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B.S. in Biomedical Engineering

West Campus, Cincinnati, Ohio

 

INTAKE: Fall

Program Overview

The University of Cincinnati (UC) offers an exceptional Bachelor of Science (B.S.) in Biomedical Engineering program, blending cutting-edge engineering principles with a focus on healthcare applications. This STEM Designated program, accredited by the Accreditation Board for Engineering and Technology (ABET), stands at the forefront of innovation in the biomedical field. The program equips students with a robust foundation in engineering fundamentals, while specialized coursework delves into biomedical systems, medical device design, and biomaterials. Through hands-on projects, research opportunities, and collaborations with healthcare institutions, students gain practical experience. The B.S. in Biomedical Engineering at UC not only prepares graduates for success in the biomedical industry but also instills a commitment to addressing real-world healthcare challenges through engineering solutions.The B.S. in Biomedical Engineering program at UC combines academic excellence with practical experiences, producing graduates who are well-prepared to contribute to advancements in healthcare technology and make a positive impact on patient care. The STEM Designation and ABET accreditation affirm the program's commitment to providing a high-quality education that aligns with industry standards, ensuring that graduates are equipped for success in the dynamic and evolving field of biomedical engineering.

Curriculum:

  1. Interdisciplinary Curriculum: The program offers an interdisciplinary curriculum that integrates engineering principles with biological and medical sciences. Students engage in coursework covering areas such as biomechanics, tissue engineering, and medical imaging, fostering a comprehensive understanding of biomedical engineering.

  2. STEM Designation: UC's B.S. in Biomedical Engineering holds STEM Designation, emphasizing its alignment with Science, Technology, Engineering, and Mathematics disciplines. This designation reflects the program's commitment to providing students with a STEM-focused education, preparing them for careers in a rapidly evolving field.

  3. ABET Accreditation: The program is accredited by ABET, ensuring that it meets the rigorous standards set for engineering programs. ABET accreditation underscores the program's commitment to excellence in curriculum, faculty, and outcomes, providing students with a recognized and esteemed qualification.

  4. Hands-On Laboratory Experience: Students benefit from extensive hands-on laboratory experiences, where they apply theoretical knowledge to practical situations. These experiences include designing medical devices, conducting experiments, and using state-of-the-art equipment to solve real-world biomedical challenges.

  5. Research Opportunities: The program emphasizes research opportunities, allowing students to engage in cutting-edge projects under the mentorship of experienced faculty. Students contribute to advancements in areas such as regenerative medicine, medical imaging, and implantable devices.

  6. Clinical Immersion: UC fosters clinical immersion experiences, enabling students to work alongside healthcare professionals in clinical settings. This exposure provides valuable insights into the practical applications of biomedical engineering solutions and enhances students' understanding of clinical needs.

  7. Industry Partnerships: The program maintains strong partnerships with industry leaders and healthcare institutions, facilitating internships, co-op experiences, and collaborative projects. These connections offer students real-world exposure and networking opportunities in the biomedical engineering field.

  8. Professional Development: Students receive support for professional development through career services, networking events, and seminars. The program prepares graduates for successful entry into the workforce by fostering essential skills in communication, teamwork, and ethical decision-making.

  9. Capstone Design Projects: The curriculum culminates in capstone design projects, where students work in teams to address complex challenges in biomedical engineering. This hands-on, collaborative experience prepares graduates for real-world problem-solving in their future careers.

  10. Global Engagement: UC encourages global engagement, offering opportunities for international experiences, collaborations, and research initiatives. This global perspective enhances students' awareness of diverse healthcare needs and broadens their understanding of the global impact of biomedical engineering.

Pollster Education

Location

West Campus, Cincinnati, Ohio

Pollster Education

Score

IELTS: 6.5

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Tuition Fee

USD 30010

Entry requirements for international students

Application Fee: US$ 115

  1. Academic Qualifications:

    • The University of Cincinnati places a strong emphasis on academic excellence, requiring prospective students to have a minimum academic qualification of 70% or above.  
       

  2. English Language Proficiency

    • IELTS (International English Language Testing System): Overall band score of 6.5 or higher with no individual band score below 6.
    • TOEFL (Test of English as a Foreign Language): Internet-based test (iBT) score of 79 or higher.
    • PTE Academic (Pearson Test of English Academic): Minimum score of 53.
    • DET (Duolingo English Test): Minimum score of 100.
       

  3. Standardized Test Requirements: The University of Cincinnati may accept standardized test scores such as ACT,SAT for admission into an undergraduate program:

    • ACT: A minimum ACT score of 22 is accepted.
    • SAT: A minimum SAT score of 1240 is accepted.

The University of Cincinnati (UC) offers a range of scholarships to international students to support their academic journey. These scholarships recognize academic achievement, leadership potential, and contributions to the community.

  1. Global Scholarship: The Global Scholarship is a prestigious merit-based scholarship offered to incoming international undergraduate students. It provides partial tuition coverage for up to four years of study at UC. Selection is highly competitive, and students are evaluated based on their academic achievements, leadership qualities, and extracurricular involvement.

  2. UC Global Scholarship Plus: The UC Global Scholarship Plus is an enhanced scholarship program that combines the Global Scholarship with additional funding. This provides greater financial support to international undergraduate students, covering a larger portion of their tuition expenses.

  3. UC International Excellence Award: The UC International Excellence Award is a merit-based scholarship available to outstanding international undergraduate students. It recognizes academic excellence, leadership potential, and a commitment to making a positive impact. Recipients of this award receive financial support towards their tuition costs.

  4. Graduate Student Scholarships: UC offers various scholarships and assistantship opportunities to international graduate students. These scholarships may cover tuition expenses, provide stipends, or offer research or teaching assistant positions. Graduate students are encouraged to explore specific scholarships and assistantship opportunities within their respective departments or programs.

  5. Country-Specific Scholarships: UC may offer scholarships specifically tailored to students from certain countries or regions. These scholarships may be based on academic achievement, financial need, or specific criteria set by donors or sponsoring organizations. Prospective international students are advised to check with the university's financial aid office or international admissions office for country-specific scholarship opportunities.

It's important to note that scholarship availability, criteria, and application processes may vary from year to year. 

Graduates of the Bachelor of Science (B.S.) in Biomedical Engineering program at the University of Cincinnati (UC) are poised for dynamic and impactful careers at the intersection of engineering, biology, and healthcare. This program equips students with a unique skill set, preparing them to contribute to innovative solutions that address complex challenges in the biomedical field. The B.S. in Biomedical Engineering program at UC not only provides graduates with technical expertise but also instills problem-solving skills, creativity, and a commitment to improving healthcare outcomes. With a solid foundation in engineering principles and a focus on practical applications, graduates are well-prepared for diverse and rewarding careers in the rapidly advancing field of biomedical engineering.

  1. Medical Device Engineer: Graduates can pursue roles as medical device engineers, contributing to the design, development, and improvement of medical devices such as prosthetics, imaging equipment, and diagnostic tools. They work to enhance patient care and advance medical technology.

  2. Biomedical Researcher: Those interested in research can explore careers as biomedical researchers, conducting studies to improve our understanding of diseases, develop new therapies, or enhance medical imaging technologies. They may work in academic institutions, research labs, or the private sector.

  3. Clinical Engineer: Graduates may choose to become clinical engineers, working in healthcare settings to manage and optimize medical equipment. They collaborate with healthcare professionals to ensure the safe and efficient use of technology in patient care.

  4. Biomechanical Engineer: Careers in biomechanical engineering involve studying the mechanics of the human body. Graduates may work on projects related to orthopedic implants, rehabilitation devices, or sports equipment to improve human performance and health.

  5. Tissue Engineer: Tissue engineering specialists focus on developing artificial tissues and organs. Graduates may work on creating solutions for organ transplantation, regenerative medicine, or 3D printing of biological tissues.

  6. Regulatory Affairs Specialist: Graduates may pursue roles as regulatory affairs specialists, ensuring that biomedical products and technologies comply with regulatory standards. They play a crucial role in navigating the complex regulatory landscape in the healthcare industry.

  7. Biomedical Consultant: Some graduates choose to work as consultants, providing expertise to healthcare organizations, research institutions, or industry partners. They offer insights on technology implementation, project management, and strategic planning.

  8. Healthcare Systems Engineer: Healthcare systems engineers optimize the delivery of healthcare services by applying engineering principles. Graduates may work on improving healthcare processes, efficiency, and patient outcomes in collaboration with healthcare institutions.

  9. Entrepreneur in Biomedical Startups: Those with an entrepreneurial spirit may venture into creating their own biomedical startups. Graduates can develop innovative solutions, secure funding, and bring new technologies to market to address unmet needs in healthcare.

  10. Biomedical Sales and Marketing: Graduates with strong communication skills may explore careers in sales and marketing of biomedical products. They engage with healthcare professionals, communicate the value of products, and contribute to market growth.

  11. Quality Assurance Engineer: Quality assurance engineers in biomedical engineering ensure that products meet industry and regulatory standards. They play a vital role in maintaining the safety and effectiveness of biomedical devices.

  12. Global Health Engineer: Graduates with a passion for global health may work on engineering solutions that address healthcare challenges in underserved communities worldwide. They may collaborate with international organizations or NGOs to improve healthcare infrastructure.

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