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Regenerative Role of T Cells in Nerve Repair and Functional Recovery

FRONTIERS IN IMMUNOLOGY (2022)

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A DAMP-scavenging, IL-10-releasing hydrogel promotes neural regeneration and motor function recovery after spinal cord injury

He Shen et al.

Summary: A dual-functional hydrogel scaffold was developed for treating SCI, scavenging DAMPs and releasing IL-10. In vitro and in vivo studies showed that this scaffold reduced proinflammatory responses, enhanced neurogenic differentiation, suppressed cytokine production, and promoted neural regeneration to a greater extent compared to control scaffolds.

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Summary: This article summarizes the research progress on neuronal regeneration and degeneration, compares the regenerative process in the central and peripheral nervous systems, and highlights the primary targets for restoring functional neural circuits.

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Silk-inspired fiber implant with multi-cues enhanced bionic microenvironment for promoting peripheral nerve repair

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Summary: This study developed an aligned silk-inspired fiber scaffold for the repair of large-gap peripheral nerve injuries. The scaffold provided a cell-friendly microenvironment with physical cues and cell adhesion signals to promote nerve tissue growth and myelination, leading to promising motor function recovery.

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Summary: This study investigates the role of regulatory T cells in the differentiation of macrophages on dorsal root ganglion (DRG) and explores the mechanism of nociceptive signals in the signal transfer station. The findings suggest that regulatory T cells reduce the ratio of M1/M2 macrophages and alleviate neuroma pain by regulating macrophage polarization. These findings provide key insights into developing new strategies to manage painful neuroma.

FRONTIERS IN NEUROSCIENCE (2022)

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The future research path of traumatic brain injury

The Lancet Neurology

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Review Neurosciences

Neuroimmune interactions and immunoengineering strategies in peripheral nerve repair

Kathryn L. Wofford et al.

Summary: Peripheral nerve injuries disrupt cellular communication between the central nervous system and somatic distal end targets, leading to limited muscle reinnervation and functional recovery. Macrophages play a critical role in the regeneration of the injured peripheral nervous system, and implementing macrophage-based immunomodulatory therapies is promising for nerve injuries in various clinical presentations.

PROGRESS IN NEUROBIOLOGY (2022)

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Article Engineering, Biomedical

Self-assembling multidomain peptide hydrogels accelerate peripheral nerve regeneration after crush injury

Tania L. Lopez-Silva et al.

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BIOMATERIALS (2021)

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Olfactory ecto-mesenchymal stem cell-derived exosomes ameliorate murine Sjogren's syndrome by modulating the function of myeloid-derived suppressor cells

Ke Rui et al.

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Cell-adaptable dynamic hydrogel reinforced with stem cells improves the functional repair of spinal cord injury by alleviating neuroinflammation

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Jinhua Li et al.

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Retinoic acid treatment recruits macrophages and increases axonal regeneration after optic nerve injury in the frog Rana pipiens

Valeria De La Rosa-Reyes et al.

Summary: The study found that ATRA application transiently increased the number of macrophages in the optic nerve, which exhibited significant phagocytic activity labeled with M2-type markers. Additionally, ATRA treatment significantly increased the numbers of regenerating GAP-43-labeled axons. These results suggest that the success of axon regeneration is partially dependent on the presence of debris-phagocytosing macrophages, and that the increases in regeneration caused by ATRA are in part due to their increased numbers.

PLOS ONE (2021)

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Mechanism of mesenchymal stem cells in spinal cord injury repair through macrophage polarization

Nan An et al.

Summary: Treatment and rehabilitation of spinal cord injury (SCI) is a major challenge in clinical medicine due to complex pathophysiological changes after injury. Inflammatory reactions post-SCI are related to immune cells' functions at different times and sites. Mesenchymal stem cells (MSCs) transplantation has become a promising method for eliminating nerve injury caused by SCI and influencing macrophage polarization to induce specific immune microenvironments.

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Anisotropic Silk-Inspired Nerve Conduit with Peptides Improved the Microenvironment for Long-Distance Peripheral Nerve Regeneration

Xiaoxuan Tang et al.

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ACS MACRO LETTERS (2021)

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4D spatiotemporal modulation of biomolecules distribution in anisotropic corrugated microwrinkles via electrically manipulated microcapsules within hierarchical hydrogel for spinal cord regeneration

Min-Yu Chiang et al.

Summary: This study developed a hierarchical hybrid gel with NT-3-loaded microcapsules to create an anisotropic structure with specific NT-3 distribution using dielectrophoresis. The material showed dynamic biomimetic microwrinkles and potential applications in soft tissue engineering.

BIOMATERIALS (2021)

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Article Engineering, Biomedical

Aligned microfiber-induced macrophage polarization to guide schwann-cell-enabled peripheral nerve regeneration

Xianhao Dong et al.

Summary: Research on nerve conduits composed of oriented microfiber-bundle cores and randomly organized nanofiber sheaths has shed light on the regulatory role of microfiber orientation in promoting peripheral nerve regeneration, elucidating a cascade of biological responses and ultimately enhancing nerve regeneration outcomes.

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Article Chemistry, Multidisciplinary

Neutrophil Decoys with Anti-Inflammatory and Anti-Oxidative Properties Reduce Secondary Spinal Cord Injury and Improve Neurological Functional Recovery

Yihui Bi et al.

Summary: Post spinal cord injury, using neutrophil membrane-coated nanoparticles as decoys can reduce local neutrophil infiltration and alleviate oxidative stress, leading to improved neural regeneration and functional recovery in injured spinal cords.

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Article Chemistry, Multidisciplinary

Two-Dimensional-Germanium Phosphide-Reinforced Conductive and Biodegradable Hydrogel Scaffolds Enhance Spinal Cord Injury Repair

Chao Xu et al.

Summary: Integrating conductive and biodegradable germanium phosphide (GeP) nanosheets into an injectable hydrogel matrix has been successfully applied for spinal cord injury (SCI) repair, significantly improving the conductivity of the hydrogel and accelerating the differentiation of neural stem cells. In a rat SCI complete transection model, implantation of HA-DA/GeP@PDA hydrogel significantly enhanced locomotor function recovery and promoted immune regulation, endogenous angiogenesis, and endogenous NSC neurogenesis in the lesion area.

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Weitao Man et al.

Summary: This study introduces a novel multi-modal approach for spinal cord regeneration by designing a multifunctional nanofiber composite hydrogel AFG/fSAP, which combines hierarchically aligned fibrin hydrogel and functionalized self-assembling peptides to provide both biophysical and biochemical cues for guiding tissue regeneration, axonal regrowth, remyelination, and angiogenesis. The implantation of AFG/fSAP in rats with spinal cord hemisection leads to significant anatomical, electrophysiological, and motor functional restorations, showing potentials for clinical practice in spinal cord injury.

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Toward a Better Regeneration through Implant-Mediated Immunomodulation: Harnessing the Immune Responses

Ben Zhang et al.

Summary: This review provides an in-depth analysis of immune response in tissue repair/regeneration and discusses various implant-mediated immunomodulation strategies. It focuses on major immune cells such as neutrophils, macrophages, and T cells, as well as methods to regulate immune response through physical, chemical, and biological cues. Finally, scaffold-facilitated regenerations of different tissue types are presented, highlighting the importance of immunomodulation in tissue regeneration.

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Article Cell Biology

Angiogenesis and nerve regeneration induced by local administration of plasmid pBud-coVEGF165-coFGF2 into the intact rat sciatic nerve

Ruslan Masgutov et al.

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NEURAL REGENERATION RESEARCH (2021)

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Article Chemistry, Multidisciplinary

Pure-silk fibroin hydrogel with stable aligned micropattern toward peripheral nerve regeneration

Xinyi Gu et al.

Summary: The pure silk fibroin hydrogel with high strength and aligned microgrooved structure showed excellent mechanical properties and good biocompatibility. The aligned microgrooved structure enabled the aligned growth of Schwann cells, promoting axon growth and guiding neurite sprouting. This micropatterned SF hydrogel has great potential for peripheral nerve regeneration.

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Frances L. Evans et al.

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Neuroimmune processes associated with Wallerian degeneration support neurotrophin-3-induced axonal sprouting in the injured spinal cord

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Human nerve growth factor protects common marmosets against autoimmune encephalomyelitis by switching the balance of T helper cell type 1 and 2 cytokines within the central nervous system

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