2003
Imaging Nervous System Activity with Voltage‐Sensitive Dyes
Zecevic D, Djurisic M, Cohen LB, Antic S, Wachowiak M, Falk CX, Zochowski MR. Imaging Nervous System Activity with Voltage‐Sensitive Dyes. Current Protocols In Neuroscience 2003, 23: 6.17.1-6.17.29. PMID: 18428582, DOI: 10.1002/0471142301.ns0617s23.Peer-Reviewed Original ResearchConceptsNumber of photonsVoltage-sensitive dyeVoltage-sensitive dye measurementsLight sourceShot noiseOptical recordingOptical recording methodSynaptic inputsChoice of dyeSimultaneous measurementNervous system activityAction potential outputAplysia abdominal ganglionLarge signalNoise ratioAbdominal ganglionNervous systemPhotonsDye measurementsOpticsMotor outputSystem activitySensory stimuliMeasurementsVertebrate brain
1993
Optical measurement of action potential activity in invertebrate ganglia.
Wu J, Falk C, Cohen L, Tsau Y, Zecevic D. Optical measurement of action potential activity in invertebrate ganglia. The Journal Of Physiological Sciences 1993, 43 Suppl 1: s21-9. PMID: 8271496.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus Statements
1992
6 Many neurones in the Aplysia abdominal ganglion are active during the gill-withdrawal reflex
Falk C, Wu J, Cohen L, Hopp H, Zecevic D, London J, Roschin V. 6 Many neurones in the Aplysia abdominal ganglion are active during the gill-withdrawal reflex. 1992, 88-101. DOI: 10.1016/b978-0-08-041986-2.50011-4.Peer-Reviewed Original ResearchAplysia abdominal ganglionGill withdrawal reflexAbdominal ganglionActive neuronsAction potential activityNumber of spikesGenital nerveOptical recording methodVoltage-sensitive dyeGill withdrawalNeuron activityNervous tissueGangliaSensitized stateNeuronsInvertebrate gangliaAplysia californicaReflexExtracellular electrodesOptical recordingPotential activityRecording methodNerveInterneuronsRecordings
1989
Hundreds of neurons in the Aplysia abdominal ganglion are active during the gill-withdrawal reflex
Zecevic D, Wu J, Cohen L, London J, Hopp H, Falk C. Hundreds of neurons in the Aplysia abdominal ganglion are active during the gill-withdrawal reflex. Journal Of Neuroscience 1989, 9: 3681-3689. PMID: 2795148, PMCID: PMC6569909, DOI: 10.1523/jneurosci.09-10-03681.1989.Peer-Reviewed Original ResearchOptical 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
1988
Optical monitoring of activity of many neurons in invertebrate ganglia during behaviors
Wu J, London JA, Zecevic D, Höpp H, Cohen LB, Xiao C. Optical monitoring of activity of many neurons in invertebrate ganglia during behaviors. Cellular And Molecular Life Sciences 1988, 44: 369-376. PMID: 3286282, DOI: 10.1007/bf01940529.Peer-Reviewed Original Research