DOI: 10.3390/biomedicines14071494 ISSN: 2227-9059

Cold Atmospheric Plasma as a Potential Disease-Modifying Therapy for Osteoarthritis

Vinay Kumar, Fiona O’Neill, Emma J. Murphy, Declan M. Devine, Liam O’Neill, Niamh Fahy

Osteoarthritis (OA) is a disabling joint disease characterised by cartilage degradation, synovial inflammation, and subchondral bone remodelling. Furthermore, catabolic inflammatory processes as well as dysregulated cellular signalling and oxidative stress are central to OA pathogenesis. Despite its growing global burden, currently available therapies primarily provide symptomatic relief and fail to target underlying molecular mechanisms and halt disease progression. Cold atmospheric plasma (CAP), a partially ionised, non-thermal gas that generates controlled reactive oxygen and nitrogen species (RONS), has emerged as a promising therapeutic modality capable of modulating redox-sensitive signalling pathways. CAP has demonstrated the capacity to suppress pro-inflammatory cytokine expression, enhance antioxidant defence mechanisms, influence macrophage polarisation, and stimulate tissue repair processes in rheumatoid arthritis, diabetic and dermal wound healing models. However, its potential as a disease-modifying therapy for the treatment of OA is not yet fully understood and warrants further experimental investigation. This review explores current pre-clinical evidence from different disease models, which may have implications for the potential application of CAP as a therapeutic intervention for OA, either as a disease-modifying therapy or as an adjuvant therapy for intra-articular drug delivery. Furthermore, key translational challenges including plasma parameter standardisation, interactions with synovial fluid and optimisation of joint-specific delivery strategies are discussed, identifying gaps that require further experimental investigation. Collectively, the findings of this review highlight CAP as a promising multimodal therapy with translational potential for the treatment of OA warranting further experimental validation and may open innovative avenues for future research.

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