Daisuke Koga
Tokyo Medical and Dental University
29 Papers
109 Citations
Daisuke Koga is an academic researcher from Tokyo Medical and Dental University. The author has contributed to research in topics: Medicine & Stress shielding. The author has an hindex of 11, co-authored 28 publications.
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Papers
Direct anterior versus anterolateral approach in one-stage supine total hip arthroplasty. Focused on nerve injury: A prospective, randomized, controlled trial.
Ryohei Takada,Tetsuya Jinno,Kazumasa Miyatake,Masanobu Hirao,Akimasa Kimura,Daisuke Koga,Kazuyoshi Yagishita,Atsushi Okawa +7 more
TL;DR: Although TFL atrophy was found in both approaches, it was found significantly more in DAA sides than in ALA sides, suggesting that ALA should be used rather than DAA in terms of the risk of nerve injuries.
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Initial Responses of Articular Tissues in a Murine High-Fat Diet-Induced Osteoarthritis Model: Pivotal Role of the IPFP as a Cytokine Fountain
Munetaka Iwata,Hiroki Ochi,Yasushi Hara,Masahiro Tagawa,Daisuke Koga,Atsushi Okawa,Yoshinori Asou +6 more
TL;DR: Observations suggest the IPFP plays a pivotal role in the formation of osteophytes and functions as a secretory organ in response to a high fat diet.
Comparison of Bone Remodeling Between an Anatomic Short Stem and a Straight Stem in 1-Stage Bilateral Total Hip Arthroplasty
TL;DR: The anatomic short stem achieved its design purpose in terms of proximal fixation and load transfer and led to better preservation of the proximal femur.
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Procyanidin B3 prevents articular cartilage degeneration and heterotopic cartilage formation in a mouse surgical osteoarthritis model
Hailati Aini,Hiroki Ochi,Munetaka Iwata,Atsushi Okawa,Daisuke Koga,Mutsumi Okazaki,Atsushi Sano,Yoshinori Asou +7 more
TL;DR: Procyanidin B3 prevented OA progression and heterotopic cartilage formation, at least in a part through the suppression of iNOS, and these results support the potential therapeutic benefits of B3 for treatment of human OA and heterOTopic ossification.
Pivotal role of Sirt6 in the crosstalk among ageing, metabolic syndrome and osteoarthritis.
Maierhaba Ailixiding,Zulipiya Aibibula,Munetaka Iwata,Jinying Piao,Yasushi Hara,Daisuke Koga,Atsushi Okawa,Sadao Morita,Yoshinori Asou +8 more
TL;DR: Sirt6 has key roles in the relationship among ageing, metabolic syndrome, and OA, and mesenchyme-specific Sirt6-deficient mice revealed both attenuated chondrocyte hypertrophy and proteoglycan synthesis.
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