Assoc Prof Dr. Kazuyo Igawa - translational medical science - Women Researcher Award
Okayama University - Japan
Author Profile
Early Academic Pursuits
Assoc Prof Dr. Kazuyo Igawa's academic journey reflects a relentless pursuit of knowledge and innovation in the field of medicine and bioengineering. Starting with a Bachelor of Science from Waseda University, where she delved into the synthesis and characterization of cationic monoalkyl bis (bipyridine) iron complex, she laid the foundation for her future endeavors in research. Subsequently, at Tohoku University School of Dentistry, she earned her Doctor of Dental Surgery degree, focusing on the distribution of the trigeminal nerve. This early academic background provided her with a strong interdisciplinary foundation, blending chemistry with dentistry and neuroscience.
Continuing her academic pursuit, Assoc Prof Dr. Igawa pursued a Doctor of Philosophy at the University of Tokyo's Graduate School of Medicine, specializing in the development of novel artificial bones using print technology. This phase of her academic journey marked a significant transition towards translational research, where she aimed to bridge the gap between fundamental scientific discoveries and clinical applications.
Professional Endeavors
Assoc Prof Dr. Igawa's professional journey is characterized by a diverse range of experiences spanning research, clinical practice, and consultancy roles. Her postdoctoral research stints at the University of Tokyo and the University of Gothenburg provided her with invaluable exposure to cutting-edge bioengineering techniques and methodologies. Subsequently, she served as Chief of the Department of Oral Maxillofacial Surgery at Southern Tohoku General Hospital, Fukushima, Japan, where she gained extensive clinical experience in oral surgery.
Transitioning into a consultancy role at the BNCT Center, Southern Tohoku General Hospital, Assoc Prof Dr. Igawa contributed to the advancement of Boron Neutron Capture Therapy (BNCT) for head and neck cancer. Her role as an Associate Professor at the Neutron Therapy Research Center, Okayama University, further solidified her position as a leader in the field of translational research, focusing on the clinical application of BNCT and bone reconstruction using 3D-printed artificial bones.
Contributions and Research Focus
Dr. Igawa's research focus encompasses two main areas: bone reconstruction using 3D printer artificial bones and Boron Neutron Capture Therapy (BNCT) for head and neck cancer. Her pioneering work in developing 3D-printed artificial bones has significant implications for the field of orthopedic surgery, offering personalized solutions for bone reconstruction and augmentation.
Additionally, her contributions to the development and clinical application of BNCT for head and neck cancer highlight her commitment to advancing cancer therapy through innovative approaches. From basic and preclinical research to clinical trials, Dr. Igawa has been instrumental in establishing BNCT facilities and promoting international standardization in collaboration with organizations like the International Atomic Energy Agency.
Accolades and Recognition
Assoc Prof Dr. Igawa's groundbreaking contributions to the field of medicine and bioengineering have earned her widespread recognition and accolades. Her doctoral dissertation on the development of novel artificial bones received acclaim for its innovative approach to bone reconstruction. Moreover, her role in establishing the world's first BNCT hospital and her efforts in promoting international collaboration have been commended by peers and industry experts alike.
Impact and Influence
Assoc Prof Dr. Igawa's research and clinical endeavors have had a profound impact on the field of oral maxillofacial surgery and cancer therapy. Through her innovative approaches to bone reconstruction and cancer treatment, she has improved patient outcomes and paved the way for future advancements in these areas. Her collaborations with international organizations have also facilitated knowledge exchange and capacity building, further amplifying her influence on a global scale.
Legacy and Future Contributions
As a trailblazer in the field of translational research, Assoc Prof Dr. Igawa's legacy extends beyond her scientific achievements. She has inspired future generations of researchers and clinicians to explore interdisciplinary approaches to address complex medical challenges. Moving forward, she remains committed to pushing the boundaries of medical innovation, with a focus on improving patient care and advancing the frontiers of medicine.
In summary, Assoc Prof Dr. Kazuyo Igawa's journey from early academic pursuits to her current position as an Associate Professor reflects a remarkable dedication to pushing the boundaries of medical science. Her contributions to bone reconstruction, cancer therapy, and international collaboration underscore her role as a leader and visionary in the field of medicine and bioengineering.
Notable Publication
- Particle and Heavy Ion Transport Code System-Based Microdosimetry for the Development of Boron Agents for Boron Neutron Capture Therapy Advanced Theory and SimulationsThis link is disabled., 2023, Shigehira, T., Hanafusa, T., Igawa, K., ...Michiue, H., Fujimura, A.
- Development of the Follow-Up Human 3D Oral Cancer Model in Cancer Treatment BioTechThis link is disabled., 2023, Igawa, K., Izumi, K., Sakurai, Y.
- Gelatin-based cell culture device for construction and X-ray irradiation of a three-dimensional oral cancer model Analytical SciencesThis link is disabled., 2023, Bessho, T., Takagi, T., Igawa, K., Sato, K.
- Prevention and early management of carotid blowout syndrome for patients receiving head and neck salvage boron neutron capture therapy (BNCT) Journal of Dental SciencesThis link is disabled., 2021, Lan, T.-L., Chang, F.-C., Wang, C.-W., ...Lo, W.-L., Chen, Y.-W.
- Self-assembling A6K peptide nanotubes as a mercaptoundecahydrododecaborate (BSH) delivery system for boron neutron capture therapy (BNCT) Journal of Controlled ReleaseThis link is disabled., 2021 Michiue, H., Kitamatsu, M., Fukunaga, A., ...Matsui, H., Furuya, S.