In vitro 3D model for monitoring glial cell responses to particles and ions released from spinal implants

• Spinal implants have been used for decades to treat different spinal conditions. However, certain implant-related complications have been attributed to the release of particles and ions due to corrosion and wear triggering local immune responses including the release of pro-inflammatory cytokines, leading to local inflammation. The impact of these particles and ions on cells from the central nervous system (CNS) remains largely unknown, with few studies examining the effects on glial cells1. Indeed, the particles may migrate to adjacent nervous tissues and increasing our knowledge of the glial cell response is essential since they play a crucial role in maintaining tissue homeostasis and protecting the CNS. Most prior studies have used traditional 2D culture models; however, these lack the 3D spatial arrangement of cells found in tissues where they form important interactions with the extracellular matrix. The aim of this study was to employ an open source bioprinter2 to extrude hydrogels containing glial cells into which experimental implant debris can be introduced, enabling monitoring of cell viability and inflammatory responses by fluorescence microscopy. We have previously established that mono-cultures of microglia and astrocytes can be 3D cultured in collagen hydrogels, and their viability monitored using the caspase-3/7 apoptosis reporter and propidium iodide labelling for cell death. Applying a bioprinting strategy to produce these glial-laden constructs increases the reproducibility of these models, and allows the study of a wide range of types and concentrations of particles, resulting in a valuable tool to increase the knowledge about the biological response generated by particles from spinal implants.

Ämnesord

MEDICIN OCH HÄLSOVETENSKAP  -- Medicinsk bioteknologi -- Biomaterialvetenskap (hsv//swe)

MEDICAL AND HEALTH SCIENCES  -- Medical Biotechnology -- Biomaterials Science (hsv//eng)

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