Featured Publications
Angiophagy Prevents Early Embolus Washout But Recanalizes Microvessels Through Embolus Extravasation
Grutzendler J, Murikinati S, Hiner B, Ji L, Lam CK, Yoo T, Gupta S, Hafler BP, Adelman RA, Yuan P, Rodriguez G. Angiophagy Prevents Early Embolus Washout But Recanalizes Microvessels Through Embolus Extravasation. Science Translational Medicine 2014, 6: 226ra31. PMID: 24598589, DOI: 10.1126/scitranslmed.3006585.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBrainCerebrovascular CirculationCoronary CirculationEmbolismFibrinFibrinolysisFundus OculiGreen Fluorescent ProteinsHemodynamicsHumansKidney TubulesLungMacrophagesMiceMice, TransgenicMicrocirculationMicrogliaMicroscopy, Electron, TransmissionMicrovesselsMonocytesPhagocytosisRetinaRetinal VesselsThrombosisConceptsBlood flow reestablishmentHours of occlusionVascular occlusive disordersDifferent therapeutic strategiesEmbolic occlusionOcclusive disordersVessel recanalizationAlveolar spaceTherapeutic strategiesTherapeutic targetHemodynamic pressureFibrinolytic systemPerivascular spacesEmboliRenal tubulesBlood clotsMicrovascular wallMost human organsOcclusionLungExtravasationKidneyEndotheliumMicrovasculatureWashoutAngiophagy
Grutzendler J. Angiophagy. Stroke 2013, 44: s84-s86. PMID: 23709741, DOI: 10.1161/strokeaha.112.678730.Peer-Reviewed Original ResearchEmbolus extravasation is an alternative mechanism for cerebral microvascular recanalization
Lam CK, Yoo T, Hiner B, Liu Z, Grutzendler J. Embolus extravasation is an alternative mechanism for cerebral microvascular recanalization. Nature 2010, 465: 478-482. PMID: 20505729, PMCID: PMC2879083, DOI: 10.1038/nature09001.Peer-Reviewed Original ResearchConceptsAge-related cognitive disordersBlood vesselsPossible therapeutic targetAged miceBlood flowTherapeutic targetCognitive disordersMice showBlood clotsEndothelial cellsUnderlying endotheliumMicroemboliExtravasationFibrinolysisVesselsRecanalizationEmboliPatientsStrokeEndotheliumMiceBloodBrainWeeksClotsRegional Blood Flow in the Normal and Ischemic Brain Is Controlled by Arteriolar Smooth Muscle Cell Contractility and Not by Capillary Pericytes
Hill RA, Tong L, Yuan P, Murikinati S, Gupta S, Grutzendler J. Regional Blood Flow in the Normal and Ischemic Brain Is Controlled by Arteriolar Smooth Muscle Cell Contractility and Not by Capillary Pericytes. Neuron 2015, 87: 95-110. PMID: 26119027, PMCID: PMC4487786, DOI: 10.1016/j.neuron.2015.06.001.Peer-Reviewed Original ResearchMeSH KeywordsActinsAnimalsArteriolesBrainBrain IschemiaCalciumCapillariesCerebral CortexCerebrovascular CirculationHumansMiceMuscle ContractionMuscle, Smooth, VascularMyocytes, Smooth MusclePericytesConceptsSmooth muscle cellsCerebral blood flowBlood flowCapillary pericytesArteriolar smooth muscle cellsBlood flow regulationRegional blood flowNormal brain functionSmooth muscle actinSmooth muscle cell contractilityMuscle cell contractilityPericyte constrictionIschemic brainBrain ischemiaMicrovascular occlusionNeurovascular couplingMicrovascular diametersWhisker stimulationMuscle actinMuscle cellsBrain functionMajor causePathological conditionsPericytesVascular tree
2019
Cellular Control of Brain Capillary Blood Flow: In Vivo Imaging Veritas
Grutzendler J, Nedergaard M. Cellular Control of Brain Capillary Blood Flow: In Vivo Imaging Veritas. Trends In Neurosciences 2019, 42: 528-536. PMID: 31255380, PMCID: PMC7386067, DOI: 10.1016/j.tins.2019.05.009.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBrainCapillariesCerebrovascular CirculationHemodynamicsHumansNeurovascular CouplingConceptsCapillary blood flowBlood flowBrain capillary blood flowRegional cerebral blood flowCerebral blood flowRed blood cell deformabilityBlood cell deformabilityMicrovascular perfusionNeurovascular couplingMicrovascular flowBrain metabolitesMural cellsLevel-dependent changesNeural activationVessel diameterMicrovascular treeNeural activityCell deformabilityCell controlDirect visualizationMethodological standardsVasomotilityPerfusionControl
2013
Perturbed neural activity disrupts cerebral angiogenesis during a postnatal critical period
Whiteus C, Freitas C, Grutzendler J. Perturbed neural activity disrupts cerebral angiogenesis during a postnatal critical period. Nature 2013, 505: 407-411. PMID: 24305053, PMCID: PMC3947100, DOI: 10.1038/nature12821.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnimals, NewbornBlood VesselsCapillariesCell ProliferationCerebral CortexCerebrovascular CirculationDendritic SpinesEndothelial CellsFemaleHypoxia, BrainInterneuronsMaleMiceMicrocirculationNeovascularization, PathologicNeovascularization, PhysiologicNeurogliaNeuronsNG-Nitroarginine Methyl EsterNitric OxideNitric Oxide SynthaseOxygenSignal TransductionTime FactorsVibrissae