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USE OF PLGA MICROSPHERES TO DELIVER A BIOLOGIC TO DIRECT ADIPOSE-DERIVED STEM CELL DIFFERENTIATION FOR INTERVERTEBRAL DISC REGENERATION

The Society for Back Pain Research (SBPR), Northampton, England, November 2017



Abstract

Background

Stem cell therapy has been suggested as a potential regenerative strategy to treat IVD degeneration and GDF6 has been shown to differentiate adipose-derived stem cells (ASCs) into an NP-like phenotype. However, for clinical translation, a delivery system is required to ensure controlled and sustained GDF6 release. This study aimed to investigate the encapsulation of GDF6 inside novel microparticles (MPs) to control delivery and assess the effect of the released GDF6 on NP-like differentiation of human ASCs.

Methods

GDF6 release from PLGA-PEG-PLGA MPs over 14 days was determined using BCA and ELISA. The effect of MP loading density on collagen gel formation was assessed through SEM and histological staining. ASCs were cultured in collagen hydrogels for 14 days with GDF6 delivered exogenously or via microspheres. ASC differentiation was assessed by qPCR for NP markers, glycosaminoglycan production (DMMB) and immunohistochemistry.

Results

GDF6 release from MPs was controlled over 14 days equivalently to exogenous addition. SEM and histology confirmed that MPs were distributed throughout gels and that gel formation was not disrupted. In 3D cultures, GDF6 release from microspheres elicited equivalent ASC differentiation and NP-like matrix formation compared to exogenous delivery in media, indicating activity was not affected by MP encapsulation.

Conclusions

This study demonstrates the effective encapsulation and controlled delivery of GDF6, which was able to maintain its activity and induce ASC differentiation into an NP-like phenotype and production of an NP-like ECM. Delivery of GDF6 microspheres in combination with ASCs is a promising strategy for IVD regeneration and treatment of back pain.

Conflicts of interest

No conflicts of interest

Sources of funding

We would like to acknowledge UKRMP Acellular Hub, MRC, NIHR Musculoskeletal BRU and The Rosetrees Trust for funding this research.


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