M.S. in Biomedical Engineering
M.S. in Biomedical Engineering
The Biomedical Engineering (BME) Graduate Program prepares individuals for careers in one of the fastest growing disciplines of engineering. The program currently offers one focus area in Molecular and Cellular Systems. Future focus areas will be added as need arises and resources are secured. Instructors from a spectrum of backgrounds in biomedical engineering offer a comprehensive core curriculum comprising five courses and a seminar course. Electives are accepted from a number of courses taught in the School of Engineering, College of Arts and Sciences, College of Pharmacy, and School of Medicine. Graduates of this program will have the technological background to solve important problems in a number or areas including health care, biomedical research, biotechnology, and bioengineering.
M.S. Admission Requirements
The general admission requirements described in the Graduate Program in the Catalog apply to the Biomedical Engineering Graduate Program (BMEGP). The following additional requirements hold for the initial focus area in Molecular and Cellular Systems. They may be modified or augmented as other focus areas are added to the program. Successful applicants to the BMEGP must have a bachelor's degree in a natural science or engineering field in which they attained a sophisticated level of ability to study, model, or manipulate biological systems at the molecular or cellular level. Because of the multifaceted nature of BME research, the Admissions Committee will make admissions decisions on a case-by-case basis. The following subject areas will be used to judge the suitability of students for admission:
- Introductory Molecular and Cellular Biology
- General Chemistry and Organic Chemistry
- Calculus and Ordinary Differential Equations
- Thermodynamics
- General Physics
- Biochemistry or Biomolecular Engineering
Persons who have not passed courses in one or more of these subject areas may be admitted to the BMEGP, but may be required to take undergraduate courses to eliminate deficiencies in their background. Each case is considered individually.
Application Process
Please see the Graduate Program section of this Catalog for the general process for applying to graduate school. In addition to those requirements, successful applicants to the M.S. program in Biomedical Engineering must submit the following directly to the BMEGP Program Office for review by the Admissions Committee:
- letter of intent on why the BMEGP is of interest
- three confidential letters of recommendation
- GRE entrance examination scores
M.S. Degree Completion Requirements
The general requirements for this degree are identical to those specified in the Graduate Program section of this catalog. (Please see the Graduate Program section for detailed requirements and procedures common to all UNM graduate programs.) In addition the the general requirement specified in the Graduate program, graduates must complete the core and elective BME M.S. curriculum specified below. The BMEGP offers both Plan I (thesis) and Plan II (non-thesis) options for completion of an M.S. in Biomedical Engineering. BME 567 (Biomedical Engineering Seminar) should be taken every semester, but a student can only apply a maximum of 4 credit hours of this seminar toward their course degree requirements.
Curriculum for Students in the BME M.S. Degree Program
Focus Area: Molecular and Cellular Systems
The following core courses are required of all Master's students in Biomedical Engineering.
| BME 517 | Applied Biology for Biomedical Engineers |
| BME 544 | Mechanics and Thermodynamics of Molecular Components in Cells |
| BME 547 | Biomedical Engineering Research Practices |
| BME 556 | Protein and Nucleic Acid Engineering |
| BME 558 | Methods of Analysis in Bioengineering |
Equivalent graduate-level courses taken at other institutions may be used to satisfy these requirements. The BMEGP Graduate Advisor or the BMEGP Curriculum Committee must approve such substitutions.
For completion of the BME M.S. degree the student must complete a minimum of 6 credit hours of elective courses from the list below. (Please see the Graduate Program section for detailed requirements and procedures common to all UNM M.S.. Plan I and Plan II programs.)
Master's students may substitute electives other than those listed below as approved by the BMEGP Graduate Advisor or the BMEGP Curriculum Committee.
Engineering Electives
| CHNE/NSMS 522L | Fundamentals of Nanofluidics |
| CHNE/NSMS 530 | Surface and Interfacial Phenomena |
| CHNE/NSMS 536/436 | Biomedical Technology |
| CHNE/NSMS 538/438 | Biosensors Fundamentals and Applications |
| CHNE 504 | Nanomaterials |
| CHNE 521 | Advanced Transport Phenomena I |
| CS 529 | Machine Learning |
| CS 530 | Geometric and Probabilistic Methods in CS |
| CS 561 | Algorithms/Data Structures |
| CS 590 | Topics: Complex Adaptive Systems |
| ECE 500 | Theory of Linear Systems |
| ECE 510 | Medical Imaging |
| ECE 533 | Digital Signal Processing |
| ECE 537 | Foundations of Computing |
| ECE 539 | Digital Signal Processing |
| ECE 547/CS 547 | Neural Networks |
| ECE 561 | Engineering Electrodynamics |
| ECE 581 | Colloidal Nanocrystals for Biomedical Applications |
| ME 501 | Advanced Mechanics of Materials |
| ME 504 | Computational Mechanics |
| ME 512 | Introduction to Continuum Mechanics |
| ME 530 | Theoretical Fluid Mechanics |
| ME 571/NSMS 569 | Advanced Materials Science |
Biology/Biomedical Sciences Electives
| BIOM 509 | Principles of Neurobiology |
| BIOM 510 | Physiology |
| BIOM 514 | Immunobiology |
| BIOM 515 | Cancer Biology |
| BIOM 516 | Molecular Genetics and Genomics |
| BIOL **351 | Microbiology |
| BIOL 547 | Advanced Techniques in Light Microscopy |
| BIOC 545L | Intensive Introductory Biochemistry |
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