Bachelor of Science in Biomedical Engineering: Medical Imaging Track - STEM Designated
Chicago, USA
DURATION
132 up to 133 Hours
LANGUAGES
English
PACE
Full time
APPLICATION DEADLINE
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EARLIEST START DATE
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STUDY FORMAT
On-Campus
Key Summary
Scholarships
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Introduction
This field combines knowledge of unique physical properties of electromagnetic and acoustic energy with high-speed electronic data processing, signal analysis, and rapid display to generate an image of a body part or, more recently, of a bodily function. Often, these images can be obtained with minimal or completely noninvasive procedures, making them less painful and more readily repeatable than invasive techniques. Moreover, many of the devices require no ionizing radiation doses, thereby lessening the danger of secondary radiation effects on the patient. The students learn the theoretical bases underlying the common forms of medical imaging, such as magnetic resonance imaging (MRI), computerized axial tomography scanning (CAT-scan), and positron emission tomography (PET), and the limitations and the applicability of such techniques.
This Biomedical Engineering degree program is accredited by the Engineering Accreditation Commission of ABET Inc.
Program Overview
Learn the theoretical bases underlying the common forms of medical imaging, such as magnetic resonance imaging (MRI), computerized axial tomography scanning (CAT-scan), and positron emission tomography (PET), and the limitations and the applicability of such techniques.
Why Illinois Tech is one of the best value universities in the country
As an Illinois Tech student, you’ll automatically be considered for our university’s generous institutional scholarships. On average, this adds up to a savings of $107,472 on tuition and housing for every student during your four years at Illinois Tech ($134,340 for five years, based on fall 2021 figures).
We’re committed to dramatically reducing the cost of your degree, so you can focus on learning at one of the most dynamic and innovation-driven universities in the country.
Want some more great reasons?
- On top of our institutional scholarship, on average, Illinois Tech awards our students an additional $34,412 each in need-based tuition aid over four years ($43,015 for five years). (among FAFSA filers, fall 2021)
- We’re the #44 Best Value School in the nation (U.S. News & World Report)
- 98% of our students receive some form of financial aid
- The mean starting salary of our undergraduates is $63,938
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Curriculum
The undergraduate biomedical medical imaging engineering curriculum will prepare students to understand engineering science, analysis, and design within the context of biology and medicine. Students will examine such fundamental areas as imaging modalities, including X-ray, CAT-scan, and MRI for a deeper understanding of the development and applications of medical imaging.
Required Courses
Biomedical Engineering Core Requirements ---- ---- (27)
- BME 100 ---- ---- Introduction to the Profession ---- ---- 2
- BME 200 ---- ---- BME Computer Applications ---- ---- 2
- BME 310 ---- ---- Biomaterials ---- ---- 3
- BME 315 ---- ---- Instrumentation Laboratory ---- ---- 1
- BME 325 ---- ---- Bioelectronics Laboratory ---- ---- 1
- BME 405 ---- ---- Physiology Laboratory ---- ---- 1
- BME 419 ---- ---- Introduction Design Concepts in BME ---- ---- 2
- BME 420 ---- ---- Design Concepts in BME ---- ---- 3
- BME 422 ---- ---- Math Methods for Biomedical Engineers ---- ---- 3
- BME 433 ---- ---- BME Applications of Statistics ---- ---- 3
- BME 453 ---- ---- Quantitative Physiology ---- ---- 3
- ECE 308 ---- ---- Signals Systems ---- ---- 3
Medical Imaging Requirements ---- ---- (40-41)
- CS 104 ---- ---- Introduction to Computer Programing for Engineers ---- ---- 2
- CS 201 ---- ---- Accelerated Intro to Computer Science ---- ---- 4
- ECE 211 ---- ---- Circuit Analysis I ---- ---- 3
- ECE 213 ---- ---- Circuit Analysis II ---- ---- 4
- ECE 437 ---- ---- Digital Signal Processing I1 ---- ---- 3
- ECE 481 ---- ---- Image Processing ---- ---- 3
- BME 309 ---- ---- Biomedical Imaging ---- ---- 3
- BME 438 ---- ---- Neuroimaging ---- ---- 3
- BME 443 ---- ---- Biomedical Instruments and Electronics ---- ---- 3
- BME 445 ---- ---- Quantitative Neural Function ---- ---- 3
- MATH 333 ---- ---- Matrix Algorithm & Complex Variables ---- ---- 3-4
or
- CHEM 237 ---- ---- Organic Chemistry I ---- ---- 3-4
- PHYS 224 ---- ---- General Physics III for Engineers ---- ---- 3
or
- CHEM 239 ---- ---- Organic Chemistry ---- ---- II
Select one BME elective 2 3
Mathematics Requirements (18)
- MATH 151 ---- ---- Calculus I ---- ---- 5
- MATH 152 ---- ---- Calculus II ---- ---- 5
- MATH 251 ---- ---- Multivariate & Vector Calculus ---- ---- 4
- MATH 252 ---- ---- Introduction to Differential Equations ---- ---- 4
Physics Requirements (8)
- PHYS 123 ---- ---- General Physics I: Mechanics ---- ---- 4
- PHYS 221 ---- ---- General Physics II: Electricity and Magnetism ---- ---- 4
Chemistry Requirements (8)
- CHEM 124 ---- ---- Principle of Chemistry I with Lab ---- ---- 4
- CHEM 125 ---- ---- Principle of Chemistry II with Lab ---- ---- 4
Biology Requirements (4)
- BIOL 115 ---- ---- Human Biology ---- ---- 3
- BIOL 117 ---- ---- Human Biology Lab ---- ---- 1
Interprofessional Projects (IPRO) ---- ---- (6)
See Illinois Tech Core Curriculum, section E ---- ---- 6
Humanities and Social Science Requirements ---- ---- (21)
See Illinois Tech Core Curriculum, sections B and C ---- ---- 21
Total Credit Hours ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- 132-133
1A BME elective may be substituted for ECE 437.
2BME elective must be chosen from the approved list of 300+ level engineering courses in BME, ECE, CHE, MMAE, CAE, or CS. ENGR 497 will apply.
Career Opportunities
Our biomedical engineering degree program with a medical imaging track will prepare you for such careers as:
- Biomedical engineer
- Rehabilitation engineer
- Clinical engineer
- Bioengineering research