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Cartilage Defect Treatment Using High-Density Autologous Chondrocyte Implantation (HD-ACI)
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Hyaline cartilage’s inability to self-repair can lead to osteoarthritis and joint replacement. Various treatments, including cell therapy, have been developed for cartilage damage. Autologous chondrocyte implantation (ACI) is considered the best option for focal chondral lesions. In this article, we aimed to create a narrative review that highlights the evolution and enhancement of our chondrocyte implantation technique: High-Density-ACI (HD-ACI) Membrane-assisted Autologous Chondrocyte Implantation (MACI) improved ACI using a collagen membrane as a carrier. However, low cell density in MACI resulted in softer regenerated tissue. HD-ACI was developed to improve MACI, implanting 5 million chondrocytes per cm2, providing higher cell density. In animal models, HD-ACI formed hyaline-like cartilage, while other treatments led to fibrocartilage. HD-ACI was further evaluated in patients with knee or ankle defects and expanded to treat hip lesions and bilateral defects. HD-ACI offers a potential solution for cartilage defects, improving outcomes in regenerative medicine and cell therapy. HD-ACI, with its higher cell density, shows promise for treating chondral defects and advancing cartilage repair in regenerative medicine and cell therapy.
Title: Cartilage Defect Treatment Using High-Density Autologous Chondrocyte Implantation (HD-ACI)
Description:
Hyaline cartilage’s inability to self-repair can lead to osteoarthritis and joint replacement.
Various treatments, including cell therapy, have been developed for cartilage damage.
Autologous chondrocyte implantation (ACI) is considered the best option for focal chondral lesions.
In this article, we aimed to create a narrative review that highlights the evolution and enhancement of our chondrocyte implantation technique: High-Density-ACI (HD-ACI) Membrane-assisted Autologous Chondrocyte Implantation (MACI) improved ACI using a collagen membrane as a carrier.
However, low cell density in MACI resulted in softer regenerated tissue.
HD-ACI was developed to improve MACI, implanting 5 million chondrocytes per cm2, providing higher cell density.
In animal models, HD-ACI formed hyaline-like cartilage, while other treatments led to fibrocartilage.
HD-ACI was further evaluated in patients with knee or ankle defects and expanded to treat hip lesions and bilateral defects.
HD-ACI offers a potential solution for cartilage defects, improving outcomes in regenerative medicine and cell therapy.
HD-ACI, with its higher cell density, shows promise for treating chondral defects and advancing cartilage repair in regenerative medicine and cell therapy.
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