scholarly article | Q13442814 |
P356 | DOI | 10.1002/JNR.10269 |
P698 | PubMed publication ID | 12111830 |
P50 | author | Richard M Ransohoff | Q87833085 |
P2093 | author name string | Tao Wei | |
Israel F Charo | |||
Landin Boring | |||
Lyn B Jakeman | |||
Manhong Ma | |||
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Bone marrow chimeric rats reveal the unique distribution of resident and recruited macrophages in the contused rat spinal cord | Q48819305 | ||
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Depletion of hematogenous macrophages promotes partial hindlimb recovery and neuroanatomical repair after experimental spinal cord injury | Q42606175 | ||
Systemically administered interleukin-10 reduces tumor necrosis factor-alpha production and significantly improves functional recovery following traumatic spinal cord injury in rats | Q42612978 | ||
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Chemokine antagonist infusion promotes axonal sparing after spinal cord contusion injury in rat. | Q43634198 | ||
Chemokines: leucocyte recruitment and activation cytokines. | Q44208652 | ||
Experimental analysis of progressive necrosis after spinal cord trauma in the rat: etiological role of the inflammatory response | Q45102424 | ||
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Decreased lesion formation in CCR2-/- mice reveals a role for chemokines in the initiation of atherosclerosis | Q46897070 | ||
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Chemokine inhibition in rat stab wound brain injury using antisense oligodeoxynucleotides | Q47937372 | ||
Differential effects of central and peripheral nerves on macrophages and microglia | Q47951706 | ||
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P433 | issue | 6 | |
P304 | page(s) | 691-702 | |
P577 | publication date | 2002-06-01 | |
P1433 | published in | Journal of Neuroscience Research | Q6295654 |
P1476 | title | Monocyte recruitment and myelin removal are delayed following spinal cord injury in mice with CCR2 chemokine receptor deletion | |
P478 | volume | 68 |
Q55436223 | Anti-inflammatory effect of Mongolian drug Naru-3 on traumatic spinal cord injury and its mechanism of action. |
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Q34243826 | CCL2 modulates cytokine production in cultured mouse astrocytes. |
Q43123425 | CCR2 mediates increases in glial activation caused by exposure to HIV-1 Tat and opiates |
Q39174919 | CCR5 blockade promotes M2 macrophage activation and improves locomotor recovery after spinal cord injury in mice |
Q33292442 | Characterization and modeling of monocyte-derived macrophages after spinal cord injury |
Q48215354 | Chemokine expression by glial cells directs leukocytes to sites of axonal injury in the CNS. |
Q37442685 | Chemokines as possible targets in modulation of the secondary damage after acute spinal cord injury: a review. |
Q38018862 | Chemokines in CNS injury and repair |
Q37127452 | Comparative analysis of lesion development and intraspinal inflammation in four strains of mice following spinal contusion injury |
Q34213595 | Cytokine concentrations in the cerebrospinal fluid of great danes with cervical spondylomyelopathy |
Q30279070 | Dealing with Danger in the CNS: The Response of the Immune System to Injury |
Q24645659 | Deficiency in complement C1q improves histological and functional locomotor outcome after spinal cord injury |
Q42319486 | Dexmedetomidine Attenuates Lipopolysaccharide Induced MCP-1 Expression in Primary Astrocyte. |
Q38934165 | E6020, a synthetic TLR4 agonist, accelerates myelin debris clearance, Schwann cell infiltration, and remyelination in the rat spinal cord |
Q35120149 | Effects of cytokines and chemokines on migration of mesenchymal stem cells following spinal cord injury |
Q34803821 | Effects of radiation combined injury on hippocampal function are modulated in mice deficient in chemokine receptor 2 (CCR2) |
Q37852601 | Emerging concepts in myeloid cell biology after spinal cord injury |
Q47403782 | Enhanced axonal growth into a spinal cord contusion injury site in a strain of mouse (129X1/SvJ) with a diminished inflammatory response. |
Q46848381 | Expression of two temporally distinct microglia-related gene clusters after spinal cord injury |
Q36933918 | Herpes simplex virus type 2-induced mortality following genital infection is blocked by anti-tumor necrosis factor alpha antibody in CXCL10-deficient mice |
Q37638184 | High-resolution intravital imaging reveals that blood-derived macrophages but not resident microglia facilitate secondary axonal dieback in traumatic spinal cord injury |
Q28505948 | Impaired neuropathic pain responses in mice lacking the chemokine receptor CCR2 |
Q27307172 | Infiltrating blood-derived macrophages are vital cells playing an anti-inflammatory role in recovery from spinal cord injury in mice |
Q35822559 | Low-dose TNF augments fracture healing in normal and osteoporotic bone by up-regulating the innate immune response. |
Q37323335 | Managing inflammation after spinal cord injury through manipulation of macrophage function |
Q88574913 | Mesenchymal Stem Cell-Macrophage Choreography Supporting Spinal Cord Repair |
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Q48726201 | Modulating CCR2 and CCL2 at the blood-brain barrier: relevance for multiple sclerosis pathogenesis |
Q35052673 | Molecular control of physiological and pathological T-cell recruitment after mouse spinal cord injury |
Q42737316 | Multiple roles for CCR2 during fracture healing |
Q28828352 | Olfactory Ensheathing Cell Transplantation after a Complete Spinal Cord Transection Mediates Neuroprotective and Immunomodulatory Mechanisms to Facilitate Regeneration |
Q57454605 | Peripherally derived macrophages modulate microglial function to reduce inflammation after CNS injury |
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Q89584311 | Recent update on basic mechanisms of spinal cord injury |
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Q28268523 | Role of CCL2 (MCP-1) in traumatic brain injury (TBI): evidence from severe TBI patients and CCL2-/- mice |
Q34170906 | Role of chemokines in CNS health and pathology: a focus on the CCL2/CCR2 and CXCL8/CXCR2 networks |
Q92127631 | Spinal Motor Circuit Synaptic Plasticity after Peripheral Nerve Injury Depends on Microglia Activation and a CCR2 Mechanism |
Q95270109 | Synaptic Plasticity on Motoneurons After Axotomy: A Necessary Change in Paradigm |
Q46736941 | Systemic injections of lipopolysaccharide accelerates myelin phagocytosis during Wallerian degeneration in the injured mouse spinal cord |
Q35103492 | T lymphocytes do not directly mediate the protective effect of estrogen on experimental autoimmune encephalomyelitis |
Q34612387 | Targeting anti-inflammatory treatment can ameliorate injury-induced neuropathic pain |
Q38598334 | The Role of Therapeutic Hypothermia After Traumatic Spinal Cord Injury--A Systematic Review |
Q90186982 | The enhancement of CCL2 and CCL5 by human bone marrow-derived mesenchymal stem/stromal cells might contribute to inflammatory suppression and axonal extension after spinal cord injury |
Q27311808 | The glial scar-monocyte interplay: a pivotal resolution phase in spinal cord repair |
Q34798755 | The occurrence of diffuse axonal injury in the brain: associated with the accumulation and clearance of myelin debris |
Q92721012 | The origin, fate, and contribution of macrophages to spinal cord injury pathology |
Q38758872 | The regenerative effects of electromagnetic field on spinal cord injury |
Q35183162 | Three or more routes for leukocyte migration into the central nervous system |
Q57090611 | Toll-Like Receptor Signaling Is Critical for Wallerian Degeneration and Functional Recovery after Peripheral Nerve Injury |
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