Migration of perilesional microglia after focal brain injury and modulation by CC chemokine receptor 5: an in situ time-lapse confocal imaging study.
about
β1 integrin targeting potentiates antiangiogenic therapy and inhibits the growth of bevacizumab-resistant glioblastomaMicroglial migration and interactions with dendrimer nanoparticles are altered in the presence of neuroinflammation.The vascular basement membrane as "soil" in brain metastasisTGF-beta1 blockade of microglial chemotaxis toward Abeta aggregates involves SMAD signaling and down-regulation of CCL5Intracranial electrode implantation produces regional neuroinflammation and memory deficits in rats.A multispecies approach for understanding neuroimmune mechanisms of stress.Neurobiology of microglial action in CNS injuries: receptor-mediated signaling mechanisms and functional rolesIRF8 is a transcriptional determinant for microglial motility.The spider effect: morphological and orienting classification of microglia in response to stimuli in vivo.Effects of axon degeneration on oligodendrocyte lineage cells: dorsal rhizotomy evokes a repair response while axon degeneration rostral to spinal contusion induces both repair and apoptosis.Intrinsic targeting of inflammatory cells in the brain by polyamidoamine dendrimers upon subarachnoid administration.Identification of chemoattractive factors involved in the migration of bone marrow-derived mesenchymal stem cells to brain lesions caused by prionsFluoxetine prevents oligodendrocyte cell death by inhibiting microglia activation after spinal cord injuryEye movement dynamics and cognitive self-organization in typical and atypical developmentRANTES levels in peripheral blood, CSF and contused brain tissue as a marker for outcome in traumatic brain injury (TBI) patientsMicroglia: key elements in neural development, plasticity, and pathologyGLUT3 upregulation promotes metabolic reprogramming associated with antiangiogenic therapy resistance.Influence of the extracellular matrix on endogenous and transplanted stem cells after brain damageMicroglia Function in the Normal Brain.Imaging Microglial Activation in Untreated First-Episode Psychosis: A PET Study With [18F]FEPPA.Developmental changes in microglial mobilization are independent of apoptosis in the neonatal mouse hippocampus.Intranasal administration of the growth-compromised HSV-2 vector DeltaRR prevents kainate-induced seizures and neuronal loss in rats and mice.TNF-alpha knockout and minocycline treatment attenuates blood-brain barrier leakage in MPTP-treated mice.Developmental stage of oligodendrocytes determines their response to activated microglia in vitro.Neuroinflammatory responses after experimental diffuse traumatic brain injury.CXCR4 involvement in neurodegenerative diseases.
P2860
Q24564890-678D2E96-B426-4D2D-BC3B-88BCDDC28F32Q27303218-23AF5EA8-F40D-42D4-A82B-D3C83B1F8DD0Q27348725-CF20545B-2F95-486F-BD9E-D19E59046FBCQ28568787-4F1BFC34-7507-4283-A7F3-4FF9B5E133D9Q33665728-A67AA845-3307-486B-A06C-29AF1919FACBQ33721025-51C344A6-A6E0-4BE1-8D3F-5DE3A5AC89E1Q34002086-30886003-EDBF-4317-9FD2-1A2D2047E54FQ34123222-1AA70232-D6B8-4019-872F-2A9F75637552Q34170232-BF083BDD-E0EF-4E8F-BB85-302926257CD0Q34610550-257F627E-275E-4C5A-A67D-45D807308694Q34983738-C33F4919-DD94-404A-BA15-6E56478CDE57Q35362995-F8F088C2-46B5-440F-9ED6-D49410D52758Q35540600-FC90FB0F-C948-4979-9709-3912633B159AQ35658716-0174A99F-333B-4F29-9F7A-FFC4796F1A11Q36322531-9FEBE5FD-B0E6-42F5-8D31-993F3D73AEB9Q36853285-D104CF51-352B-400B-A550-665F167C010EQ37599547-DCA9BB15-18A2-4396-8BCC-1C7DE8B1E4AAQ38246263-73DCBF27-6037-4E57-B619-2E73E851DD71Q38813884-2B773163-4D0C-470A-93FD-A4C598DB2E97Q39409090-F604C866-317C-42A1-8ECD-4B5C38AA18D1Q41430869-929C53E6-60F1-4B17-B6CF-A4469EB86BD6Q42382222-2152356F-16B1-41F1-86B7-065BE86FB787Q42745599-3DE8F745-7243-42FF-80E8-4A1D0F4BE7D7Q42974441-823F9409-09EE-441A-B051-7974E109CACEQ44933494-8A942D58-604A-40AD-927F-9E4FB63EDA3AQ52317581-C3F67A51-3EF5-495E-9F30-B1ED668C2280
P2860
Migration of perilesional microglia after focal brain injury and modulation by CC chemokine receptor 5: an in situ time-lapse confocal imaging study.
description
2005 nî lūn-bûn
@nan
2005 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Migration of perilesional micr ...... -lapse confocal imaging study.
@ast
Migration of perilesional micr ...... -lapse confocal imaging study.
@en
type
label
Migration of perilesional micr ...... -lapse confocal imaging study.
@ast
Migration of perilesional micr ...... -lapse confocal imaging study.
@en
prefLabel
Migration of perilesional micr ...... -lapse confocal imaging study.
@ast
Migration of perilesional micr ...... -lapse confocal imaging study.
@en
P2093
P1476
Migration of perilesional micr ...... e-lapse confocal imaging study
@en
P2093
Alan F Horwitz
James W Mandell
Shin-Ichi Murase
W Shawn Carbonell
P304
P356
10.1523/JNEUROSCI.5171-04.2005
P407
P577
2005-07-01T00:00:00Z