Inflammation after spinal cord injury (SCI) is characterized by immune cell invasion and activation, combined with inflammatory mediator release that worsens outcomes following primary trauma. Effective therapies targeting neuroinflammation remain an unmet need, and modulation of the injury microenvironment to induce a comprehensive pro-regenerative response is an attractive therapeutic approach. Given its crucial role in cell stress and inflammation after SCI, the potential of pharmacologically targeting MAPK-activated protein kinase-2 (MK2) to modulate the response of microglia/macrophages after injury is focused. Nanoparticles (NPs) containing an MK2 inhibitor for specific targeting of microglia/macrophages is developed. NPs selectively target and modulate activated microglia/macrophages in vitro and in a rat model of SCI. NPs in the acute injury setting reduce the pro-inflammatory cytokine IL-6 and increase the anti-inflammatory cytokine IL-10. Importantly, NPs have a significant effect on microglia/macrophage distribution and accumulation, leading to ≈65% reduction of immune cells around the injury. Last, microglia/macrophage populations with activated morphology are significantly reduced compared to resting or ramified cells around the lesion site. This strategy exhibits potential therapeutic efficiency and specificity for local, pharmacologic manipulation of activated microglia/macrophages, and is a versatile tool to manage acute inflammation and glia plasticity after central nervous system trauma.
The overall goal of this procedure is to perform stereotaxy in the pig brain with realtime magnetic resonance (MR) visualization guidance to provide precise infusions.The subject was positioned prone in the MR bore for optimal access to the top of the skull with the torso raised, the neck flexed, and the head inclined downward. Two anchor pins anchored on the bilateral zygoma held the head steady using the head holder. A magnetic resonance imaging (MRI) flex-coil was placed rostrally across the head holder so that the skull was accessible for the intervention procedure. A planning grid placed on the scalp was used to determine the appropriate entry point of the cannula. The stereotactic frame was secured and aligned iteratively through software projection until the projected radial error was less than 0.5 mm. A hand drill was used to create a burr hole for insertion of the cannula. A gadolinium-enhanced co-infusion was used to visualize the infusion of a cell suspension. Repeated T1-weighted MRI scans were registered in real time during the agent delivery process to visualize the volume of gadolinium distribution. MRI-guided stereotaxy allows for precise and controlled infusion into the pig brain, with concurrent monitoring of cannula insertion accuracy and determination of the agent volume of distribution.
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