Autologous Cultured Chondrocytes: Adverse Events Reported to the United States Food and Drug Administration

Wood, Jennifer J.; Malek, M. A.; Frassica, Frank J.; Polder, Jacquelyn A.; Mohan, Aparna; Bloom, Eda T.; Braun, M. Miles; Coté, Timothy R.

doi:10.2106/jbjs.e.00103

Cited by 168 publications

(137 citation statements)

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“…Cell monotherapy for the treatment of cartilage defects is more common than in other orthopaedic pathologies. In fact, autologous expanded chondrocytes are part of a product regulated by the FDA and approved for the repair of symptomatic cartilage defects (Carticel; Vericel) 70 . Despite the popularity of these monotherapies, the optimal amount of MSCs required for efficacy is unclear.…”

Section: Chondral and Osteochondral Defectsmentioning

confidence: 99%

Tissue Engineering in Orthopaedics

Tatara

Mikos

2016

The Journal of Bone and Joint Surgery

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Section: Chondral and Osteochondral Defectsmentioning

confidence: 99%

Tissue Engineering in Orthopaedics

Tatara

Mikos

2016

The Journal of Bone and Joint Surgery

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“…While this procedure decreases pain and swelling for limited-size lesions, there is associated donor site morbidity from harvesting the periosteum and chondrocytes. 3 The second-generation ACI technique is an improvement, since a collagen membrane is used instead of periosteum to cover the lesion and prevents compromise to other regions of bone or cartilage. This technique is also known as collagencovered ACI (CACI).…”

Section: Cell Types Chondrocytesmentioning

confidence: 99%

Cartilage Regeneration

2017

Stem Cell Biology and Regenerative Medicine

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Cartilage damaged by trauma has a limited capacity to regenerate. Current methods for treating small chondral defects include palliative treatment with arthroscopic debridement and lavage, reparative treatment with marrow stimulation techniques (e.g. microfracture), and restorative treatment, including osteochondral grafting and autologous chondrocyte implantation. Larger defects are treated by osteochondral allografting or total joint replacements. However, the future of treating cartilage defects lies in providing biologic solutions through cartilage regeneration. Laboratory and clinical studies have examined the treatment of larger lesions using tissue engineered cartilage. Regenerated cartilage can be derived from various cell types, including chondrocytes, mesenchymal stem cells, and pluripotent stem cells. Common scaffolding materials include proteins, carbohydrates, synthetic materials, and composite polymers. Scaffolds may be woven, spun into nanofibers, or configured as hydrogels. Chondrogenesis may be enhanced with the application of chondroinductive growth factors. Finally, bioreactors are being developed to enhance nutrient delivery and provide mechanical stimulation to tissue-engineered cartilage ex vivo. The multi-disciplinary approaches currently being developed to produce cartilage promise to bring the dream of cartilage regeneration in clinical use to reality.

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“…Disadvantages of first-generation ACI included donor site morbidity to the knee articular surface and periosteum harvest site, requirement of 2 surgeries, nonarthroscopic nature of the second-stage arthrotomy, damage to the edges of the OCL from suturing the periosteal flap, uneven distribution of the cell suspension within the defect, potential cell leakage, periosteal graft delamination, and hypertrophy. 31 To avoid these limitations, second-generation ACI was introduced. This procedure involved seeding the cultured chondrocytes on various scaffolds in vitro before the second-stage implantation to ensure homogenous cellular distribution on implantation in the OCL, together with easier fixation on the scaffold to the base of the cartilaginous defect by fibrin glue in a dry, all-arthroscopic technique.…”

Section: Autologous Chondrocyte Implantationmentioning

confidence: 99%