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 secondarily 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), positron emission tomography (PET), and the limitations and the applicability of such techniques.
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), positron emission tomography (PET), and the limitations and the applicability of such techniques.
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
*Price shown is for indicative purposes, please
January 2025
Armour College of Engineering
10 West 33rd Street,
Perlstein Hall, Suite 224,
CHICAGO,
Illinois,
60616, United States
First-year applicants are currently enrolled in secondary school or have completed secondary school and have not attended an institute of higher education outside of their secondary school experience.
This includes students who have taken A-levels or studied in an Advanced Placement (AP) or International Baccalaureate (IB) curriculum, as long as they have not completed university coursework. Sometimes these students are also referred to as freshmen, regardless of their class standing upon entering the university.
Students engaged in a college preparatory or general education curriculum generally make good candidates for Illinois Tech. Team will take a holistic approach to reviewing your application, taking various factors into account such as high school performance, essays, choice of major, and test scores (optional) to make an admission decision and determine your optimal pathway to achieving your goals.
Recommended Coursework for Competitive High School Applicants: Mathematics: Three to four years; Science: Three years; English: Four years; Social Science: Three years; Second Language: Not required.
English Proficiency Requirement:
TOEFL iBT: 80 or above (20 minimum in all bands)
IELTS: 6.5 or above (6.0 minimum in all bands)
Application deadline: February 1 for fall (June 1 (for international students living in the U.S. only)); November 15 for spring.
*There may be different IELTS requirements depending on your chosen course.
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