Mitsuru Akashi
Papers
2
Total Citations
93
H-Index
2
About
Mitsuru Akashi is a pioneering figure in biomaterials engineering and tissue regeneration, renowned for his groundbreaking work in constructing functional three-dimensional tissues. His research centers on the development of advanced fabrication techniques, particularly the layer-by-layer (LbL) cell accumulation method and the integration of 3D printing with thermoresponsive polymers. Akashi’s major contributions include the creation of vascularized, orientation-controlled cardiac tissues that mimic native organ structure—a critical step toward regenerative medicine and pharmaceutical testing. His most cited work (2020, 66 citations) demonstrates the successful combination of LbL and 3D printing to build cardiac tissue with aligned cells and embedded vascular networks. In a related study (2017, 27 citations), he introduced hydroxybutyl chitosan (HBC) as a thermoresponsive gel frame for shaping tissues like heart and nerve constructs. These innovations address fundamental challenges in tissue engineering: achieving cellular orientation and vascularization. Akashi’s impact is reflected in the growing adoption of his methodologies, which bridge materials science and clinical application. His work continues to inspire researchers aiming to build complex, transplantable tissues.
Research Focus
Key Achievements
Top Papers
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