M.A. in Sociology
George Mason University, a prestigious institution located in Fairfax, Virginia, offers...
M.S. in Bioengineering
Fairfax, Virginia
INTAKE: Jan & Aug
Program Overview
The Master of Science (M.S.) in Bioengineering program at George Mason University is a dynamic and innovative pathway designed to empower students with the skills, knowledge, and hands-on experience required to excel in the rapidly evolving field of bioengineering. This program combines principles from biology, engineering, and medicine to foster interdisciplinary expertise that drives advancements in healthcare, technology, and scientific research. The M.S. in Bioengineering program at George Mason University stands as a pioneering platform that bridges the gap between engineering and biology. With a comprehensive curriculum, research opportunities, and industry connections, the program prepares students to make meaningful contributions to the advancement of healthcare, technology, and scientific discovery.Graduates emerge as skilled bioengineers ready to tackle the complex challenges of our modern world.
Curriculum:
1. Interdisciplinary Curriculum: The M.S. in Bioengineering curriculum is carefully crafted to blend core principles of engineering with the intricacies of biological systems. Students engage in coursework covering areas such as biomedical instrumentation, biomaterials, tissue engineering, biomechanics, and medical imaging. This cross-disciplinary approach equips graduates with a well-rounded understanding of the field.
2. Cutting-Edge Research Opportunities: Students have the unique opportunity to collaborate with distinguished faculty members on cutting-edge research projects that address real-world challenges in bioengineering. The university's strong ties with research institutions, medical centers, and industry partners provide students with invaluable hands-on experience and exposure to groundbreaking research.
3. State-of-the-Art Facilities: George Mason University offers state-of-the-art laboratories, equipment, and facilities that enable students to conduct experiments, simulations, and projects at the forefront of bioengineering. These resources support students in gaining practical skills and conducting impactful research.
4. Specialized Tracks and Electives: The program offers specialized tracks and a range of elective courses that allow students to tailor their education to their interests and career goals. Whether students are interested in medical device design, tissue engineering, computational modeling, or another aspect of bioengineering, they can choose courses that align with their passions.
5. Industry Partnerships: The university has strong ties to local and national industries, providing students with opportunities for internships, co-op experiences, and collaborative projects. This industry engagement enhances students' understanding of real-world applications and connects them with potential employers.
6. Faculty Excellence: The faculty members in the M.S. in Bioengineering program are accomplished professionals with expertise in diverse areas of bioengineering. They bring a wealth of knowledge and experience to the classroom, offering mentorship and guidance to students as they navigate their academic and career journeys.
7. Cross-Campus Collaboration: George Mason University's strategic location in the Washington, D.C., metropolitan area allows students to collaborate with professionals from various fields, including healthcare, policy, and technology. This cross-campus collaboration enriches students' perspectives and widens their career possibilities.
8. Research Symposia and Conferences: Students have the opportunity to present their research at conferences and symposia, fostering communication skills and networking within the broader scientific and engineering communities.
9. Capstone Project: The program typically includes a capstone project that challenges students to apply their skills and knowledge to solve a real-world problem in bioengineering. This project showcases students' ability to address complex challenges and offers practical experience.
10. Career Preparation: Graduates of the M.S. in Bioengineering program are well-equipped to embark on diverse and impactful career paths in the field of bioengineering. Whether in industry, academia, research, or entrepreneurship, the program provides a solid foundation for success.
Location
Fairfax, Virginia
Score
IELTS: 6.5
Tuition Fee
USD 34210
Entry Requirements for Postgraduate Programs
Application Fees : US$ 75
1. Academic Qualifications: Applicants must hold a bachelor's degree or its equivalent from a recognized institution. The degree should be relevant to the chosen field of study for the postgraduate program.
2. Grade Point Average (GPA): The minimum GPA requirement for admission to most postgraduate programs at George Mason University is 3.0 on a 4.0 scale.
3. English Language Proficiency:
- IELTS: Overall score of 6.5, with no individual band score below 6.0.
- TOEFL iBT: Overall score of 80.
- DET (Duolingo English Test): Overall score of 120
George Mason University recognizes the importance of making higher education accessible to a diverse range of students, including international students. As such, the university offers a variety of scholarships to help offset the cost of tuition and support the academic pursuits of international students.
1. Global Excellence Scholarship: The Global Excellence Scholarship is a merit-based award available to incoming international undergraduate students. It recognizes academic achievement, leadership skills, and contributions to the community. The scholarship amount varies and is renewable for up to four years.
2. INTO Mason Scholarships: INTO Mason, a partnership program that helps international students transition to university life in the United States, offers scholarships to students who enroll in Pathway programs. These scholarships can help cover tuition costs and are awarded based on academic merit.
3. College and Departmental Scholarships: Many of George Mason University's colleges and academic departments offer scholarships to international students who excel in specific fields of study. These scholarships may require students to meet certain academic criteria and demonstrate a strong commitment to their chosen area of study.
4. Graduate Assistantships: International graduate students at George Mason University have the opportunity to apply for graduate assistantships, which provide funding for tuition and stipends for work as research or teaching assistants. These assistantships offer valuable hands-on experience while helping to offset educational costs.
5. International Baccalaureate Scholarships: International students who have completed the International Baccalaureate (IB) program may be eligible for scholarships based on their IB scores and academic achievements. These scholarships are available to both undergraduate and graduate students.
6. Private Scholarships: George Mason University encourages international students to explore private scholarship opportunities from external organizations, foundations, and government agencies. The university's scholarship office can provide guidance and resources to help students find and apply for these scholarships.
7. Fullbright Scholarships: International students seeking advanced degrees may be eligible to apply for the prestigious Fullbright scholarship program, which provides funding for graduate study, research, and cultural exchange opportunities in the United States.
It's important to note that scholarship availability, eligibility criteria, and application deadlines may vary.
The Master of Science (M.S.) in Bioengineering program at George Mason University is a cutting-edge and multidisciplinary pathway that equips students with the skills and knowledge needed to thrive in the dynamic field of bioengineering. Graduates of this program are well-prepared for a wide range of exciting and impactful career opportunities at the intersection of biology, engineering, and medicine.
1. Biomedical Engineer: As experts in applying engineering principles to medical and biological challenges, M.S. in Bioengineering graduates are sought after by medical device companies, research institutions, and hospitals. They design and develop medical equipment, prosthetics, and diagnostic tools, contributing to advancements in healthcare technology.
2. Research Scientist: Many graduates choose to pursue careers in research, working in academic institutions, government agencies, or private research organizations. They focus on areas such as tissue engineering, biomaterials, drug delivery, and regenerative medicine, making groundbreaking discoveries that impact human health.
3. Biotechnology Industry: The biotechnology industry relies heavily on bioengineers to create innovative solutions for various applications. Graduates can work on projects related to genetic engineering, pharmaceuticals, biomanufacturing, and more, contributing to the development of new treatments and therapies.
4. Medical Device Industry: Bioengineers play a crucial role in the medical device industry, where they design, test, and improve medical equipment and devices. They ensure that these devices meet safety standards, are effective, and have a positive impact on patient outcomes.
5. Pharmaceutical Industry: With their expertise in biological systems and engineering principles, graduates can work in pharmaceutical companies to develop drug delivery systems, optimize drug formulations, and contribute to the design of novel therapeutic approaches.
6. Regulatory Affairs Specialist: As the field of bioengineering intersects with healthcare regulations, graduates can pursue careers as regulatory affairs specialists. They ensure that new medical products and technologies meet regulatory standards and guide their companies through the approval process.
7. Clinical Engineer: Clinical engineers work in healthcare settings, managing and maintaining medical equipment to ensure its safe and effective use. They collaborate with medical professionals to integrate technology into patient care, enhancing overall healthcare delivery.
8. Academic and Industry Collaboration: Graduates can bridge the gap between academia and industry by working in roles that involve collaboration between universities and companies. They may be involved in technology transfer, industry-sponsored research projects, and educational initiatives.
9. Entrepreneurship: M.S. in Bioengineering graduates with innovative ideas can venture into entrepreneurship, starting their own companies to develop and market novel medical devices, diagnostic tools, or healthcare solutions.
10. Further Education: Some graduates choose to pursue doctoral degrees (Ph.D.) in bioengineering or related fields to engage in advanced research, academia, or leadership positions in industry.
