2019
Using holographic illumination to study synaptic signal integration at individual dendritic spines
Weng J, Celis C, Zecevic D. Using holographic illumination to study synaptic signal integration at individual dendritic spines. 2019, 10865: 1086514. DOI: 10.1117/12.2507284.Peer-Reviewed Original ResearchSynaptic signal integrationExcitatory synaptic potentialsDendritic spinesSynaptic potentialsTemporal summationAcute cortical brain slicesIndividual synapsesLayer 5 pyramidal neuronsIndividual excitatory synapsesThin basal dendritesCortical brain slicesVoltage-sensitive dye recordingIndividual dendritic spinesSite of originSensory information processingBasal dendritesPyramidal neuronsExcitatory synapsesBrain slicesRepetitive activationVoltage-sensitive dyeSomatic recordingsSingle synapsesSynaptic signalsIndividual neurons
2012
Voltage-sensitive dye recording from axons, dendrites and dendritic spines of individual neurons in brain slices.
Popovic M, Gao X, Zecevic D. Voltage-sensitive dye recording from axons, dendrites and dendritic spines of individual neurons in brain slices. Journal Of Visualized Experiments 2012, e4261. PMID: 23222505, PMCID: PMC3565854, DOI: 10.3791/4261.Peer-Reviewed Original ResearchConceptsLaser light sourceSub-micrometer resolutionLight sourceOptical recordingDetectable pharmacological effectsCurrent sensitivityVoltage-sensitive dyeSubthreshold eventsElectrical propertiesDetailed measurementsMultiple-site optical recordingVoltage-sensitive dye recordingFluorescence signalOptimal wavelengthsMembrane potential transientsElectrical signalsIndividual dendritic spinesExperimental evidenceWavelengthMeasurement oneMeasurementsBroadeningDye loadingPotential transientsBrightness
2010
Imaging Submillisecond Membrane Potential Changes from Individual Regions of Single Axons, Dendrites and Spines
Canepari M, Popovic M, Vogt K, Holthoff K, Konnerth A, Salzberg B, Grinvald A, Antic S, Zecevic D. Imaging Submillisecond Membrane Potential Changes from Individual Regions of Single Axons, Dendrites and Spines. 2010, 25-41. DOI: 10.1007/978-1-4419-6558-5_3.Peer-Reviewed Original ResearchIndividual neuronsMembrane potential changesVoltage-sensitive dye recordingAction potential initiationIndividual dendritic spinesSite of originAxon collateralsIndividual nerve cellsMembrane potential transientsVoltage-sensitive dyeDendritic spinesRegional electrical propertiesDendritic treeNerve cellsNeuronal processesSingle axonsPotential initiationComplex operational unitsBehavioral modificationNeuronal network analysisNeuronsInput-output functionMultisite recordingsSubthreshold eventsSpine
1999
Chapter sixteen Imaging Membrane Potential Changes in Individual Neurons
Antić S, Zečević D. Chapter sixteen Imaging Membrane Potential Changes in Individual Neurons. 1999, 238-248. DOI: 10.1016/b978-012447836-7/50018-x.Peer-Reviewed Original ResearchVoltage-sensitive dyeIndividual neuronsSingle neuronsVoltage-sensitive dye recordingSpatial resolutionIndirect optical measurementsDirect electrical recordingOptical signalGood spatial resolutionOptical measurementsIndividual nerve cellsPresent sensitivityFunctional neuronal networksNeuronal dendritic treeOptical recordingDendritic treeNerve cellsDye injectionNeuronsIntracellular applicationMembrane potential changesNeuronal networksMultisite recordingsElectrical recordingsLocal modulation