M.S. in Accounting
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B.S. in Biomedical Engineering
Pittsburgh
INTAKE: Jan & Aug
Program Overview
Duquesne University offers a B.S. in Biomedical Engineering program that prepares students to address complex challenges at the intersection of engineering and healthcare. This interdisciplinary program combines principles of engineering, biology, and medicine to develop innovative solutions for improving patient care and health outcomes. With a strong emphasis on both theoretical knowledge and practical applications, graduates are equipped to pursue careers in medical device design, healthcare technology, and biomedical research.
STEM-Designated: The B.S. in Biomedical Engineering program at Duquesne University is designated as a STEM (Science, Technology, Engineering, and Mathematics) program. This designation highlights the program’s commitment to rigorous scientific and technical education, reflecting the increasing demand for skilled professionals in the STEM fields. The STEM designation also enhances opportunities for international students regarding work visas and post-graduate employment, fostering a diverse academic environment.
Curriculum: The curriculum for the B.S. in Biomedical Engineering integrates core engineering principles with biological sciences and healthcare applications. Students engage in courses covering topics such as biomechanics, biomaterials, medical imaging, and systems physiology. The program also includes hands-on laboratory work and design projects that allow students to apply their knowledge in practical settings. Elective courses provide students the flexibility to explore specialized areas of interest, such as tissue engineering or robotics.
Research Focus: Duquesne University emphasizes research within the B.S. in Biomedical Engineering program, encouraging students to engage in faculty-led research initiatives. Students have opportunities to work on innovative projects in areas such as medical device development, regenerative medicine, and health informatics. This research experience not only deepens students’ understanding of biomedical engineering principles but also fosters critical thinking, problem-solving, and teamwork skills that are essential for success in the field.
Industry Engagement: The program promotes strong industry engagement by collaborating with local healthcare organizations, biomedical companies, and research institutions. Duquesne University facilitates internships and cooperative education opportunities that allow students to gain real-world experience and apply their knowledge in professional settings. This engagement with industry partners enhances students' career readiness and helps them build valuable professional networks.
Global Perspective: Duquesne University’s B.S. in Biomedical Engineering program fosters a global perspective by exposing students to international health issues and biomedical research initiatives. Opportunities for study abroad programs and collaboration with global partners enable students to gain insights into healthcare challenges and solutions worldwide. This global outlook prepares graduates to address complex biomedical engineering challenges and contribute positively to global health.
Location
Pittsburgh
Score
IELTS 6
Tuition Fee
USD 47146
Undergraduate Entry Requirements
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 70% or above in their previous academic qualifications.
English Language Proficiency:
- IELTS: Overall band score of 6.0 with a minimum of 5.5 in each component.
- TOEFL: Overall score of 70 or higher.
- PTE: Overall score of 48 or higher.
- DET (Duolingo English Test): Minimum score of 95.
Scholarships for International Students
International Freshman Scholarships: Duquesne University offers merit-based scholarships for international freshmen based on academic achievements. These scholarships can significantly contribute to tuition expenses.
Spiritan Scholarships: The Spiritan Scholarship is a prestigious award for academically accomplished students who demonstrate a service and leadership. This scholarship aims to support students who align with the university's mission.
Phi Theta Kappa Scholarship: Transfer students who are members of the Phi Theta Kappa Honor Society may be eligible for this scholarship. It recognizes academic excellence and leadership at the community college level.
ESL Merit Scholarships: Duquesne University provides merit-based scholarships for international students enrolled in the English as a Second Language (ESL) program. These scholarships recognize academic achievement and language proficiency.
Global Leaders Scholarship: The Global Leaders Scholarship is designed for international students who have demonstrated leadership qualities and a commitment to making a positive impact on their communities. It supports students who embody the values of global citizenship.
External Scholarships: Duquesne University encourages international students to explore external scholarship opportunities, including those provided by governments, foundations, and private organizations. The university's financial aid office can assist students in identifying relevant external scholarships.
Talent-Based Scholarships: In addition to academic scholarships, Duquesne University offers talent-based scholarships in areas such as music, art, and athletics. These scholarships recognize outstanding achievements and contributions in specific fields.
Need-Based Financial Aid: Duquesne University is meeting the financial needs of admitted students. International students with demonstrated financial need may be eligible for need-based financial aid packages.
Graduates with a B.S. in Biomedical Engineering from Duquesne University have a diverse range of career opportunities, reflecting the interdisciplinary nature of the field and its vital role in healthcare and technology.
Medical Device Engineer: Many graduates pursue careers as medical device engineers, where they are involved in designing, developing, and testing medical instruments and devices. This role requires a solid understanding of both engineering principles and biological systems, as engineers must ensure that devices are safe, effective, and compliant with regulatory standards.
Biomedical Research Scientist: Graduates often choose to work as biomedical research scientists, conducting experiments and research to advance knowledge in areas such as tissue engineering, drug delivery systems, and regenerative medicine. This role typically involves working in laboratories and collaborating with other scientists to contribute to innovative healthcare solutions.
Quality Assurance Engineer: Quality assurance engineers play a crucial role in ensuring that biomedical products meet regulatory standards and are safe for use. Graduates may work for medical device companies or pharmaceutical firms, conducting tests and audits to identify and rectify any quality issues in products.
Clinical Engineer: Some graduates pursue careers as clinical engineers, where they work in healthcare settings to manage and maintain medical equipment and technology. This role involves collaborating with healthcare professionals to ensure that equipment operates safely and effectively, directly impacting patient care.
Biomaterials Scientist: Graduates may also specialize as biomaterials scientists, focusing on the development and testing of materials that interact with biological systems. This field is essential for innovations in areas such as implants, prosthetics, and drug delivery systems.
Regulatory Affairs Specialist: Graduates may choose to work in regulatory affairs, ensuring that biomedical products comply with industry regulations and standards. This role is vital for bringing new products to market and requires a strong understanding of both engineering and regulatory processes.
Consultant: Biomedical engineering graduates can also work as consultants, providing expertise to healthcare organizations, startups, or government agencies on topics such as medical technology, product development, and regulatory compliance.
Graduate Studies: Many graduates choose to pursue advanced degrees in biomedical engineering or related fields, such as medicine, public health, or business administration. Graduate studies can open up additional career opportunities in research, academia, or leadership positions within the industry.
