Featured Publications
Regional 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 ResearchConceptsSmooth 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
2017
Oxalate-curcumin–based probe for micro- and macroimaging of reactive oxygen species in Alzheimer’s disease
Yang J, Zhang X, Yuan P, Yang J, Xu Y, Grutzendler J, Shao Y, Moore A, Ran C. Oxalate-curcumin–based probe for micro- and macroimaging of reactive oxygen species in Alzheimer’s disease. Proceedings Of The National Academy Of Sciences Of The United States Of America 2017, 114: 12384-12389. PMID: 29109280, PMCID: PMC5703278, DOI: 10.1073/pnas.1706248114.Peer-Reviewed Original ResearchConceptsCerebral amyloid angiopathyAD brainAlzheimer's diseaseTwo-photon imagingNIRF imagingAmyloid-beta plaquesROS levelsIrreversible neurodegenerative disorderAD pathological conditionsAge-related increaseReactive oxygen species levelsAmyloid angiopathyBeta plaquesOxygen species levelsDrug treatmentHealthy brainNeurodegenerative disordersDiseaseOxidative stressHigh ROS levelsPathological conditionsReactive oxygen speciesBrainFluorescence imaging probeOxygen species
2016
Neurovascular and Immuno-Imaging: From Mechanisms to Therapies. Proceedings of the Inaugural Symposium
Akassoglou K, Agalliu D, Chang CJ, Davalos D, Grutzendler J, Hillman EM, Khakh BS, Kleinfeld D, McGavern DB, Nelson SJ, Zlokovic BV. Neurovascular and Immuno-Imaging: From Mechanisms to Therapies. Proceedings of the Inaugural Symposium. Frontiers In Neuroscience 2016, 10: 46. PMID: 26941593, PMCID: PMC4761864, DOI: 10.3389/fnins.2016.00046.Peer-Reviewed Original ResearchNeurovascular interfaceNeurological diseasesTherapeutic interventionsNovel targetInteractive symposiumPathological conditionsIntravital imagingVascular biologyNeurovascularVascular systemDiseaseBiological mechanismsRecent studiesUniversity of CaliforniaFundamental biological mechanismsSan FranciscoTherapyBrainInaugural symposiumImmunology
2011
Transcranial Two-Photon Imaging of the Living Mouse Brain
Grutzendler J, Yang G, Pan F, Parkhurst CN, Gan WB. Transcranial Two-Photon Imaging of the Living Mouse Brain. Cold Spring Harbor Protocols 2011, 2011: pdb.prot065474. PMID: 21880826, PMCID: PMC4641516, DOI: 10.1101/pdb.prot065474.Peer-Reviewed Original ResearchConceptsMouse brainAxonal varicositiesSurgical proceduresDendritic spinesSide effectsBrain cellsTwo-photon imagingInvasive methodBlood vesselsSame animalsPathological conditionsTwo-photon microscopyIntact skullBrainTranscranialImagingMicrogliaSurgeryVaricositiesImaging methodNeuronsLong time intervalsSpine
2010
Thinned-skull cranial window technique for long-term imaging of the cortex in live mice
Yang G, Pan F, Parkhurst CN, Grutzendler J, Gan WB. Thinned-skull cranial window technique for long-term imaging of the cortex in live mice. Nature Protocols 2010, 5: 201-208. PMID: 20134419, PMCID: PMC4690457, DOI: 10.1038/nprot.2009.222.Peer-Reviewed Original ResearchConceptsTwo-photon laser scanning microscopyHigh optical resolutionThinned-skull cranial windowImportant experimental toolOptical resolutionLiving brainCranial window techniqueLive miceLong-term imagingCranial windowExperimental toolInvasive approachAvoids exposureFunctional changesCortical structuresLongitudinal imagingPathological conditionsCortexBrainLaser scanning microscopyScanning microscopyMiceImagingMicroscopyResolution