oral defense twice, and students who are not able to pass the defense in two attempts will not be awarded a doctoral degree.

Roadmaps are recommended semester-by-semester plans of study for programs and assume full-time enrollmentunless otherwise noted.

Courses and milestones designated as critical (marked with !) must be completed in the semester listed to ensure a timely graduation. Transfer credit may change the roadmap.

This roadmap should not be used in the place of regular academic advising appointments. All students are encouraged to meet with their advisor/mentor each semester. Requirements, course availability and sequencing are subject to change.

Plan of Study Grid
Year One
FallCredits
BME Foundational class 3
BME Foundational or Elective class 3
BME Seminar
Credits6
Spring
BME Foundational or Elective class 3
BME Elective class 3
BME Seminar
Credits6
Year Two
Fall
BME Electives 6
BME Seminar
Credits6
Spring
BME Electives 6
BME Seminar
PhD Qualifying Exam
Credits6
Year Three
Fall
BME Elective class 3
ѷ5010 Research Analysis 2
ѷ6990 Dissertation Research 1
Credits6
Spring
ѷ5040 Technical Communication in the Discipline 1
ѷ6990 Dissertation Research 5
Doctoral Oral Examination
Credits6
Year Four
Fall
ѷ6990 Dissertation Research 2
Credits2
Spring
ѷ6990 Dissertation Research 2
Credits2
Year Five
Fall
ѷ6990 Dissertation Research 1
Credits1
Spring
ѷ6990 Dissertation Research 1
Dissertation Defense
Credits1
Total Credits42

Program Notes

Students should finish their BME foundational coursework (six credits) by the end of year one. BME Seminar (four semesters) should be finished by the end of year two. Students should expect to take their Ph.D. qualifying examination at the end of year two, after four semesters in the program.

The doctoral oral examination (dissertation proposal) should be taken at the end of year three; upon passing the doctoral oral exam, students will become Ph.D. candidates.

For more information about any School of Science and Engineering graduate program, email ssegrad-admissions@slu.edu.