A-18
Regenerative Medicine Unit
9F
0901B, 0902
Development of medical devices, biomechanical evaluation methods of activity, and development of new regenerative therapy for sports injuries, disorders and diseases
We are focusing on the development of novel therapies using adipose-derived stem cells (ADSCs) with enhanced functions via gene transfer. The response to treatment of ischemic stroke by autologous mesenchymal stem cells, including ADSCs, varies widely among individuals. In particular, ADSCs from elderly individuals have been reported to have decreased expression of hepatocyte growth factor (HGF), decreased levels of exosome miRNAs that promote nerve regeneration, and increased expression of exosome miRNAs associated with inflammation and aging. By introducing various genes, including HGF, we aim to create ADSCs designed to restore these impaired functions, accumulate efficiently at the site of injury, and exert sufficient therapeutic effect, thereby becoming a breakthrough therapy for ischemic stroke and multiple sclerosis.
Responsible Department
Department of
Sports Medical Biomechanics
Research Partner
Stryker Japan K.K.
Akiyama Medical Co.,Ltd.
Interstem Co., Ltd.
ASAHI KASEI THERAPEUTICS CORPORATION

Project Members
Principal Investigator

Specially Appointed Professor
Department of Sports Medical Biomechanics

Specially Appointed Associate Professor (Lecturer)
Department of Sports Medical Biomechanics
Members
Specially Appointed Assistant Professor
Department of Sports Medical Biomechanics
Associate Professor
Department of Orthopaedic Surgery
Assistant Professor
Department of Orthopaedic Surgery
Associate Professor
Department of Neuroinformatics
Associate Professor (Lecture)
Department of Neuroinformatics
Links
Department of Orthopaedic Surgery, The University of Osaka
http://www.osaka-orthopaedics.jp/en/




















