Effect on Tissue Differentiation and Articular Cartilage Degradation of a Polymer Meniscus Implant: A 2-Year Follow-up Study in Dogs

Background Replacement of the meniscus by an implant could potentially avoid cartilage degeneration. Hypothesis An implant of degradable polycaprolacton-polyurethane should act as a temporary scaffold enabling regeneration of a new meniscus by slow degradation of the polymer and simultaneous in-grow...

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Bibliographic Details
Published in:The American journal of sports medicine 2008-10, Vol.36 (10), p.1978-1989
Main Authors: Welsing, Roy T. C., van Tienen, Tony G., Ramrattan, Navin, Heijkants, Ralf, Schouten, Arend Jan, Veth, René P. H., Buma, Pieter
Format: Article
Language:English
Subjects:
Animals
Biocompatible Materials - adverse effects
Biological and medical sciences
Biomechanical Phenomena
Cartilage
Cartilage, Articular - drug effects
Cartilage, Articular - pathology
Cell Differentiation - drug effects
Diseases of the osteoarticular system
Dogs
Female
Follow-Up Studies
Foreign-Body Reaction - pathology
Implants, Experimental
Knee
Male
Medical sciences
Menisci, Tibial - pathology
Menisci, Tibial - surgery
Polyesters - adverse effects
Polymers
Polyurethane
Polyurethanes - adverse effects
Prosthesis Implantation
Skin & tissue grafts
Sports medicine
Studies
Tissue engineering
Tissue Scaffolds - adverse effects
Transplants & implants
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Summary:Background Replacement of the meniscus by an implant could potentially avoid cartilage degeneration. Hypothesis An implant of degradable polycaprolacton-polyurethane should act as a temporary scaffold enabling regeneration of a new meniscus by slow degradation of the polymer and simultaneous in-growth and differentiation of tissues into the typical cartilage-like tissue of the meniscus. Study Design Controlled laboratory study. Methods In 13 dogs’ knees, the lateral meniscus was replaced with a porous polymer implant (6 and 7 for 6- and 24-month follow-up, respectively); in 7 knees only a meniscectomy was performed. In 6 knees, no surgery was performed. After 6 and 24 months, the implants and the articular cartilage were histologically evaluated. Compression-stress tests were performed on implant biopsy specimens. Results The implants were fully integrated into the tissue without formation of a capsule. The foreign body reaction did not exceed grade I. Differentiation from fibrous- to cartilage-like tissue was pronounced after 24 months. Viable cells were particularly absent after 24 months in central parts of the most anterior part of the scaffold. The mechanical properties of the implants were intermediate between the scaffold before implantation and native meniscus tissue and were not different between 6 and 24 months. After both 6 and 24 months, small areas of the implant were not covered with tissue. Cartilage degeneration was not prevented. Conclusion A final remodeling of tissue into neomeniscus tissue could not take place since the original structure of the polymer was still present after 24 months. The implant did not prevent cartilage degradation. Several factors are discussed that may be responsible for this. Clinical Relevance Although clinical application of a polymer implant for the replacement of the entire meniscus is not supported by this study, the authors strongly believe in the concept, but further improvements in the implant and surgical technique are needed before such an implant can be recommended for human clinical use.
ISSN:0363-5465
1552-3365
DOI:10.1177/0363546508319900