Polydactyly-derived allogeneic chondrocyte cell-sheet transplantation with high tibial osteotomy as regenerative therapy for knee osteoarthritis.
Kosuke HamahashiEriko ToyodaMiya IshiharaGenya MitaniTomonori TakagakiNagatoshi KaneshiroMiki MaeharaTakumi TakahashiEri OkadaAyako WatanabeYoshihiko NakamuraReiko KatoRyo MatobaTakehiko TakagiHidenori AkutsuAkihiro UmezawaHiroyuki KobayashiTadashi AkamatsuMasayuki YamatoTeruo OkanoMasahiko WatanabeMasato SatoPublished in: NPJ Regenerative medicine (2022)
Allogeneic cell therapies are not fully effective in treating osteoarthritis of the knee (OAK). We recently reported that transplantation of autologous chondrocyte cell-sheets along with open-wedge high tibial osteotomy promoted hyaline cartilage repair in humans. Here we describe our regenerative therapy for OAK using polydactyly-derived allogeneic chondrocyte cell-sheets (PD sheets) and temperature-responsive culture inserts. Ten patients with OAK and cartilage defects categorized arthroscopically as Outerbridge grade III or IV received the therapy. Cartilage viscoelasticity and thickness were assessed before and after transplantation. Arthroscopic biopsies obtained 12 months after transplantation were analyzed histologically. Gene expression was analyzed to evaluate the PD sheets. In this small initial longitudinal series, PD sheet transplantation was effective in treating OAK, as indicated by changes in cartilage properties. Gene marker sets in PD sheets may predict outcomes after therapy and provide markers for the selection of donor cells. This combined surgery may be an ideal regenerative therapy with disease-modifying effects in OAK patients.
Keyphrases
- cell therapy
- knee osteoarthritis
- stem cells
- total knee arthroplasty
- gene expression
- mesenchymal stem cells
- stem cell transplantation
- single cell
- bone marrow
- minimally invasive
- end stage renal disease
- chronic kidney disease
- extracellular matrix
- induced apoptosis
- acute coronary syndrome
- cross sectional
- anterior cruciate ligament reconstruction
- signaling pathway
- genome wide identification
- prognostic factors
- drug delivery
- copy number
- atrial fibrillation
- tissue engineering
- endoplasmic reticulum stress
- cell death
- surgical site infection