sign in sign up
<<
Home , Biomedical engineering

BIOMEDICAL DEPARTMENT MEDICAL ENGINEERING UNDERGRADUATE CURRICULUM 2014-15 (as of 5/10/13) The Medical Engineering Program is an option for HPME student only. This program is not accredited by the Engineering Accreditation Commission of ABET, http://www.abet.org. However, our Biomedical Engineering Program is accredited by this organization.

Students entering this program are expected to have advanced work in high school such that they can be placed into MATH 230 and CHEM 171, or higher. All courses must be passed with a C grade or higher, and no courses within the 48 required for the degree may be taken P/N without approval.

I. MATHEMATICS (4 courses) AP placement-Math 220, 224 MATH 230 Calculus MATH 234 Multiple Integration and Vector Calculus

II. BASIC SCIENCES (4 courses) PHYSICS 135-2, 3 General Physics CHEM 171, 172 Accelerated Chemistry

III. ENGINEERING ANALYSIS (4 courses) GEN ENG 205-1 Computational Methods and Linear Algebra GEN ENG 205-2 Linear Algebra and GEN ENG 205-3 Dynamic System Modeling GEN ENG 205-4 Differential Equations

IV. ENGINEERING DESIGN AND COMMUNICATION (3 courses) Speech 102, or 103 or Taken at IDEA 106-1, 2 Engineering Design and Communication (0.5 each) plus English 106-1,2 (0.5 each).

V. BASIC ENGINEERING (5 courses) A. - 1 course listed from those below BMD_ENG 250 Thermodynamics CHEM 342-1 Thermodynamics MECH ENG 220 Thermodynamics I

B. Fluids and Solids - 2 courses as specified below BMD_ENG 271 Introduction to and BMD_ENG 270 or MECH ENG 241 Fluid Mechanics I

C. Material Science - 1 course listed from those below MAT SCI 201 Principles of the Properties of Materials 1 MAT SCI 301 Chemical Aspects of Engineering Materials

D. Probability, Statistics, and Quality Control - 1 course listed from those below BMD_ENG 220 Introduction to Biostatistics IEMS 201 Introduction to Statistics IEMS 303 Statistics I MECH ENG 359

VI. SOCIAL SCIENCES /H UMANITIES THEME (7 courses) 5 courses at Evanston, 2 at Medical School

VII. MAJOR PROGRAM - PART I A. Chemistry CHEM 210-1, 2, 3 Organic Chemistry

B. BIOL SCI 215, 216, 218, 220, 221, 222

C. Engineering BMD_ENG 101 Introduction to Biomedical Engineering (zero credit seminar) BMD_ENG 305 Biomedical Signals Analysis BMD_ENG 306 Biomedical Systems Analysis BMD_ENG 307 Quantitative Experimentation and Design BMD_ENG 350 Transport Fundamentals MECH ENG 333 (or DSGN 298 and 398)

D. Tracks Students are required to take two courses from Category A and one courses from Category B. None of the Bio courses specified above can count toward these 3 courses. Three additional courses must be taken.

Category A BME 317 BME 333 BME 346 BME 371 BME 325 BME 343 or BME 349 BME 377 MSE 370* BME 327 BME 344 BME 366

Category B Bio 215 BME 344 ChBE 361 ESAM 346 Bio 216 BME 346 ChBE 379 ESAM 370-1 Bio 218 BME 349 DSGN 360 IEMS 385 BME 314 BME 359 EECS 230 ME 315 BME 315 BME 365 EECS 302 ME 333 BME 317 BME 366 EECS 395 (Sahakian) ME 341

2 BME 323 BME 371 EECS 332 ME 362 BME 325 BME 377 EECS 360 ME 365 BME 327 BME 395 (Wu) EECS 379 ME 385 BME 333 BME 395 EECS 382 ME 389 (Glucksberg) BME 343 or MSE CIV ENG 327 EECS 395 (Kao) MSE 360 370

*BME 343 and MSE 370 cover the same material and cannot both be counted

Students who seek depth in one particular area may find the guidelines below helpful in selecting their courses.

Biological Mechanics and Rehabilitation Category A Category B BME 371 BME 343 or 344 EECS 360 ME 341 BME 366 BME 365 ME 315 BME 377 ME 333

Biomaterials and Regenerative Category A Category B BME 343 or 344 Bio 215** BME 343 or 344 ChBE 361 BME 346 or 349 Bio 216** BME 346 or 349 ChBE 379 Bio 218 BME 359 ME 385 BME 314 BME 371 MSE 370* BME 315 BME 377 BME 317 BME 395 (Wu)

Imaging and Biophotonics Category A Category B BME 325 BME 323 EECS 302 EECS 382 BME 327 or 333 BME 327 EECS 328 EECS 395 (Sahakian) BME 333 EECS 332 MAT SCI 360 BME 495 EECS 360 PHY 357 EECS 230 EECS 379

3

VIII. MAJOR PROGRAM - PART II

Three science courses from the first two years of Medical School.

IX. FREE ELECTIVES

Two courses from the first two years of Medical School. AP placement - Chemistry

Total number of courses for the BS degree: 48

1 Biomedical Engineering Track Courses Students are required to take two courses from Category A and two courses from Category B.

Category Course Course Name Prerequisites Add’l Info Biomedical Engineering B BMD ENG 314 Models in and junior standing recommended Applications of to junior standing recommended B BMD ENG 315 Immunochemistry BIOL SCI 210-2; CHEM 210-1; Biochemical Sensors A BMD ENG 317 PHYSICS 135-2,3 B BMD ENG 323 Visual Science PHYSICS 135-2 PHYSICS 135-3 or A BMD ENG 325 Introduction to equivalent A BMD ENG 327 Magnetic Resonance Imaging PHYSICS 135-3 A BMD ENG 333 Modern Optical Microscopy and Imaging Can not be MAT SCI 201 or 301, A BMD ENG 343 and Medical Devices used with senior MAT SCI 370 A BMD ENG 344 Biological Performance of Materials MAT SCI 201 BIOL SCI 210-2 or A BMD ENG 346 CHEM ENG 375; GEN ENG 205-3 A BMD ENG 349 Bioregenerative Engineering BIOL SCI 210-2 BIOL SCI 210-2 and BMD ENG 349; may be B BMD ENG 359 Regenerative Engineering Laboratory taken concurrently with BMD ENG 349 Human Limbs and Their Artificial B BMD ENG 365 Replacements MECH ENG 202, BMD A BMD ENG 366 Biomechanics of Movement ENG 271, or consent of instructor GEN ENG 205-1,2; A BMD ENG 371 Mechanics of Biological Tissues BMD ENG 271 BMD ENG 270 or A BMD ENG 377 Intermediate Fluid Mechanics in Engineering and Biology consent of instructor BMD ENG 395- B Engineering Design of Therapeutic Antibodies 0 20 BMD ENG 395- B Medical Devices, Disease, and Global 0 21 BMD ENG 495- B Advanced Physical and Applied Optics 0 20 Biological Sciences B BIOL SCI 215 Genetics and Molecular Biology MATH 220; CHEM 102 or 172 Only one of B BIOL SCI 216 Biology MATH 224; CHEM 103 or 172 these courses can be counted BIOL SCI 216; MATH 224; Biochemistry B BIOL SCI 218 CHEM 210-1 toward the track CHEM ENG 211 or other B CHEM ENG 361 Introduction to Polymers thermodynamics course; CHEM 210-1 1 Computational Biology: Principles and

B CHEM ENG 379 Applications Civil and Environmental Engineering B CIV ENV 327 Finite Element Methods in Mechanics Manufacturing and Design Engineering B DSGN 360 Design Competition and Computer Science B EECS 230 Programming for Computer GEN ENG 205-1,2 B EECS 302 Probabilistic Systems and Random Signals MATH 234 GEN ENG 205-1,2,3; MATH Numerical Methods for Engineers B EECS 328 220, 224, 230 EECS 311; IEMS 202; MATH Digital Image Analysis B EECS 332 240 B EECS 360 Introduction to Feedback Systems EECS 222 B EECS 379 Lasers and Coherent Optics EECS 222, 224 EECS 222 and 224 or consent of Photonic Information Processing B EECS 382 instructor B EECS 395-0 27 B EECS 395-0 23 Cardiovascular Instrumentation Engineering Sciences and Applied Mathematics MATH 234, 240, and 250 or GEN ENG 205-4; PHYSICS 135-1,2 or Modeling and Computation in Science and equivalent; familiarity with a B ES APPM 346 Engineering programming language; or consent of instructor B ES APPM 370-1 Introduction to Computational Neuroscience and Management Sciences B IEMS 385 Introduction to Health Systems Management IEMS 303, 313 and Engineering B MAT SCI 318 Materials Selection MAT SCI 201 MAT SCI 301; PHYSICS 135-2,3 Introduction to Electron Microscopy B MAT SCI 360 or equivalent Can not be A MAT SCI 370 Biomaterials used with BME 343 MAT SCI 351-1 or consent of Nanomaterials B MAT SCI 376 instructor B MECH ENG 315 Theory of Machines – Design of Elements MAT SCI 201; CIV ENV 216 MECH ENG 233, EECS 221, or Introduction to Mechatronics B MECH ENG 333 consent of instructor Senior standing or consent of Computational Methods for Engineering Design B MECH ENG 341 instructor MECH ENG 262 or CIV ENV Stress Analysis B MECH ENG 362 216 MECH ENG 262, MATH 234, or Finite Elements for Stress Analysis B MECH ENG 365 CIV ENV 216 B MECH ENG 385 MATH 230 or consent of Molecular Machines in Biology B MECH ENG 389 instructor B MECH ENG 390 Introduction to Dynamic Systems GEN ENG 205-4 Physics and Astronomy B PHYSICS 357 Laboratory Consent of instructor

2