Litcius/Paper detail

A Photopolymerizable Biocompatible Hyaluronic Acid Hydrogel Promotes Early Articular Cartilage Repair in a Minipig Model In Vivo

Liang Gao, Riccardo Beninatto, Tamás Oláh, Lars Goebel, Ke Tao, Rebecca Roels, Steffen Schrenker, Julianne Glomm, Jagadeesh K. Venkatesan, Gertrud Schmitt, Ebrar Sahin, Ola Dahhan, M. Pavan, Carlo Barbera, Alba Di Lucia, Michael D. Menger, Matthias W. Laschke, Magali Cucchiarini, Devis Galesso, Henning Madry

2023Advanced Healthcare Materials16 citationsDOIOpen Access PDF

Abstract

Abstract Articular cartilage defects represent an unsolved clinical challenge. Photopolymerizable hydrogels are attractive candidates supporting repair. This study investigates the short‐term safety and efficacy of two novel hyaluronic acid (HA)‐triethylene glycol (TEG)‐coumarin hydrogels photocrosslinked in situ in a clinically relevant large animal model. It is hypothesized that HA‐hydrogel‐augmented microfracture (MFX) is superior to MFX in enhancing early cartilage repair, and that the molar degree of substitution and concentration of HA affects repair. Chondral full‐thickness defects in the knees of adult minipigs are treated with either 1) debridement (No MFX), 2) debridement and MFX, 3) debridement, MFX, and HA hydrogel (30% molar derivatization, 30 mg mL −1 HA; F3) (MFX+F3), and 4) debridement, MFX, and HA hydrogel (40% molar derivatization, 20 mg mL −1 HA; F4) (MFX+F4). After 8 weeks postoperatively, MFX+F3 significantly improves total macroscopic and histological scores compared with all other groups without negative effects, besides significantly enhancing the individual repair parameters “defect architecture,” “repair tissue surface” (compared with No MFX, MFX), and “subchondral bone” (compared with MFX). These data indicate that photopolymerizable HA hydrogels enable a favorable metastable microenvironment promoting early chondrogenesis in vivo. This work also uncovers a mechanism for effective HA‐augmented cartilage repair by combining lower molar derivatization with higher concentrations.

Topics & Concepts

Hyaluronic acidSelf-healing hydrogelsCartilageIn vivoDerivatizationDebridement (dental)Biomedical engineeringWound healingChemistryMaterials scienceSurgeryMedicineChromatographyAnatomyHigh-performance liquid chromatographyPolymer chemistryBiologyBiotechnologyOsteoarthritis Treatment and MechanismsKnee injuries and reconstruction techniquesPeriodontal Regeneration and Treatments