History of Medical Bioengineering in Grigore T. Popa University

The Faculty of Medical Bioengineering at Grigore T. Popa University of Medicine and Pharmacy began its journey in 1994, marking the start of a transformative approach to education in Romania’s bioengineering field. Since its inception, the faculty has steadily cultivated a distinguished academic reputation, attracting a growing number of students and securing a respected position within both the national and international academic landscapes.

With a mission focused on delivering cutting-edge education and advancing research in bioengineering, balneophysiokinetotherapy, and medical rehabilitation, the faculty aligns its programs with Romania’s educational and policy objectives. These efforts also uphold the broader mission of UMF Iași, aiming to enhance competitiveness within the European Higher Education and Research Area.

Through its dedication to academic excellence and relevant, impactful research, the faculty has played a vital role in advancing Romania’s presence in the global bioengineering field.

Faculty of Medical Bioengineering

The Faculty of Medical Bioengineering at Grigore T. Popa University of Medicine and Pharmacy in Iaşi offers a comprehensive and innovative program, making it a leading institution in the field. Accredited by ARACIS and IEP-EUA, the Faculty provides specializations in both Applied Sciences, focusing on Bioengineering, and in Health, specifically in Balneophysiotherapy and recovery.

Medical Bioengineering in Grigore T. Popa University focuses on training specialists with extensive knowledge in engineering, biology, medicine, and other sciences, preparing them to develop advanced technologies to address health challenges. The program is aligned with BECON’s definition, integrating engineering concepts with biomedical needs to create solutions like implants, diagnostic tools, and rehabilitation processes.

Through its robust academic and research framework, Medical Bioengineering in Grigore T. Popa University contributes significantly to enhancing the healthcare standards in Romania. The faculty emphasizes quality education, creativity, and scientific research that meet international standards, supporting students in achieving high scientific performance. Furthermore, it maintains partnerships with both national and international entities, ensuring that students are equipped with practical experience and global perspectives.

The faculty continuously adapts its curriculum to align with Romanian educational reforms and economic needs, fostering an environment that supports both current and future developments in medical bioengineering.

Bachelor of Medical Bioengineering in Grigore T. Popa University

Studying Medical Bioengineering in Grigore T. Popa University offers a comprehensive bachelor’s program that prepares students for specialized roles in the medical and bioengineering fields. Accredited by ARACIS, this program is designed to equip students with in-depth knowledge and practical skills across three core areas:

1. Diagnostic and Treatment Equipment: Students gain expertise in electronics, biomedical instrumentation, informatics, signal processing, and physiological measurements. This foundation enables graduates to manage and innovate diagnostic devices and treatment technologies, essential for modern healthcare.
2. Prosthetics and Biomechanics: The curriculum includes topics like biomaterials, tissue engineering, biomechanics, prostheses, orthotics, and biocomposites. This area focuses on developing and improving prosthetic devices to replace or support human body structures, addressing critical needs in patient rehabilitation and quality of life improvement.
3. Modern Medical Biotechnologies: Combining biology, biochemistry, genetics, and biotechnological engineering, students learn to create products such as pharmaceuticals, phytotherapeutic products, cosmetics, and biostimulators. This field enables students to contribute to medical innovation and therapeutic advancements.

The program, leading to a Bachelor’s degree in Bioengineering, spans 240 credits and is situated within the Applied Engineering Sciences field. Graduates are skilled in applying physics, chemistry, mathematics, and engineering principles to biological and medical challenges, operating and maintaining medical devices, processing biomedical signals, and working with biomaterials for implantable devices.

Additionally, students develop biotechnological skills, equipping them for diverse applications in bioactive compound synthesis and biomedical innovation.

Master of Medical Bioengineering in Grigore T. Popa University

The Faculty of Medical Bioengineering at Grigore T. Popa University offers a Master’s degree in Biomedical Engineering, an advanced two-year program that provides students with 120 ECTS credits upon completion. The program accommodates up to 45 students per year, with a tuition fee of 2500 euros annually. This program is designed to deepen students’ expertise in specialized areas of biomedical engineering, preparing them for professional roles in healthcare and biomedical innovation.

Master’s students can choose from several specialized tracks, each offered in Romanian or English to cater to diverse student needs:

1. Bioengineering in Rehabilitation (Bioingineria reabilitării): Coordinated by Associate Professor Dan Zaania, this track focuses on engineering applications in patient rehabilitation, helping students develop skills to support and enhance recovery technologies in healthcare.
2. Advanced Medical Biotechnology and Biomaterials (Biotehnologii medicale și biomateriale avansate): Taught in Romanian by Professors Liliana Vereștiuc and Eng. Anca Galaction, this track delves into advanced biomaterials and biotechnology, essential for creating innovative medical solutions and improving material applications in medicine.
3. Clinical Bioengineering (Bioinginerie clinică): Under the guidance of Professor Eng. Radu Ciorap, this Romanian-language track covers biomedical engineering principles with a focus on clinical applications, training students for hands-on roles in medical device operations and patient care technology.
4. Biomedical Engineering (Inginerie biomedicală): This program, taught in English by Professor Eng. Anca Galaction, provides a broad foundation in biomedical engineering with a focus on international standards, making it ideal for students aiming to work in global healthcare systems.

All programs are conducted in the IF (full-time) format, requiring a bachelor’s degree as a prerequisite. Students gain in-depth knowledge of engineering as applied to medical technologies, equipping them with the skills necessary for high-impact roles in healthcare, research, and medical technology industries.