M.A. in Art History
The University of Illinois at Chicago (UIC) offers a Master of Arts (M.A.) program in A...
M.S. Biomedical Engineering
Chicago, Illinois
INTAKE: Jan & Aug
Program Overview
The M.S. in Biomedical Engineering at UIC focuses on the application of engineering principles and techniques to solve challenges in healthcare and medicine. It equips students with the knowledge and skills necessary to contribute to the development and advancement of biomedical technologies, medical devices, and therapeutic solutions. The program is STEM-designated, indicating its alignment with the fields of Science, Technology, Engineering, and Mathematics.
Curriculum:
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Biomedical Instrumentation: Students study the design, development, and implementation of medical devices and instruments. They learn about sensors, imaging systems, diagnostic tools, and wearable technologies used in healthcare settings. The curriculum emphasizes the integration of engineering principles with medical applications.
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Biomaterials and Tissue Engineering: This coursework focuses on the materials used in medical devices and implants, as well as their interaction with biological systems. Students explore biomaterials selection, biocompatibility, and tissue engineering approaches to regenerate or replace damaged tissues. They learn about the design and fabrication of scaffolds, drug delivery systems, and artificial organs.
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Biomechanics: Students delve into the study of human movement, mechanics of biological systems, and the analysis of forces acting on the human body. They explore topics such as musculoskeletal biomechanics, cardiovascular mechanics, and computational modeling of biological systems. The curriculum emphasizes the application of biomechanical principles to improve medical treatments and interventions.
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Medical Imaging: This coursework focuses on various imaging modalities used in medical diagnostics, such as X-ray, ultrasound, magnetic resonance imaging (MRI), and positron emission tomography (PET). Students learn about image acquisition, processing, and analysis techniques. They explore the application of imaging technologies in disease diagnosis, treatment planning, and image-guided interventions.
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Biomedical Data Analysis: Students gain skills in analyzing and interpreting biomedical data, including physiological signals, genetic information, and medical images. They learn statistical techniques, machine learning algorithms, and data visualization methods for extracting meaningful insights from large datasets. The curriculum emphasizes the use of data analysis to enhance diagnostics, treatment monitoring, and personalized medicine.
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Regulatory and Ethical Considerations: Students explore the regulatory framework and ethical considerations related to biomedical engineering. They learn about the FDA approval process for medical devices, ethical guidelines for human subjects research, and patient privacy and data security. The curriculum emphasizes the importance of complying with regulatory standards and maintaining ethical practices in the field.
Location
Chicago, Illinois
Score
IELTS 6.5
Tuition Fee
USD 34252
Application Fees : Waiver
Postgraduate Programs:
- Academic Qualifications: International students applying for postgraduate programs, such as master's or doctoral degrees, must hold a bachelor's degree or its equivalent from an accredited institution. The minimum academic requirement is a score of 60% or above in the qualifying examination.
- English Language Proficiency: The required scores are as follows:
- IELTS: A minimum overall band score of 6.5 is required, with no individual score below 6.0.
- TOEFL: A minimum score of 80 is required on the internet-based test (iBT).
- Graduate Entrance Exams: As a general guideline, a GRE score of 305 is required.
Scholarships for International Students at the University of Illinois at Chicago (UIC):
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UIC Global Scholarship: The UIC Global Scholarship is available for international undergraduate and graduate students who demonstrate exceptional academic achievement and contribute to the diversity of the university. The scholarship provides partial tuition waivers to recipients.
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Chancellor's Award Program: The Chancellor's Award Program is a merit-based scholarship offered to incoming undergraduate students at UIC. International students with outstanding academic records and achievements are eligible to apply for this competitive scholarship.
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UIC Distinguished International Merit Scholarships: The UIC Distinguished International Merit Scholarships are awarded to exceptional international undergraduate students who have demonstrated academic excellence and leadership potential. These scholarships cover a portion of the tuition fees.
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UIC International Tuition Waiver: International graduate students at UIC may be eligible for the International Tuition Waiver, which provides a reduction in tuition fees. The waiver is awarded based on academic merit and availability of funds.
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College-Specific Scholarships: UIC's colleges and departments offer a variety of scholarships for international students within specific academic disciplines. These scholarships are often based on academic achievement, leadership qualities, and specific program requirements. Students should check with their respective college or department for available scholarship opportunities.
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External Scholarships: UIC encourages international students to explore external scholarship opportunities from governmental and non-governmental organizations, both in their home countries and in the United States. These scholarships may be specific to fields of study, nationalities, or other criteria. The Office of Special Scholarship Programs at UIC can provide guidance and resources for finding external scholarships.
It is important to note that scholarship availability, criteria, and application processes may vary each year.
Graduates of the M.S. in Biomedical Engineering program at UIC have various career opportunities in the biomedical industry, healthcare institutions, research organizations, and government agencies.
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Medical Device Engineer: Work in the design, development, and testing of medical devices. They contribute to the creation of innovative technologies that improve patient care and outcomes. They may specialize in areas such as imaging systems, prosthetics, implants, or rehabilitation devices.
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Biomedical Researcher: Contribute to research projects focused on biomedical engineering, ranging from basic science to applied research. They work on interdisciplinary teams to investigate new therapies, develop novel technologies, and advance knowledge in the field.
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Biotechnology Specialist: Contribute to the development and production of biotechnological products and therapies. They may work in companies involved in gene therapy, regenerative medicine, or pharmaceuticals, applying engineering principles to enhance processes and product quality.
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Clinical Engineer: Collaborate with healthcare professionals to integrate medical technologies into clinical settings. They provide technical expertise, troubleshoot equipment, and ensure proper functioning and safety of medical devices in hospitals or healthcare facilities.
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Product Manager: Work in the management and marketing of biomedical products. They coordinate product development, conduct market research, define marketing strategies, and collaborate with cross-functional teams to ensure successful product launches.
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Research and Development Engineer: Contribute to research and development efforts in biomedical engineering. They design experiments, conduct data analysis, and contribute to the advancement of biomedical technologies and therapies.
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Regulatory Affairs Specialist: Ensure compliance with regulatory requirements for medical devices and technologies. They work with regulatory agencies, manage documentation, and facilitate the approval process for new medical devices or modifications to existing ones.
