Scaffold-free stem cell-based tissue engineering to repair cartilage and its potential application to other musculoskeletal tissues.
Shimomura K, Ando W, Fujie H, Hart DA, Yoshikawa H, Nakamura N
Orthopaedics: A New Approach, May 2017; pp. 537-551.
Osteochondral repair using a hybrid implant composed of stem cells and biomaterial.
Shimomura K, Fujie H, Hart DA, Yoshikawa H, Nakamura N
Bio-Orthopaedics: A New Approach, May 2017; Online: pp. 671-682.
2016年
Chapter 6: Mechanical properties and biomechanical functions of the ACL (ACL injury and its treatment, Ochi M, Shino K, Yasuda K, Kurosawa M,Eds)
Fujie H
Tokyo: Springer Japan; 2016, 66-77.
Mechanical functions of human ACL bundles: Development and application of a robotic knee simulator In: Human biomechanics and injury prevention.
Fujie H, Mae T, Orita A, and Sekito T
Tokyo: Springer-Verlag; 2000, 255-260.
Application of robotics to studies of joint biomechanics (Clinical Biomechanics and Related Research, Hirasawa Y, Sledge CB, Woo SL-Y, Eds)
Fujie H, Woo SL-Y, Livesay GA, Mabuchi K
Tokyo: Springer-Verlag; 1994, 81-95.
Anatomy and biomechanics of the human posterior cruciate ligament (Clinical Biomechanics and Related Research, Hirasawa Y, Sledge CB, Woo SL-Y, Eds)
Livesay GA, Harner CD, Xerogeanes JW, Carlin GJ, Kusayama T, Fujie H, Kashiwaguchi S, Woo SL-Y
Tokyo: Springer-Verlag; 1994, 200-214.
1992年
A new methodology with an application of robotics to control the mechanical environment around experimentally fractured bone (Biomechanics in Orthopedics, Niwa S, Perren SM, Hattori T, Eds)
Mabuchi K, Fujie H, Yamatoku Y, Yamamoto M, Sasada T
Tokyo: Springer-Verlag; 1992, 183-193.