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Johns Hopkins Biomedical Engineering Admission Statistics

Johns Hopkins School of Medicine Graduate Programs – Admissions Information

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for the PhD in Biomedical Engineering (BME)

Program Admissions Details:

Note: up-to-date admissions requirements are maintained on the Biomedical Engineering website,

and applications are submitted through the School of Medicine’s application system.

In 2020, the BME Program admitted 56 students out of a pool of 533 applicants. More information

about the applicant pool can be found here. In August 2020, the total number of students in the

program was 266. Students in this program work on the East Baltimore campus, the Homewood

campus, the Bayview campus and at the Applied Physics Lab.

Students in this program are paid a stipend to support their living expenses (the 2020-2021 stipend is

$34,223). Tuition costs for SOM courses are covered by the School for students in this Program (i.e., not

paid by the student). Standard medical and dental benefitsfor the student are covered. Benefits for

the student’s immediate family are available at additional cost to the student. Student stipends are

subject to taxes. Students from Maryland with student loans may receive State tax benefits. More

information is available here on our Financial Aid page. The University does not provide housing,

though the housing office will provide advice.

All accepted matriculating students receive full funding (including tuition waiver, stipend, and health

insurance) during their time in the program. Applicants are encouraged (but not required) to apply for

external funding before and during their training. Information about funding opportunities for U.S.

students (including NSF GFRP and F31 grants) can be found here.

Program Details:

The application for this program is open from 9/1/2020 to 12/1/2020. In the time before the application

is open, applicants may log in and begin their applications. The application can only be submitted in the

period when the application is open.

On the application, Applicants are asked to indicate one or two research area(s) of interest from this list

below. These areas are described in detail here.

– Biomedical Data Science

– Biomedical Imaging & Instrumentation

– Computational Medicine

– Genomics & Systems Biology

– Immunoengineering

– Neuroengineering

– Translational Cell & Tissue Engineering

Our BME program offers students the strengths of one of the best medical schools in the

world, combined with exceptional engineering education and training opportunities. If you

wish to combine engineering with cutting edge research in medicine, this may be the

program for you.

Our students have the option of taking many of the same courses as the medical students,

PhD in BME – Admissions Information

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including human anatomy, molecular and cellular biology, immunology, and pharmacology.

Our students also take advanced engineering courses. Our admitted students come from

many backgrounds and majors, and not all were undergraduate engineering majors.

However, all have demonstrated a strong quantitative training, as well as sufficient

background in biology (typically at least two introductory courses). Depending on their

preferred research focus area, relevant preparation for that focus area should be evident in

their application.

The admissions are reviewed by research focus area committees, so every application is

reviewed by faculty members interested in the same research areas as the applicant. The

applicant should specify which area(s) they are interested in, and we encourage applicants

to use part of their personal statement to write about the kind of research they are

considering. The faculty in each area review and rank the applicants; the final pool of

applicants is reviewed and approved by the whole program faculty. We use a holistic review

process; for example, the median GPA is typically ~3.8, but we have no minimum GPA or

GRE thresholds for review. Don’t think that a bad grade or a tough semester stands in your

way. We review the whole application and evaluate the potential of the person that wrote

it, not just a set of numerical metrics.

Academic History & Prior Research Experience:

Applicants will need to list all colleges and universities they attended. A transcript will need to be

uploaded from each school attended. Applicants with prior research experience share information

about this including the institution and mentor, dates of participation, and any publications resulting

from the experience.

Admissions requirements:

– Official transcripts from each college or university attended. We no longer require applicants to

submit official transcripts to OGSA via mail or electronically. Applicants may upload transcripts to

the online application for review. Applicants who receive an offer or accept an offer of admission

are required to submit official transcripts to OGSA via mail or electronically to

GradAdmissions@jhmi.edu

– Previously, we have required official Graduate Record Examination (GRE) scores or MCAT scores,

which can be arranged through the Office of Graduate Affairs. As of July 2020, we are actively

reviewing this and you should look to the most up-to-date information on the BME website. The

GRE code for applying to graduate programs at the Johns Hopkins School of Medicine is 5316. The

BME PhD program does not rely heavily on the GRE exam in making admissions decisions.

Research experience, course grades, and recommendations carry more weight.

– Applicants mustsubmit a one page personal statement indicating the basis of their interest in

graduate study and their career objectives. Applicants should include a discussion of any

research experience they have had.

– Applicants must identify three people who are familiar with the applicant’s work and provide

contact info for these references. The contact info will be entered into the application, and SOM

will contact the references and ask them to submit letters of recommendation on behalf of the

applicant

Johns Hopkins Biomedical Engineering Requirements

The BME undergraduate program contains a set of “core knowledge,” defined and taught by the faculty, that future biomedical engineers should possess. The core includes courses in molecular and cellular biology, linear systems, biological control systems, modeling and simulation, thermodynamic principles in biology, and engineering analysis of systems level biology and physiology. Building on these core subjects, each student then takes a cohesive sequence of advanced engineering courses appropriate to one of seven focus areas: Biomedical Data Science; Computational Medicine; Genomics & Systems Biology; Imaging & Medical Devices; Immunoengineering; Neuroengineering; and Translational Cell & Engineering.The BS degree in biomedical engineering requires 129 credits. For an in-depth look at our requirements, please refer to the Undergraduate Advising Handbook.Basic Sciences (18 credits)

  • General Physics I and II with Labs
  • Introductory Chemistry I and II with Labs

Mathematics (20 credits)

  • Calculus I, II, III
  • Linear Algebra and Differential Equations
  • At least one additional semester of statistics (300-level or higher)

Humanities and Social Sciences (18 credits)

These courses should form a coherent program, relevant to the student’s goals, with at least one course at the 300-level or higher.Biomedical Core Knowledge (34 credits)

Building on the foundation of this core curriculum, each student is required to take a cohesive sequence of advanced engineering encompassing:

  • Biomedical Engineering and Design
  • Structural Biology of Cells
  • Structural Biology of Cells Laboratory
  • Biochemistry and Molecular Engineering
  • Statistical Physics
  • Biological Models and Simulations
  • Linear Signals and Systems
  • Nonlinear Dynamics of Biological Systems
  • Linear Systems and Controls
  • Systems Biology of the Cell
  • Biomedical Data Science
  • Biomedical Data Science Laboratory
  • Computational Medicine: Cardiology
  • Computational Medicine: Cardiology Laboratory
  • Choose two:
    • Cell and Tissue Engineering Laboratory
    • Nucleic Acid Sequencing Laboratory
    • Neuroengineering and Laboratory
    • Build an Imager
    • Immunoengineering Principles and Applications
  • Career Exploration in BME
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