BME Non-Thesis MS Program Requirements Semester Version Approved, rev by faculty WI2012; updated SP2012; AU2014

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1 BME Non-Thesis MS Program Requirements Semester Version Approved, rev by faculty WI2012; updated SP2012; AU2014 Core Courses - Required of all MS & PhD students Credits Scientific Methods in BME BME BME Seminar (2 semesters) BME Graduate Research Design ChBE 5779 or Statistics or 4 Graduate Research Ethics BME Graduate Physiology PhysioCB 6101 or (required if student has not previously taken a physiology course) OR Graduate Anatomy ANAT (if student has taken at least 1qtr/sem physiology course) Total credit hours BME Graduate Course Requirement 1. Students are required to take 4 fundamental BME graduate courses (12 semester credit hours) from the following list or subject to BMEGSC approval, students must take at least 2 OSU BME fundamental courses and may take up to 2 non-bme, BMEtype OSU courses, and no more than 1 non-osu BME course, by petition. Students must work with their faculty academic/research advisor to determine the best courses that will prepare them for their goals. More importantly, the faculty academic/research advisor must approve courses used to satisfy this requirement. If the faculty academic/research advisor does not approve, he/she will not sign the student s program of study. BioImaging: BME 5110 Biomedical Microscopic Imaging BME 5120 Biomedical Optics BME 5177 Biomedical AFM BME 5186 Biomedical Ultrasound BME 6113 Magnetic Res Spectro & Imaging I or BioMaterials: BioMechanics & BioTransport: M,C, & T Eng: BME 5310 Advanced Biomaterials BME 5353 Hard-Tissue Biomaterials BME 5210 Advanced Biological Transport BME 5421 Tissue Mechanics BME 5430 Finite Element Applications in BME BME 5470 Cellular Mechanics BME 5475 Biofluid Dynamics of Phys Systems BME 5510 Advanced Tissue Engineering BME 5520 Cell Engineering BME 5420 Mechanobiology BME 5580 Excitable Cell Engineering

2 Micro / Nano: Devices: BME 5610 Biomedical Microdevices BME 5635 Cellular Nanotechnology BME 5661 Biomedical Nanotechnology I BME 5662 Advanced Biomed Nanotechnology II BME 5663 Intro to Microfluidics and Nanofluidics BME 5667 BioMEMS Microfabrication BME 5668 Biomedical Microtransducers BME 5639 Medical Device Design BME 5771 Bioinstrumentation Other BME courses: BME 5001 Cardiovascular Bioengineering BME 7114 Magnetic Res Spectro & Imaging II 2. Students must take at least two additional graduate elective courses (6 semester credit hours) from Appendix A. Note that any course used to satisfy requirement #1 cannot be used to satisfy the graduate elective course requirement. All graduate electives must be letter graded. In addition, all graduate electives must be approved by the student s faculty academic/research advisor as indicated by the advisor s signature on the student s program of study. 3. Students must take at least one free elective courses (2 or 3 semester credits) to meet the 30 semester credit hour total. Free electives can be in Engineering Sciences, Life Sciences or Business/Technology Commercialization. No more than 1 free elective can be S/U graded. All free electives must be approved by the student s faculty academic/research advisor as indicated by the advisor s signature on the student s program of study. 4. Elective Restrictions: a. 3 of the 9 credits used to satisfy requirements #2 and #3 (i.e. graduate and free electives) must be an advanced math course (Math 5000 or above). Students may petition the Graduate Studies Committee to have a non- Math course satisfy this requirement. b. 3 of the 9 credits used to satisfy requirements #2 and #3 (i.e. graduate and free electives) must be in the Engineering Sciences. Courses that do not count towards this Engineering Science requirement are noted by asterisks (*) in Appendix A. In addition, all courses listed in the Life Science section do not count towards Engineering Sciences. If the course is not listed in Appendix A, the student must petition the Graduate Studies Committee to consider the course as Engineering Sciences. Total cr hrs Program Approval A GSC-reviewed Program of Study must be on file with the Graduate Studies Office before the end of Spring term (or the student s second term of enrollment). MS Committee Approval The Program cannot be reviewed by GSC without a proposed MS Committee. The MS Committee will consist of at least 2 faculty members, the faculty academic/research advisor and one additional member, with M or P graduate faculty 2

3 status (at least one being a departmental BME core faculty member). A GSCreviewed MS Committee must be on file with the Graduate Studies Office before the end of Spring term (or the student s second term of enrollment). Culminating Experience In addition to the completion of the course work, a non-thesis Master s student will be required to arrange and complete a 12-hour culminating experience involving the application of biomedical engineering. This could involve an internship or practicum in an industrial setting, a mentored patient-contact experience, a community service experience, or some similar experience. The objective of this experience should be to experience BME in situ. Following the completion of this culminating experience, a written Master s Exam consisting of a word written document explaining the experience and its relevance to the field must be submitted. An oral presentation discussing the experience may also be included. This experience, written project, and Master s Exam must be coordinated and completed by the student in accordance with published Graduate School Master s Exam deadlines! Total Program Requirements Total course requirement: 30 semester credit course hours Minimum Graduation Requirements Completion of 30 course hours as described above with a minimum GPA of 3.00 Successful completion of the non-thesis final project and MS Exam Form signed off by the faculty advisor and one additional approved MS committee member, submitted to Graduate School by published university deadlines. Administration - Students & advisors may jointly petition GSC for waivers of any of the above requirements. - These petitions will be considered at convened GSC meetings which will occur at least every other month. Last minute petitions may not be reviewed. - Changes to an approved Program or Committee must be reviewed by the GSC at least one full semester before an Application to Graduate is filed. - Applications to Graduate will not be signed unless the student s final GSC-approved Program and Committees are on file in the Graduate Office and most other graduation requirements are met. Graduation procedures can be reviewed at All forms should be submitted to the BME graduate studies office for audit one full week in advance of the Graduate School deadline. No forms will be signed by the Chair of the Graduate Studies Committee until a graduation audit has been completed. 3

4 BME Non-Thesis Masters program SAMPLE program YEAR FALL SPRING MAY / SUMMER Sci Methods BME... 1 BME Fundamental # Research Ethics... 2 BME Fundamental # BME Seminar... 0 Grad Elective # Grad Elective # Free Elective... 3 TOTAL = 6 1 Physiology/Anatomy BME Seminar... 1 BME Fundamental # BME Fundamental # Research Design 3 TOTAL =13 TOTAL = Option of doing May/Summer courses here Total Hours = 30 [at least 30 course hours] 4

5 APPENDIX A: List of approved Graduate Elective courses in each domain Note: Courses with an *asterisk do not count as Engineering Sciences. Advanced Mathematics *MATH 5001 and above All math course 5001 and above may be used to satisfy the math requirement pending approval of the student s PhD research advisor. BioImaging: BME 5110 BME 611 Biomedical Microscopic Imaging BME 5120 BME 612 Biomedical Optics BME 5177 Biomedical Atomic Force Microscopy BME 5186 BME 716 Biomedical Ultrasound BME 6113 BME 813 Magnetic Res Spectro & Imaging I BME 7114 BME 814 Magnetic Res Spectro & Imaging II *BMI 7820 *BMI 820 Biol & Medical Image Analysis CSE 5542 CSE 781 3D Image Generation CSE 5545 CSE 782 Advanced 3D Image Generation ECE 5200 ECE 600 Intro to Digital Signal Processing ECE 6200 ECE 700 Digital Signal Processing ECE 5206 ECE 706 Medical Imaging ECE 5460 ECE 707 Digital Image Processing ECE 5012 ECE 717 Integrated Optics BioMaterials: BME 5310 BME 631 Advanced Biomaterials BME 5421 BME 641 Tissue Mechanics BME 5353 BME 733 Hard-Tissue Biomaterials CHBE 5774 CHBE 774 Polymer Membranes CHBE 5775 CHBE 775 Rheology of Fluids ME 7040 ME 740 Elasticity ME 5144 ME 744 Eng Fracture Mechanics ME 7163 ME 763 Adv Strength of Mat for Design ME 7506 ME 806 Viscous Flow of Fluids MSE 6605 MSE 605 Principles of Materials Science MSE 5641 MSE 642 & 643 Structure-Property Relationships of Polymers MSE 5711 MSE 644 Structure-Properties of Composite Matls MSE 5611 MSE 645 & 646 Materials in Medicine MSE 5571 MSE 673 Electroceramics 5

6 MSE 5532 MSE 679 Electronic Materials Lab MSE 6715 MSE 715 Principles of Characterization of Matls MSE 6756 MSE 756 Computational Materials Modeling MSE 6765 MSE 765 Mech Behavior of Materials PHYS 8301 PHYS 822 Elasticity and Fluid Materials BioMechanics & BioTransport: *ANAT 6900 *ANAT 712 Human Anatomy BME 5210 BME 621 Advanced Biological Transport BME 5420 BME 642 Mechanobiology BME 5421 BME 641 Tissue Mechanics BME 5430 BME 643 Finite Element Applications in BME BME 5470 BME 740 Cellular Mechanics BME 5663 BME 763 Intro to Microfluidics and Nanofluidics CHBE 5733 CHBE 733 Novel Separation Processes CHBE 5765 CHBE 765 Principles of Biochemical Eng CHBE 5775 CHBE 775 Rheology of Fluids ISE 7610 ISE Adv Topics: Spine Biomechanics ISE 7620 ISE Adv Topics: Upper Extremity Biomech ISE 7630 ISE Adv Topics: Biomech, Musculoskeletal ME 7701 ME 628 Experimental Methods in Movement Biomechanics ME 5139 ME 639 Applied Finite Element Method ME 6700 ME 687 Intro to Musculoskeletal Biomechanics ME 6505 ME 705 Fund Concepts in Fluid Mechanics ME 7230 ME 733 Adv Engineering Dynamics ME 7040 ME 740 Elasticity ME 7100 ME 743 Intro to Continuum Mech ME 5144 ME 744 Eng Fracture Mechanics ME 7163 ME 763 Adv Strength of Materials for Design ME 5068 ME 768 Intro to Finite Element Methods ME8702 ME 787 Neuromuscular Biomechanics ME 7506 ME 806 Viscous Flow of Fluids ME 8038 ME 838 Adv Topics in Finite Element Methods MSE 5611 MSE 645 & 646 Materials in Medicine MSE 6756 MSE 765 Mech Behavior of Materials *PHARM *PHARM 621 Drug Delivery I 6210 *PHARM *PHARM 622 Drug Delivery II 6220 *PHARM *PHARM 804 Drug Transport 8040 PHYS 8301 PHYS 822 Elasticity and Fluid Mechanics 6

7 M,C, & T Eng: *ANAT 6900 *ANAT 712 Human Anatomy BME 5310 BME 631 Advanced Biomaterials BME 5510 BME 651 Tissue Engineering BME 5520 BME 652 Cellular Engineering BME 5580 Excitable Cell Engineering BME 5001 BME 701 Cardiovascular Bioengineering BME 5470 BME 740 Cellular Mechanics CHBE 5765 CHBE 765 Principles of Biochemical Eng *IBGP 7016 *IBGP Extracell Matrix & Cytoskel Human Disease *IBGP 7602 *IBGP Independent Studies in Human Histology MSE 5611 MSE 645 & 646 Materials in Medicine *PHARM *PHARM 621 Drug Delivery I 6210 *PHARM *PHARM 622 Drug Delivery II 6220 *PHARM 8040 *PHARM 804 Drug Transport Micro / Nano: BME 5610 BME 661 Biomedical Microdevices BME 5661 BME 761 Biomedical Nanotechnology I BME 5663 BME 763 Intro to Microfluidics and Nanofluidics BME 5662 BME 764 Advanced Biomed Nanotechnology II BME 5635 BME 765 Cellular Nanotechnology BME 5667 BME 767 BioMEMS Microfabrication BME 5668 BME 768 Biomedical Microtransducers *BIOCHEM &.02 *BIOCHEM 905 Advanced Biochemistry: Biomolecular NMR *BUSMHR 7530 *BUS MHR 890 Tech Entrepreneurship & Commercialization *BUSMHR *BUS MHR Technology Ventures CHBE 5777 CHBE 777 Intro to Polymer Micro/Nanoengineering *CHEM 5520 *CHEM 611 Nanochemistry *CHEM 7160 *CHEM 824 NMR Spectroscopy *EARTHSCI *EARTHSCI Scanning Electron Microscopy ECE 5025 ECE 624 Power Electronic Devices & Circuits ECE 5037 ECE 637 Solid-state Micro-electronics lab ECE 6200 ECE 700 Digital Signal Processing ECE 5460 ECE 707 Digital Image Processing ECE 6010 ECE 719 Electromagnetic Field Theory I 7

8 Devices: ECE 5530 ECE 730 Fund of Semicond for Micro- & Optoelect ECE 5131 ECE 732 Quantum Electron Devices: Lasers ECE 6001 ECE 804 Random Signal Analysis ECE 7832 ECE Special Topics In Nano Devices: Adv Voltaics ECE 7833 ECE Special Topics In Nano Devices: Organic Conducting Dev ECE 5532 ECE Special Topics In Nano Devices: Nanoscale Structures & Dev ECE 7868 ECE 874 Pattern Recognition ME 5068 ME 768 Intro to Finite Element Methods ME 5374 ME 774 Smart Materials & Intelligent Systems MSE 5761 MSE 564 Mechanical Behavior of Crystalline Solids MSE 5641 MSE 642 & 643 Structure-Property Relationships of Polymers MSE 5571 MSE 673 Electroceramics MSE 5532 MSE 679 Electronic Materials Lab MSE 6756 MSE 756 Computational Materials Modeling PHYS 8301 PHYS 822 Elasticity and Fluid Mechanics PHYS 7501 PHYS 827 Quantum Mechanics I PHYS 7502 PHYS 828 Quantum Mechanics II PHYS PHYS Magnetic Resonance Force Microscopy PHYS PHYS Scanned Probe Microscopy BME 5639 BME 679 Medical Device Design BME 5668 BME 768 Biomedical Microtransducers BME 5771 BME 771 Biomedical Instrumentation *STAT 6615 *BIOSTAT Des & Analysis of Clinical Trials 615 *BUSMHR 7530 *BUS MHR 890 Tech Entrepreneurship & Commercialization *BUSMHR *BUS MHR Technology Ventures ISE 5610 ISE 769 Ergonomics in the Product Design Process ME 5682 ME 682 Product Design Fundamentals ME 5665 ME Reliability Engineering I ME 5666 ME Reliability Engineering II Life Sciences Note: None of these courses count as Engineering Sciences: 8

9 BMI 7820 BMI 820 Biol & Medical Image Analysis DENT 8840 DENT 884 Current Issues in Oral Biology ANAT 6900 ANAT 712 Human Anatomy MOLBIOCH 6733 MOLBIOCH 733 Human Genetics MOLGEN 5607 MOLGEN 607 Cell Biology BIOCHEM &.02 BIOCHEM 905 Advanced Biochemistry: Biomolecular NMR IBGP 7016 IBGP Extracell Matrix & Cytoskel Human Disease IBGP 7602 IBGP Independent Studies in Human Histology 9 Independent Studies in the Human Cardiovascular System IBGP 7605 IBGP NEUROSC NEUROSC 723, Foundations of Neuroscience I NEUROSC 7002 NEUROSC 725 Foundations of Neuroscience II NEUROSC 7900 NEUROGSP 790 Developmental Neurobiology PHARMACY 8050 PHARMACY 805 Pharmaceutical Biotechnology PHARMCOL 5600 PHARMCOL 600 Introduction to General Pharmacology PHARMCOL 7050 PHARMCOL 705 Neurobiology of Disease PHARMCOL 5852 PHARMCOL 852 Biology of Aging PHYS THER 8610 PHYS THER 720 Advanced Orthopedic Physical Therapy PHYS THER 8650 PHYS THER 730 Advanced Neurologic Rehabilitation PHYSIO 6101 PHYSIOCB 601 Organ System Physiology I PHYSIO 6102 PHYSIOCB 602 Organ System Physiology 2 PHYSIO 8101 PHYSIOCB Advanced Cardiac Physiology PSYCH 6806 PSYCH 806, 807 Survey of Behavioral Neuroscience I PSYCH 6807 PSYCH 807, 808 Survey of Behavioral Neuroscience II RADIOLG 5680 RADIOLOGY 680 Radiation Biology VETBIOS 7721 VETBIOS 721, 722 Laboratory Animal Medicine VETBIOS 7730 VETBIOS 730 Endocrinology VETBIOS 7790 VETBIOS 790 Electrocardiography VETBIOS 7792 VETBIOS 792 Prototypical Cardiovascular Diseases VETBIOS VETBIOS 797 Advanced Comparative Electrocardiography

10 7793 VISSCI 8100 VISSCI 780, 813, 814 Advanced Topics in Vision Sci VISSCI 8010 Optics of the Eye & Specification of Visual VISSCI 801 Stimulus VISSCI 8020 VISSCI 802 Ocular Motility & Binocular Vision VISSCI 8040 VISSCI 804 Anatomy & Physiol of the Eye 10