| scholarly article | Q13442814 |
| review article | Q7318358 |
| P356 | DOI | 10.1161/STROKEAHA.108.533117 |
| P8608 | Fatcat ID | release_ccd4exvxlvds7fnvr53jgtlmoq |
| P932 | PMC publication ID | 2724312 |
| P698 | PubMed publication ID | 19064799 |
| P2093 | author name string | Mark Fisher | |
| P2860 | cites work | Brain endothelial hemostasis regulation by pericytes | Q28261487 |
| Vascular-bed--specific hemostasis and hypercoagulable states | Q33637363 | ||
| Pericytes: cell biology and pathology | Q34243347 | ||
| Microglia, macrophages, perivascular macrophages, and pericytes: a review of function and identification | Q35581623 | ||
| Cell biology of the neurovascular unit: implications for drug delivery across the blood-brain barrier | Q36083831 | ||
| Physiologic angiodynamics in the brain | Q36879212 | ||
| Defective N-sulfation of heparan sulfate proteoglycans limits PDGF-BB binding and pericyte recruitment in vascular development | Q42276166 | ||
| Pericyte migration from the vascular wall in response to traumatic brain injury | Q42489883 | ||
| Role of central nervous system microvascular pericytes in activation of antigen-primed splenic T-lymphocytes | Q48260181 | ||
| Microarray analysis of blood microvessels from PDGF-B and PDGF-Rbeta mutant mice identifies novel markers for brain pericytes | Q48483961 | ||
| In vitro interaction of astrocytes and pericytes with capillary-like structures of brain microvessel endothelium | Q48691361 | ||
| Human brain pericytes differentially regulate expression of procoagulant enzyme complexes comprising the extrinsic pathway of blood coagulation | Q48819120 | ||
| CNS microvascular pericytes exhibit multipotential stem cell activity. | Q51285884 | ||
| The critical component to establish in vitro BBB model: Pericyte | Q81297596 | ||
| P433 | issue | 3 Suppl | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | pericyte | Q500446 |
| P304 | page(s) | S13-5 | |
| P577 | publication date | 2008-12-08 | |
| P1433 | published in | Stroke Journal | Q7624282 |
| P1476 | title | Pericyte signaling in the neurovascular unit | |
| P478 | volume | 40 |
| Q37868835 | ATP-binding cassette transporters and their roles in protecting the brain |
| Q38844684 | Astrocytic laminin regulates pericyte differentiation and maintains blood brain barrier integrity. |
| Q37739297 | Basement membrane components are key players in specialized extracellular matrices |
| Q36925594 | Blocking neurogenic inflammation for the treatment of acute disorders of the central nervous system. |
| Q26740083 | Bone marrow mesenchymal stem cell therapy in ischemic stroke: mechanisms of action and treatment optimization strategies |
| Q38207598 | Brain mesenchymal stem cells: The other stem cells of the brain? |
| Q38858359 | Brain mesenchymal stem cells: physiology and pathological implications |
| Q38009070 | Breaking the barrier in stroke: what should we know? A mini-review. |
| Q37522167 | CNS pericytes: concepts, misconceptions, and a way out. |
| Q41495491 | Cellular immune surveillance of central nervous system bypasses blood-brain barrier and blood-cerebrospinal-fluid barrier: revealed with the New Marburg cerebrospinal-fluid model in healthy humans |
| Q39116577 | Cerebral Vascular Disease and Neurovascular Injury in Ischemic Stroke |
| Q34813136 | Cerebral microbleeds in the elderly: a pathological analysis |
| Q42703790 | Cerebral microvascular rarefaction induced by whole brain radiation is reversible by systemic hypoxia in mice |
| Q35170190 | Control of muscle blood flow during exercise: local factors and integrative mechanisms |
| Q39089100 | Diverse Functions and Mechanisms of Pericytes in Ischemic Stroke |
| Q33718998 | Early Protective Effect of Bone Marrow Mononuclear Cells Against Ischemic White Matter Damage Through Augmentation of Cerebral Blood Flow |
| Q36895795 | Endocannabinoids in cerebrovascular regulation |
| Q37150333 | Evidence for high translational potential of mesenchymal stromal cell therapy to improve recovery from ischemic stroke. |
| Q36351793 | Extracellular matrix and matrix receptors in blood-brain barrier formation and stroke |
| Q55461485 | Extracellular vesicles: mediators and biomarkers of pathology along CNS barriers. |
| Q38332124 | From pathobiology to the targeting of pericytes for the treatment of diabetic retinopathy |
| Q50508739 | GGF2 (Nrg1-β3) treatment enhances NG2+ cell response and improves functional recovery after spinal cord injury. |
| Q52685813 | Glioblastoma-activated pericytes support tumor growth via immunosuppression. |
| Q50880933 | How Plastic Are Pericytes? |
| Q37397465 | Immunolocalization of platelet-derived growth factor receptor-β (PDGFR-β) and pericytes in cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL). |
| Q36596540 | Intraocular hemorrhage causes retinal vascular dysfunction via plasma kallikrein |
| Q33653045 | Ischemia-reperfusion injury in stroke |
| Q36700117 | Kruppel-like factor 2 protects against ischemic stroke by regulating endothelial blood brain barrier function |
| Q39114617 | Lessons from a mouse model characterizing features of vascular cognitive impairment with white matter changes |
| Q51653081 | Microvascular disturbance with decreased pericyte coverage is prominent in the ventral horn of patients with amyotrophic lateral sclerosis. |
| Q38023082 | Microvascular remodeling and wound healing: a role for pericytes |
| Q38139823 | Monocyte chemoattractant protein-1 and the blood-brain barrier |
| Q34150255 | Morphology and Properties of Pericytes |
| Q38012354 | NADPH oxidases as therapeutic targets in ischemic stroke. |
| Q57570763 | Nanoparticle Functionalization for Brain Targeting Drug Delivery and Diagnostic |
| Q37988811 | Neurovascular unit: a focus on pericytes |
| Q38708802 | Pathophysiology of the cochlear intrastrial fluid-blood barrier (review). |
| Q36888327 | Pazopanib inhibits the activation of PDGFRβ-expressing astrocytes in the brain metastatic microenvironment of breast cancer cells |
| Q47250226 | Pericytes Make Spinal Cord Breathless after Injury |
| Q52872128 | Pericytes are heterogeneous in their origin within the same tissue. |
| Q34357219 | Pericytes at the intersection between tissue regeneration and pathology |
| Q39006116 | Pericytes in Brain Injury and Repair After Ischemic Stroke |
| Q47928247 | Pericytes modulate myelination in the central nervous system |
| Q49544674 | Pericytes: The Role of Multipotent Stem Cells in Vascular Maintenance and Regenerative Medicine |
| Q52600938 | Perivascular cell αv integrins as a target to treat skeletal muscle fibrosis. |
| Q38555255 | Prenatal exposure to common environmental factors affects brain lipids and increases risk of developing autism spectrum disorders |
| Q37434887 | Proposed toxic and hypoxic impairment of a brainstem locus in autism |
| Q30871112 | Studying the neurovascular unit: an improved blood-brain barrier model |
| Q54979102 | Targeting glioblastoma-derived pericytes improves chemotherapeutic outcome. |
| Q30476883 | The CNS microvascular pericyte: pericyte-astrocyte crosstalk in the regulation of tissue survival |
| Q37385549 | The blood-brain barrier in neurodegenerative disease: a rhetorical perspective |
| Q38134725 | The blood-brain barrier: an engineering perspective. |
| Q28240807 | The blood-spinal cord barrier: morphology and clinical implications |
| Q36058921 | The evolving roles of pericyte in early brain injury after subarachnoid hemorrhage |
| Q52719960 | The neuroprotective role of boric acid on aluminum chloride-induced neurotoxicity. |
| Q37914769 | The possible roles of brain pericytes in brain ischemia and stroke |
| Q83260520 | The putative role of pericytes in tumor angiogenesis |
| Q35646049 | Topiramate treatment protects blood-brain barrier pericytes from hyperglycemia-induced oxidative damage in diabetic mice |
| Q34141823 | Whole brain radiation-induced impairments in learning and memory are time-sensitive and reversible by systemic hypoxia |
| Q38150963 | Whole brain radiation-induced vascular cognitive impairment: mechanisms and implications |
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