Pooyan Vahidi Pashaki

Challey Graduate Fellow

Combining his mechanical engineering expertise with medical innovation, Pooyan Vahidi Pashaki, a Ph.D. candidate in Biomedical Engineering at NDSU is exploring new solutions to old healthcare challenges. From designing next-generation biomaterials for ACL reconstruction to advancing global manufacturing standards, his work reflects a thoughtful integration of mechanical and biomedical engineering. 

His journey showcases the transformative power of interdisciplinary research, offering new perspectives on how technology and science can work together to solve complex problems to better the lives of all.

Research Focus and Contributions

Pooyan’s current research spans biomaterials and tissue engineering, with his previous line of research in Mechanical Engineering spanning finite element analysis (FEM) and advanced manufacturing. With a strong foundation in mechanical engineering, he applies his expertise in FEM to biomedical engineering, advancing innovations in ACL reconstruction and bone tissue regeneration. His work involves designing next-generation nanocomposite biomaterials, which have potential ligament repair and regeneration applications.

One of Pooyan’s notable projects focuses on developing biocomposite polymers and scaffolds that enhance the mechanical properties and biocompatibility of materials for tissue engineering. By leveraging advanced manufacturing techniques, such as 3D printing, he is creating solutions that could significantly reduce recovery times and improve patient outcomes, particularly athletes. His efforts in tuning microstructures and optimizing materials underscore his commitment to scientific precision and practical impact.

Pooyan’s contributions also extend to cancer diagnostics, where he collaborates with medical researchers to develop a cancer test bed that mimics the human body fluid flow to monitor cancer cells' behavior. By extracting cells from tissue samples, his work aims to enhance diagnostic accuracy and pave the way for more effective treatments. His interdisciplinary approach, combining engineering techniques with biomedical challenges, has led to several high-impact publications and over 100 citations, highlighting his budding influence in the field.

Professional Growth and Motivation

Driven by a passion for innovation and improving human well-being, Pooyan finds fulfillment in tackling challenges that combine engineering precision with medical impact. His transition from mechanical to biomedical engineering reflects his desire to contribute directly to healthcare advancements. Working collaboratively with scholars and clinicians, he ensures his research aligns with real-world needs, striving to bridge the gap between laboratory discoveries and clinical applications.

Pooyan’s dedication to interdisciplinary collaboration extends to his involvement in ISO and ASTM standards development. By contributing to international guidelines, he helps ensure cutting-edge technologies are implemented safely and effectively in global industries. His efforts reflect a broader goal of advancing innovation while maintaining quality and accessibility.

Building Connections and Expanding Perspectives

The collaborative and dynamic environment of the Challey Institute has enriched Pooyan’s work. Access to a network of interdisciplinary scholars, thought-provoking discussions with guest speakers, and participation in reading groups have broadened his perspective and inspired new approaches to his research. Our focus on innovation and human potential aligns closely with his goals, providing a foundation to tackle pressing challenges in the lab and practical applications. These experiences have deepened his appreciation for collaboration's transformative power and reinforced his commitment to advancing impactful solutions.

Looking Ahead

Pooyan envisions a future where 3D printing and advanced manufacturing revolutionize organ and tissue regeneration. His long-term goals include collaborating with surgeons and other medical professionals to integrate his research into practical applications. By leveraging advancements in tissue engineering and finite element analysis, he aims to play a pivotal role in creating a world where regenerative medicine becomes a standard of care.

The Sheila and Robert Challey Institute for Global Innovation and Growth aims to advance understanding in the areas of innovation, trade, institutions, and human potential to identify policies and solutions that enhance economic growth and opportunity. Learn more at www.ndsu.edu/challeyinstitute