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STACi vs MACI for knee cartilage repairSTACi performs knee cartilage repair in one operation by combining bone-marrow stem cells with patient chondrocytes on a three-dimensional scaffold — differing from MACI in cell composition and scaffold structure, though lacking randomised-trial evidence for long-term durability.STACi performs knee cartilage repair in one operation by combining bone-marrow stem cells with patient chondrocytes on a three-dimensional scaffold — differing from MACI in cell composition and scaffold structure, though lacking randomised-trial evidence for long-term durability.
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Recovery After OATS for Ankle Cartilage RepairOATS (osteochondral autograft transfer) replaces damaged ankle cartilage and bone with a healthy graft from the knee, producing hyaline-like tissue rather than scar tissue; at ten years, graft survival reached 94.9% and functional scores improved from 51.9 to 75.3, though donor-site morbidity affected 6.7–10.8%.OATS (osteochondral autograft transfer) replaces damaged ankle cartilage and bone with a healthy graft from the knee, producing hyaline-like tissue rather than scar tissue; at ten years, graft survival reached 94.9% and functional scores improved from 51.9 to 75.3, though donor-site morbidity affected 6.7–10.8%.
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ACI vs MACI for knee cartilage repairBoth ACI and MACI for knee cartilage repair follow a two-stage structure: cartilage biopsy with laboratory expansion, then implantation. The difference lies in the second stage's delivery mechanism—ACI injects expanded cells beneath a periosteal patch, while MACI pre-seeds them onto a collagen membrane secured with fibrin glue.Both ACI and MACI for knee cartilage repair follow a two-stage structure: cartilage biopsy with laboratory expansion, then implantation. The difference lies in the second stage's delivery mechanism—ACI injects expanded cells beneath a periosteal patch, while MACI pre-seeds them onto a collagen membrane secured with fibrin glue.
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OATS and Mosaicplasty for Knee Cartilage RepairOATS delivers genuine hyaline cartilage — the knee's native resilient material — to repair focal defects in one operation; marrow-stimulation techniques like microfracture instead produce fibrocartilage, scar-like tissue that begins to break down within two to three years under athletic demand.OATS delivers genuine hyaline cartilage — the knee's native resilient material — to repair focal defects in one operation; marrow-stimulation techniques like microfracture instead produce fibrocartilage, scar-like tissue that begins to break down within two to three years under athletic demand.
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When Knee Alignment Must Come Before Cartilage RepairCartilage repair fails in a varus knee because the weight-bearing line runs through the damaged medial compartment instead of the joint's centre. High tibial osteotomy redirects that line toward the centre; expert guidance mandates combined surgery above 3° varus and forbids isolated repair beyond 5°.Cartilage repair fails in a varus knee because the weight-bearing line runs through the damaged medial compartment instead of the joint's centre. High tibial osteotomy redirects that line toward the centre; expert guidance mandates combined surgery above 3° varus and forbids isolated repair beyond 5°.
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Distal femoral osteotomy for lateral knee cartilage damageKnock-kneed alignment directs excessive load through the outer knee compartment, accelerating cartilage wear over time. Distal femoral osteotomy corrects this by adjusting the lower thighbone angle to redistribute load and allow the damaged cartilage to survive or heal.Knock-kneed alignment directs excessive load through the outer knee compartment, accelerating cartilage wear over time. Distal femoral osteotomy corrects this by adjusting the lower thighbone angle to redistribute load and allow the damaged cartilage to survive or heal.
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Autograft or allograft for large knee cartilage defectsKnee cartilage defects smaller than roughly 2 cm² are typically repaired with the patient's own tissue; larger defects require fresh donor grafts because the knee lacks sufficient low-load surface to harvest from safely.Knee cartilage defects smaller than roughly 2 cm² are typically repaired with the patient's own tissue; larger defects require fresh donor grafts because the knee lacks sufficient low-load surface to harvest from safely.
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Symptoms That Warrant a Cartilage SpecialistArticular cartilage cannot repair itself because it contains no blood vessels or nerves; defects exceeding approximately 1 cm in size tend to deteriorate rather than stabilise, and the window for joint-preserving intervention is finite.Articular cartilage cannot repair itself because it contains no blood vessels or nerves; defects exceeding approximately 1 cm in size tend to deteriorate rather than stabilise, and the window for joint-preserving intervention is finite.
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ACI for talar cartilage repairOsteochondral lesions of the talus occur in up to 70% of ankle fractures; defects measuring 2cm² or larger typically undergo autologous chondrocyte implantation, which uses cultured cells rather than bone plugs to restore cartilage but requires medial malleolar osteotomy to access the joint.Osteochondral lesions of the talus occur in up to 70% of ankle fractures; defects measuring 2cm² or larger typically undergo autologous chondrocyte implantation, which uses cultured cells rather than bone plugs to restore cartilage but requires medial malleolar osteotomy to access the joint.
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When cartilage repair is the right choiceCartilage repair succeeds for a focal defect in otherwise healthy joint tissue in younger patients, but fails in diffuse arthritis. Lesion size, depth, patient age, and activity level determine the appropriate technique.Cartilage repair succeeds for a focal defect in otherwise healthy joint tissue in younger patients, but fails in diffuse arthritis. Lesion size, depth, patient age, and activity level determine the appropriate technique.
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When OATS mosaicplasty beats other ankle cartilage repairsLesions exceeding 150 mm² require OATS mosaicplasty: marrow stimulation produces fibrocartilage that breaks down within two to three years, whilst transplanted hyaline cartilage lasts decades.Lesions exceeding 150 mm² require OATS mosaicplasty: marrow stimulation produces fibrocartilage that breaks down within two to three years, whilst transplanted hyaline cartilage lasts decades.
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OATS or microfracture for active knee patientsMicrofracture improves early but deteriorates progressively beyond two years because it deposits fibrocartilage, whilst OATS transplants intact cartilage that remains stable long-term.Microfracture improves early but deteriorates progressively beyond two years because it deposits fibrocartilage, whilst OATS transplants intact cartilage that remains stable long-term.
