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Electrically Conductive Hydrogels for Articular Cartilage Tissue Engineering. | LitMetric

AI Article Synopsis

  • Articular cartilage is essential for joint movement and its degeneration leads to widespread disability, affecting millions globally.
  • Traditional treatments for cartilage damage are often ineffective, prompting interest in tissue engineering, particularly through the use of hydrogels that can mimic natural cartilage properties.
  • The review explores different conductive materials used with hydrogels, their applications, ongoing research in electrically conductive hydrogels for cartilage repair, and outlines challenges and future directions in this field.

Article Abstract

Articular cartilage is a highly specialized tissue found in diarthrodial joints, which is crucial for healthy articular motion. Despite its importance, articular cartilage has limited regenerative capacities, and the degeneration of this tissue is a leading cause of disability worldwide, with hundreds of millions of people affected. As current treatment options for cartilage degeneration remain ineffective, tissue engineering has emerged as an exciting approach to create cartilage substitutes. In particular, hydrogels seem to be suitable candidates for this purpose due to their biocompatibility and high customizability, being able to be tailored to fit the biophysical properties of native cartilage. Furthermore, these hydrogel matrices can be combined with conductive materials in order to simulate the natural electrochemical properties of articular cartilage. In this review, we highlight the most common conductive materials combined with hydrogels and their diverse applications, and then present the current state of research on the development of electrically conductive hydrogels for cartilage tissue engineering. Finally, the main challenges and future perspectives for the application of electrically conductive hydrogels on articular cartilage repair strategies are also discussed.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9689960PMC
http://dx.doi.org/10.3390/gels8110710DOI Listing

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