Biomaterials in search of a meniscus substitute

Abstract The menisci fulfill key biomechanical functions in the tibiofemoral (knee) joint. Unfortunately meniscal injuries are quite common and most often treated by (partial) meniscectomy. However, some patients experience enduring symptoms, and, more importantly, it leads to an increased risk for...

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Bibliographic Details
Published in:Biomaterials 2014-04, Vol.35 (11), p.3527-3540
Main Authors: Rongen, Jan J, van Tienen, Tony G, van Bochove, Bas, Grijpma, Dirk W, Buma, Pieter
Format: Article
Language:English
Subjects:
Absorbable Implants
Advanced Basic Science
Animals
Biocompatible Materials - pharmacology
Biomaterials
Biomechanical Phenomena - drug effects
Cartilage
Dentistry
Humans
Implant
Menisci, Tibial - anatomy & histology
Menisci, Tibial - cytology
Menisci, Tibial - drug effects
Menisci, Tibial - ultrastructure
Meniscus
Polymers - pharmacology
Scaffold
Tissue Engineering
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Summary:Abstract The menisci fulfill key biomechanical functions in the tibiofemoral (knee) joint. Unfortunately meniscal injuries are quite common and most often treated by (partial) meniscectomy. However, some patients experience enduring symptoms, and, more importantly, it leads to an increased risk for symptomatic osteoarthritis. Over the past decades, researchers have put effort in developing a meniscal substitute able to prevent osteoarthritis and treat enduring clinical symptoms. Grossly, two categories of substitutes are observed: First, a resorbable scaffold mimicking biomechanical function which slowly degrades while tissue regeneration and organization is promoted. Second, a non resorbable, permanent implant which mimics the biomechanical function of the native meniscus. Numerous biomaterials with different (material) properties have been used in order to provide such a substitute. Nevertheless, a clinically applicable cartilage protecting material is not yet emerged. In the current review we provide an overview, and discuss, these different materials and extract recommendations regarding material properties for future developmental research.
ISSN:0142-9612
1878-5905
DOI:10.1016/j.biomaterials.2014.01.017