BA Arts and Markets
The Bachelor of Arts in Arts and Markets at Hawaii Pacific University is designed to bl...
Honolulu, Hawaii
INTAKE: Jan & Aug
The Bachelor of Science (BS) in Biomedical Engineering at Hawaii Pacific University (HPU) is designed to equip students with a strong foundation in engineering principles and their applications to the medical field. This program integrates biology, medicine, and engineering to prepare students to develop innovative solutions for healthcare challenges. Graduates are prepared to work on the design and improvement of medical devices, diagnostic equipment, and therapeutic technologies, making a significant impact on patient care and health outcomes.
STEM-Designated: The BS in Biomedical Engineering at HPU is a STEM-designated program, reflecting its emphasis on science, technology, engineering, and mathematics. This designation highlights the program's focus on rigorous technical training and its alignment with current advancements in medical technology and engineering. As a STEM program, it provides students with the analytical and problem-solving skills necessary to address complex biomedical challenges and prepares them for a range of technical and research-oriented careers.
Curriculum: The curriculum for the BS in Biomedical Engineering at HPU includes a blend of core engineering courses, biomedical sciences, and hands-on laboratory experiences. Key coursework encompasses subjects such as Bioengineering Fundamentals, Biomaterials, Medical Instrumentation, and Biomechanics. Students also take foundational courses in mathematics, physics, and chemistry to support their understanding of engineering principles. The program incorporates practical experiences through laboratory work and design projects, allowing students to apply theoretical knowledge to real-world problems.
Research Focus: The research focus of the Biomedical Engineering program at HPU includes areas such as medical device innovation, tissue engineering, and biomedical imaging. Students and faculty engage in research projects aimed at developing new technologies and improving existing medical devices and procedures. The program encourages participation in research initiatives, providing students with opportunities to contribute to advancements in biomedical technology and collaborate with industry professionals.
Industry Engagement: HPU’s Biomedical Engineering program maintains strong connections with the healthcare and technology industries. Through partnerships with medical institutions, research organizations, and biomedical companies, students gain practical experience and insights into the industry. Internships, co-op opportunities, and industry-sponsored projects are integral parts of the program, helping students build professional networks and apply their skills in real-world settings.
Global Perspective: The BS in Biomedical Engineering program at HPU incorporates a global perspective by addressing international trends and challenges in healthcare technology. Students learn about global health issues, emerging technologies, and the impact of biomedical engineering on healthcare systems worldwide. The program’s emphasis on cross-cultural understanding and international collaboration prepares students to work in diverse and global contexts, contributing to advancements in global health and medical technology.
Honolulu, Hawaii
IELTS 6
USD 31440
Undergraduate Entry Requirements
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 65% or above in their previous academic qualifications.
English Language Proficiency:
Hawaii Pacific University (HPU) offers various scholarship opportunities specifically designed to support international students in their academic pursuits. These scholarships are intended to help ease the financial burden of higher education and are awarded based on a range of criteria, including academic achievement, financial need, and specific program requirements.
HPU International Scholarship: HPU provides merit-based scholarships to outstanding international students based on their academic performance and potential. The HPU International Scholarship is awarded to students who demonstrate exceptional academic achievements and have strong potential for success in their chosen field of study. This scholarship can significantly reduce the cost of tuition and other academic expenses.
Presidential Scholarship for International Students: The Presidential Scholarship is one of the most prestigious awards offered by HPU. It is designed for high-achieving international students who have demonstrated excellence in academics, leadership, and extracurricular activities. This scholarship is highly competitive and offers substantial financial support to help cover tuition fees and other related costs.
Need-Based Scholarships: HPU also offers need-based scholarships to international students who demonstrate financial need. These scholarships are intended to provide additional support to students who require financial assistance to meet their educational expenses. Eligibility for these scholarships is determined through a review of the student’s financial situation and academic performance.
Program-Specific Scholarships: Certain academic programs at HPU may have their own scholarship opportunities for international students. These program-specific scholarships are awarded based on criteria related to the student’s field of study, research interests, or professional goals. Students are encouraged to check with their specific program department for available scholarships and application procedures.
Graduates of the Bachelor of Science (BS) in Biomedical Engineering from Hawaii Pacific University (HPU) are equipped with the skills and knowledge needed for a variety of dynamic and impactful careers. The interdisciplinary nature of the program combines engineering principles with medical and biological sciences, preparing graduates for roles that contribute to advancements in healthcare technology and patient care.
Biomedical Engineer: Biomedical engineers design, develop, and improve medical devices and equipment. They work on innovations such as prosthetics, diagnostic machines, and imaging systems, ensuring that these tools are safe, effective, and user-friendly. Biomedical engineers often collaborate with medical professionals to address specific healthcare needs and enhance patient outcomes.
Medical Device Designer: Medical device designers focus on creating and refining devices used in medical treatments and diagnostics. This role involves working on product design, prototyping, testing, and regulatory compliance to ensure that devices meet medical standards and function as intended.
Biotechnology Specialist: Biotechnology specialists apply engineering and biological principles to develop new technologies and products in the biotech industry. They work on projects related to genetic engineering, drug development, and biopharmaceuticals, contributing to advancements in medical treatments and therapies.
Clinical Engineer: Clinical engineers work in healthcare settings to manage and maintain medical equipment and systems. They ensure that devices are operating correctly, provide technical support, and collaborate with medical staff to integrate new technologies into clinical practice.
Tissue Engineer: Tissue engineers develop and improve artificial tissues and organs for medical use. This role involves working on tissue regeneration, biomaterials, and regenerative medicine to create solutions for organ and tissue repair or replacement.
Biomedical Researcher: Biomedical researchers conduct studies to advance the understanding of medical conditions and develop new treatments. They work in research institutions, universities, or pharmaceutical companies, focusing on areas such as medical imaging, biomaterials, and therapeutic technologies.
Regulatory Affairs Specialist: Regulatory affairs specialists ensure that medical devices and technologies comply with regulatory standards and guidelines. They handle submissions to regulatory agencies, monitor changes in regulations, and work to ensure that products meet safety and efficacy requirements.
Healthcare Technology Consultant: Healthcare technology consultants advise healthcare organizations on the implementation and optimization of medical technologies. They analyze the needs of healthcare providers, recommend appropriate solutions, and help integrate new technologies into existing systems.
Project Manager in Biomedical Engineering: Project managers in biomedical engineering oversee projects related to the development and implementation of medical technologies. They coordinate teams, manage budgets, and ensure that projects are completed on time and meet quality standards.
Academic or Industry Lecturer: Graduates may also pursue careers in academia or industry training, teaching future biomedical engineers and conducting workshops or seminars on specialized topics within the field.