2010
Combined Voltage and Calcium Imaging and Signal Calibration
Canepari M, Saggau P, Zecevic D. Combined Voltage and Calcium Imaging and Signal Calibration. 2010, 43-52. DOI: 10.1007/978-1-4419-6558-5_4.Peer-Reviewed Original ResearchOptical measurementsVoltage-sensitive dye signalsVoltage imagingAbsolute scaleCapability of voltageVoltage-sensitive dyeFluorescent voltage-sensitive dyeSignal calibrationDye signalsSpatial mappingVoltageMeasurementsVoltage signalImagingMembrane potential changesSignalsCalibrationCombined voltageFundamental problem
2009
Imaging Membrane Potential with Voltage-Sensitive Dyes
Vucinic D, Kosmidis E, Falk C, Cohen L, Loew L, Djurisic M, Zecevic D. Imaging Membrane Potential with Voltage-Sensitive Dyes. 2009, 132-160. DOI: 10.1093/oso/9780195150445.003.0006.Peer-Reviewed Original ResearchMembrane-bound dyeOptical signalSecond harmonic generationVoltage-sensitive dyeDifferent optical propertiesHarmonic generationOptical measurementsOptical propertiesRaman absorptionOptical recordingRise timeSimultaneous measurementAbsorptionFigure 6.1BirefringenceFluorescenceMeasurementsDichroismDyeMolecular probesSignalsSquidKinds of results
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
1989
Optical Measurement of Action Potential Activity in Invertebrate Ganglia
Cohen L, Hopp H, Wu J, Xiao C, London J, Zecevic D. Optical Measurement of Action Potential Activity in Invertebrate Ganglia. Annual Review Of Physiology 1989, 51: 527-541. PMID: 2653195, DOI: 10.1146/annurev.ph.51.030189.002523.Peer-Reviewed Original ResearchConceptsAplysia abdominal ganglionGill withdrawal reflexBuccal gangliaAbdominal ganglionAction potential activitySynaptic potentialsGill withdrawalSpike activityGangliaNeuronal basisNeuronsInvertebrate gangliaBehaving animalsReflexNetwork of cellsPotential activityFeedingOptical measurementsActivityOptical recording of membrane potential at the single cell level
Cohen L, Hoepp H, Wu J, Xiao C, Zecevic D, London J. Optical recording of membrane potential at the single cell level. 1989, wd2. DOI: 10.1364/oam.1989.wd2.Peer-Reviewed Original ResearchExcellent time resolutionOptical signalsOptical recordings of membrane potentialGill withdrawal reflexMolecular rotationTime resolutionOptical measurementsRecordings of membrane potentialMembrane potentialNervous systemOptical propertiesAction potential activityPhotodiode arrayOptical recordingActivity of neuronsAbdominal ganglionSimultaneous measurement