Issue 13, 2023

Injectable biomaterial induces regeneration of the intervertebral disc in a caprine loaded disc culture model

Abstract

Back pain is the leading cause of disability with half of cases attributed to intervertebral disc (IVD) degeneration, yet currently no therapies target this cause. We previously reported an ex vivo caprine loaded disc culture system (LDCS) that accurately represents the cellular phenotype and biomechanical environment of human IVD degeneration. Here, the efficacy of an injectable hydrogel system (LAPONITE® crosslinked pNIPAM-co-DMAc, (NPgel)) to halt or reverse the catabolic processes of IVD degeneration was investigated within the LDCS. Following enzymatic induction of degeneration using 1 mg mL−1 collagenase and 2 U mL−1 chondroitinase ABC within the LDCS for 7 days, IVDs were injected with NPgel alone or with encapsulated human bone marrow progenitor cells (BMPCs). Un-injected caprine discs served as degenerate controls. IVDs were cultured for a further 21 days within the LDCS. Tissues were then processed for histology and immunohistochemistry. No extrusion of NPgel was observed during culture. A significant decrease in histological grade of degeneration was seen in both IVDs injected with NPgel alone and NPgel seeded with BMPCs, compared to un-injected controls. Fissures within degenerate tissue were filled by NPgel and there was evidence of native cell migration into injected NPgel. The expression of healthy NP matrix markers (collagen type II and aggrecan) was increased, whereas the expression of catabolic proteins (MMP3, ADAMTS4, IL-1β and IL-8) was decreased in NPgel (±BMPCs) injected discs, compared to degenerate controls. This demonstrates that NPgel promotes new matrix production at the same time as halting the degenerative cascade within a physiologically relevant testing platform. This highlights the potential of NPgel as a future therapy for IVD degeneration.

Graphical abstract: Injectable biomaterial induces regeneration of the intervertebral disc in a caprine loaded disc culture model

Supplementary files

Article information

Article type
Paper
Submitted
30 jan 2023
Accepted
07 mai 2023
First published
17 mai 2023
This article is Open Access
Creative Commons BY license

Biomater. Sci., 2023,11, 4630-4643

Injectable biomaterial induces regeneration of the intervertebral disc in a caprine loaded disc culture model

J. W. Snuggs, K. S. Emanuel, C. Rustenburg, R. Janani, S. Partridge, C. Sammon, T. H. Smit and C. L. Le Maitre, Biomater. Sci., 2023, 11, 4630 DOI: 10.1039/D3BM00150D

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