2009
DETECTION OF Ca2+-DEPENDENT NEURONAL ACTIVITY SIMULTANEOUSLY WITH DYNAMIC CHANGES IN CEREBRAL BLOOD VOLUME AND TISSUE OXYGENATION FROM THE LIVE RAT BRAIN
DU C, LUO Z, YU M, BENVENISTE H, TULLY M, PAN R, CHANCE B. DETECTION OF Ca2+-DEPENDENT NEURONAL ACTIVITY SIMULTANEOUSLY WITH DYNAMIC CHANGES IN CEREBRAL BLOOD VOLUME AND TISSUE OXYGENATION FROM THE LIVE RAT BRAIN. Journal Of Innovative Optical Health Sciences 2009, 2: 189-200. DOI: 10.1142/s1793545809000498.Peer-Reviewed Original ResearchCerebral blood volumeFunctional magnetic resonance imagingRat brainTissue oxygenationBlood volumeElectrical forepaw stimulationMagnetic resonance imagingLevel-dependent responsesHemodynamic changesCortical brainBrain functional studiesForepaw stimulationIntracellular calciumSomatosensory responsesNeuronal activityStroke experimentsResonance imagingFunctional changesBrainBrain activationLive rat brainBrain responsesNew modalityOxygenationStimulation
2007
Evolution of a Focal Brain Lesion Produced by Interlaced Microplanar X-Rays
Anschel D, Romanelli P, Benveniste H, Foerster B, Kalef-Ezra J, Zhong Z, Dilmanian F. Evolution of a Focal Brain Lesion Produced by Interlaced Microplanar X-Rays. Min - Minimally Invasive Neurosurgery 2007, 50: 43-46. PMID: 17546543, DOI: 10.1055/s-2007-976514.Peer-Reviewed Original ResearchConceptsT2 signalCentral nervous system diseaseHigh T2 signalNervous system diseasesTesla magnetic resonance imagingFocal brain lesionsMagnetic resonance imagingBrain lesionsRadiosurgical approachRat brainSystem diseasesStereotactic radiosurgeryHigh-dose irradiationFuture treatmentLow dosesLesionsResonance imagingLow T1Dose irradiationBrainTreatmentPrecise targetsX-ray