Masters of Business Administration (MBA)
Wright State University, located in Dayton, Ohio, offers a prestigious Master of Busine...
M.S. in Biomedical Engineering
Dayton, Ohio
INTAKE: Jan, May & Aug
Program Overview
The M.S. in Biomedical Engineering at Wright State University is a cutting-edge program designed to equip students with the knowledge, skills, and expertise necessary to thrive in the dynamic field of biomedical engineering. This program blends engineering principles with biological sciences to develop innovative solutions that improve healthcare and medical technology. Below is a detailed overview of the program, highlighting its STEM designation and ABET accreditation.The M.S. in Biomedical Engineering at Wright State University stands as a distinguished program, combining rigorous academic coursework, research opportunities, and a commitment to innovation. With its STEM designation, ABET accreditation, and interdisciplinary approach, it prepares students for successful and impactful careers in the ever-evolving field of biomedical engineering.An M.S. in Biomedical Engineering from Wright State University, with its strong curriculum and focus on practical skills, positions graduates for successful and impactful careers in a variety of fields. Whether you aspire to develop the next medical breakthrough, improve healthcare technology, or educate future engineers, this program provides the knowledge and expertise needed to excel in the biomedical engineering industry.
Curriculum:
1. STEM Designation: The M.S. in Biomedical Engineering at Wright State University holds a prestigious STEM (Science, Technology, Engineering, and Mathematics) designation. This signifies that the program places a strong emphasis on these core disciplines, providing students with a robust foundation in technical and scientific fields. STEM designation enhances the program's appeal to students seeking high-quality education and potential opportunities in STEM-related careers.
2. Comprehensive Curriculum: The program offers a comprehensive curriculum that covers a wide range of topics essential to biomedical engineering. Students engage in coursework that includes bioinformatics, biomaterials, tissue engineering, medical imaging, biomechanics, and more. The interdisciplinary nature of the program ensures graduates are well-rounded professionals capable of tackling complex challenges in the biomedical field.
3. Research Opportunities: Wright State University encourages research and innovation. The M.S. in Biomedical Engineering provides students with ample opportunities to engage in research projects under the guidance of experienced faculty. This hands-on experience enhances critical thinking, problem-solving skills, and fosters creativity in finding solutions to real-world healthcare problems.
4. State-of-the-Art Facilities: The program leverages state-of-the-art facilities and laboratories, allowing students to conduct experiments and research using advanced biomedical equipment and technologies. Access to these resources enhances the learning experience and enables students to apply theoretical knowledge in practical settings.
5. Interdisciplinary Approach: The program promotes an interdisciplinary approach by integrating engineering principles with biological sciences. Students collaborate across disciplines to develop innovative solutions that have a direct impact on healthcare, medical devices, and the overall well-being of society.
6. ABET Accreditation: The M.S. in Biomedical Engineering program at Wright State University is accredited by ABET (Accreditation Board for Engineering and Technology), a prestigious recognition that validates the program's quality and adherence to high academic standards. ABET accreditation assures students and potential employers of the program's excellence in providing a quality education that meets the industry demands.
7. Industry-Relevant Electives: The program offers a range of industry-relevant elective courses that allow students to tailor their studies based on their interests and career goals. These electives cover specialized areas such as medical device design, regulatory affairs, computational biology, and more.
8. Professional Development: Wright State University emphasizes the professional development of its students. The program offers workshops, seminars, and networking events that connect students with industry professionals, fostering valuable relationships and potential career opportunities.
9. Potential Career Paths: Graduates of the M.S. in Biomedical Engineering program at Wright State University are well-prepared for careers in biomedical device manufacturing, pharmaceuticals, biotechnology, healthcare, research institutions, and academia. They can work as biomedical engineers, research scientists, regulatory affairs specialists, medical device designers, and more.
Location
Dayton, Ohio
Score
IELTS: 6.5
Tuition Fee
USD 14400
Entry Requirements for Postgraduate Programs
Application Fees : US$ 70
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Bachelor's Degree: Applicants must have completed a bachelor's degree from an accredited institution. The minimum acceptable grade point average (GPA) is 3.0 on a 4.0 scale, which is roughly equivalent to 60% or a "B" grade.
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English Language Proficiency:
- IELTS: A minimum overall score of 6.5 with no individual band score below 6.5.
- TOEFL iBT: A minimum overall score of 79.
- DET (Duolingo English Test): A minimum score of 120.
- PTE (Pearson Test of English): A minimum score of 57.
Wright State University offers several scholarships and financial aid opportunities to support international students pursuing their education in the United States. These scholarships can help offset the cost of tuition and make studying at Wright State more affordable.
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International Student Merit Scholarship: Wright State offers merit-based scholarships for international students. These scholarships are awarded to outstanding students based on their academic achievements. The scholarship amount may vary depending on the student's qualifications.
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Global Scholarship: The Global Scholarship is designed to recognize the cultural diversity that international students bring to the university. This scholarship may also be awarded based on academic merit and ranges in value.
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Graduate Assistantships: Graduate students have the opportunity to apply for assistantships, which often include a stipend and may cover part or all of the tuition costs. These positions can be in various academic and administrative departments.
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International Friendship Scholarship: This scholarship is provided by the Office of International Students and Scholars (OISS) at Wright State University. It is aimed at helping international students with financial need. The amount may vary based on available funding.
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External Scholarships: International students are encouraged to explore external scholarship opportunities, which may be available through various organizations, foundations, and governments. These scholarships can supplement the cost of education at Wright State.
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Departmental Scholarships: Some academic departments at Wright State University offer scholarships to students pursuing specific fields of study. Eligibility and award amounts can vary.
An M.S. in Biomedical Engineering from Wright State University opens doors to a wealth of career opportunities in the dynamic and ever-evolving field of biomedical engineering. This program equips graduates with the knowledge and skills needed to address complex healthcare challenges, design innovative medical devices, and contribute to groundbreaking research.
1. Medical Device Industry: Graduates are well-prepared to enter the medical device industry, which is a significant employer for biomedical engineers. They can work in product development, quality control, regulatory affairs, and research and development. Roles can range from designing prosthetic limbs to creating advanced imaging equipment.
2. Biotechnology Firms: Many biotechnology companies require the expertise of biomedical engineers for research, development, and quality assurance of biotech products. Graduates can work on cutting-edge projects in areas such as genetic engineering, tissue engineering, and pharmaceuticals.
3. Healthcare Institutions: Hospitals, clinics, and healthcare organizations hire biomedical engineers to maintain and troubleshoot medical equipment, including MRI machines, X-ray devices, and robotic surgical systems. They may also work on patient data management and healthcare software systems.
4. Research and Development: Graduates can choose to work in research roles, either within academia or in research-intensive organizations. They contribute to the advancement of medical science, developing new technologies and solutions to improve patient care.
5. Regulatory Affairs and Quality Control: The medical field demands strict adherence to regulations and quality standards. Biomedical engineers can find opportunities in roles focused on ensuring compliance with regulatory agencies like the FDA. Quality control positions involve maintaining and enhancing product quality.
6. Academia and Education: For those interested in teaching and mentoring the next generation of biomedical engineers, academic positions at colleges and universities offer fulfilling careers. Graduates can also engage in outreach activities to promote STEM education.
7. Entrepreneurship: Biomedical engineering is a fertile ground for entrepreneurship. Graduates can launch startups or join emerging companies, bringing their innovative ideas and solutions to the market. This path offers the potential for significant impact and financial rewards.
8. Government and Nonprofit Organizations: Biomedical engineers can work in governmental agencies such as the National Institutes of Health (NIH) or non-profit organizations focused on global health. They contribute to research, public health, and humanitarian projects.
9. Consulting: Consulting firms often hire biomedical engineers to provide expert advice to healthcare and technology companies. They offer solutions in areas such as healthcare management, technology integration, and regulatory compliance.
10. Interdisciplinary Roles: With a strong foundation in both engineering and biology, graduates can bridge the gap between these disciplines. They may work on projects that require collaboration between engineers, medical professionals, and biologists.
11. Career Advancement: With experience, graduates can advance to leadership roles, taking on positions such as project managers, directors, or chief technology officers in the biomedical sector.
12. Global Opportunities: Biomedical engineering is a global field. Graduates can explore opportunities in other countries, contributing to healthcare advancements worldwide.
