M.S. in Accounting and Analytics
The Master of Science in Accounting and Analytics at Stony Brook University offers a co...
M.S. in Biomedical Engineering
Stony Brook, New York
INTAKE: Winter
Program Overview
The Master of Science (M.S.) in Biomedical Engineering at Stony Brook University offers a cutting-edge, interdisciplinary approach to the field, combining principles from engineering, biology, and medicine to address complex healthcare challenges. This program prepares students to design, analyze, and improve medical devices, technologies, and systems that enhance patient care and contribute to advancing biomedical research. Graduates of the program are equipped with the technical knowledge and hands-on experience needed to excel in both the biomedical and engineering sectors.
Curriculum: The curriculum of the M.S. in Biomedical Engineering at Stony Brook University is designed to provide students with both a broad understanding of biomedical engineering concepts and specialized expertise in areas such as biomaterials, medical imaging, biomechanics, and bioelectronics. The program combines core courses in engineering, biology, and physics with elective courses that allow students to tailor their education to their interests. Students can expect to cover topics such as tissue engineering, biomechanics, biomolecular engineering, medical imaging, and systems biology. The curriculum is designed to foster both theoretical knowledge and practical skills, preparing students for advanced research or industry positions.
Research Focus: Research in the M.S. in Biomedical Engineering program at Stony Brook University is a key component of the student experience. The program is renowned for its collaborative research across several interdisciplinary domains, including medical devices, biomaterials, tissue engineering, regenerative medicine, and biomechanics. Students have the opportunity to work closely with faculty members on groundbreaking research projects, often in partnership with hospitals and healthcare organizations. Areas of focus include developing innovative medical devices, improving diagnostic tools, enhancing rehabilitation technologies, and exploring novel treatment methods for various medical conditions. Stony Brook’s strong emphasis on research excellence ensures students are at the forefront of biomedical innovation.
Industry Engagement: Stony Brook University has strong connections with the biomedical industry, facilitating numerous opportunities for students to engage with leading professionals and companies. The M.S. in Biomedical Engineering program partners with hospitals, medical device manufacturers, pharmaceutical companies, and biotech firms, enabling students to gain real-world experience through internships, co-op programs, and collaborative research projects. Industry engagement is a key component of the program, providing students with exposure to the latest technologies and trends in biomedical engineering. Additionally, Stony Brook’s location on Long Island, near New York City, offers access to a robust healthcare and technology ecosystem, further enhancing students' career prospects.
Global Perspective: Stony Brook University takes a global approach to biomedical engineering education, fostering collaboration between students, faculty, and researchers from around the world. The M.S. program encourages an international perspective by providing opportunities for students to engage in global research projects, attend international conferences, and collaborate with overseas institutions. The program’s emphasis on global healthcare challenges prepares students to contribute to the advancement of biomedical solutions worldwide, particularly in areas such as global health, medical device innovation, and improving healthcare delivery in underserved regions.
Location
Stony Brook, New York
Score
IELTS 6.5
Tuition Fee
USD 33914
Postgraduate Entry Requirements
Academic Qualifications: Applicants for postgraduate programs typically require a minimum academic achievement of 70% or above in their bachelor's degree.
English Language Proficiency:
- IELTS: Overall band score of 6.5 with a minimum of 6.0 in each component.
- TOEFL: Overall score of 80 or higher.
Stony Brook University offers a variety of scholarship opportunities for international students, helping them manage the costs of their education. While U.S. federal financial aid is not available to international students, there are merit-based scholarships and other financial resources that can help reduce tuition fees and living expenses.
Graduate Scholarships: Graduate international students may also be eligible for various scholarships and assistantships within their academic departments. These awards are often based on academic performance, research interests, or teaching potential. Some graduate programs may offer full or partial tuition waivers, along with stipends for research or teaching assistant positions. International graduate students should check with their specific department or program for details on available scholarships and assistantships.
External Scholarships: In addition to the scholarships offered by Stony Brook University, international students are encouraged to explore external funding opportunities. Many organizations, government agencies, and private foundations offer scholarships and grants to international students who wish to study in the United States. Students can research scholarship opportunities through their home country’s government, non-profit organizations, and international scholarship programs. Some popular external scholarships include the Fulbright Program and the United Nations Scholarships.
Scholarships for Specific Countries or Regions: Stony Brook University also participates in various international partnerships and programs that offer scholarships to students from specific countries or regions. These scholarships may be designed to foster collaboration between Stony Brook and institutions abroad, with an emphasis on enhancing global relations.
M.S. in Biomedical Engineering, graduates from Stony Brook University have the opportunity to work in a variety of cutting-edge industries, ranging from healthcare to biotechnology, medical devices, and pharmaceuticals, with the potential for career advancement in both research and clinical settings.
Biomedical Engineer: Graduates can work as biomedical engineers, designing and developing medical devices, equipment, and technologies to improve patient care.
Medical Device Developer: Opportunities to work in companies that specialize in designing and manufacturing medical devices, including diagnostic tools, prosthetics, and imaging equipment.
Clinical Engineer: Work in hospitals or healthcare institutions to manage, maintain, and optimize medical equipment and systems, ensuring they meet safety and operational standards.
Biomaterials Scientist: Graduates can engage in research and development of new biomaterials used in medical devices, implants, and tissue engineering.
Tissue Engineer: Graduates can work in the field of tissue regeneration and organ transplantation, creating synthetic tissues and developing biocompatible scaffolds.
Regulatory Affairs Specialist: Some graduates move into roles where they oversee the regulatory approval processes for new medical technologies and devices, ensuring they meet industry standards and safety guidelines.
Product Development Engineer: Work in the development of innovative medical products, collaborating with cross-functional teams in research, design, and testing stages.
Research Scientist: Graduates can pursue careers in academic or corporate research settings, focusing on areas like biomolecular engineering, biomechanics, and regenerative medicine.
Medical Imaging Specialist: Graduates can work in the design and development of advanced imaging technologies such as MRI, CT scans, and ultrasound, contributing to medical diagnostics.
Entrepreneur: Some graduates pursue entrepreneurial ventures by starting their own biomedical engineering companies or working in the commercialization of new technologies.
Consulting: Biomedical engineering graduates can become consultants, advising hospitals, health organizations, or companies on medical technology solutions, systems, and innovations.
