Mitra Asadi-Eydivand
Amirkabir University of Technology, Tehran
Iran
Dr. Mitra Asadi-Eydivand is a highly accomplished biomaterial and tissue engineering expert with over a decade of experience in the field of 3D printing technologies, particularly in the development of porous structures for bone tissue engineering scaffolds. She earned her Ph.D. in Biomedical Engineering from the University of Malaya, Malaysia, where her research focused on the design, structure, and mechanical properties of 3D-printed bone scaffolds. She further honed her expertise through a postdoctoral fellowship at Amirkabir University of Technology (Tehran Polytechnic), concentrating on the rapid prototyping of bone tissue engineering scaffolds for orthopedic applications.
Dr. Mitra has extensive experience in laboratory research, including the synthesis and characterization of materials, biological testing, and advanced imaging techniques such as SEM and XRD. She is also proficient in the application of machine learning algorithms to improve the performance of complex tasks within her field. Her interdisciplinary skill set extends to programming, data analysis, and project management, making her a valuable asset in both academic and industrial settings.
Currently, Dr. Mitra where she oversees research and development initiatives, including the setup of bioprinters and the development of innovative bio-inks for tissue engineering. Her work has led to significant advancements, including the patenting of new bone graft materials and the successful development of hydrogel-based bio-inks for soft tissue printing.
In addition to her industry contributions, Dr. Mitra is an member at Amirkabir University of Technology and National Elite Foundation, where she teaches graduate-level courses on rapid prototyping in biomedical engineering and supervises research projects in the New Biomaterials Laboratory. Her collaborative research efforts have resulted in several high-impact publications and successful research grants.
Dr. Asadi-Eydivand’s diverse background in biomaterials, additive manufacturing, and artificial intelligence positions her as a leading figure in the field, driving innovation and advancing the frontiers of biomedical engineering.