2012
Empathy in electrodermal responsive and nonresponsive patients with schizophrenia
Ikezawa S, Corbera S, Liu J, Wexler BE. Empathy in electrodermal responsive and nonresponsive patients with schizophrenia. Schizophrenia Research 2012, 142: 71-76. PMID: 23058162, PMCID: PMC3502678, DOI: 10.1016/j.schres.2012.09.011.Peer-Reviewed Original ResearchMeSH KeywordsAdultAnalysis of VarianceAntipsychotic AgentsChlorpromazineElectroencephalographyEmpathyEvoked PotentialsFemaleGalvanic Skin ResponseHumansMaleMiddle AgedNeuropsychological TestsPersonality TestsPsychiatric Status Rating ScalesPsychotic DisordersRecognition, PsychologySchizophreniaSchizophrenic PsychologySocial BehaviorConceptsSkin conductance responsesEvent Related PotentialsSocial cognitionEmotion-evoking stimuliHealthy controlsPictures of peopleAssessment of symptomsERP responsesPersonal distressConductance responsesRelated potentialsNonresponsive patientsSchizophrenia patientsSCR frequencyCognitionPatientsSocial functionSocial integrationPotential markerSchizophreniaDistressPainPrognosisSubgroupsSymptoms
2001
Chlorpromazine Alters Outer Hair Cell Electromotility
Lue A, Zhao H, Brownell W. Chlorpromazine Alters Outer Hair Cell Electromotility. Otolaryngology 2001, 125: 71-76. PMID: 11458218, DOI: 10.1067/mhn.2001.116446.Peer-Reviewed Original ResearchConceptsOuter hair cellsHair cellsDose-dependent depolarizationGuinea pig outer hair cellsEffect of chlorpromazineElectromotile responseAntipsychotic medicationChlorpromazine treatmentHearing thresholdsLarge dosesCochlear sensitivityOtoacoustic emissionsInner earChlorpromazineOuter hair cell electromotilityHair cell electromotilityOHC electromotilityMembrane voltageRecording conditionsCellsMedicationsResponseElectromotility
2000
Voltage- and Tension-Dependent Lipid Mobility in the Outer Hair Cell Plasma Membrane
Oghalai J, Zhao H, Kutz J, Brownell W. Voltage- and Tension-Dependent Lipid Mobility in the Outer Hair Cell Plasma Membrane. Science 2000, 287: 658-661. PMID: 10650000, PMCID: PMC1976274, DOI: 10.1126/science.287.5453.658.Peer-Reviewed Original ResearchConceptsCell plasma membranePlasma membraneMembrane tensionOuter hair cell plasma membraneLipid-protein interactionsMembrane fluidityForce-generating motorsMammalian hearingLipid mobilityLipid lateral diffusionHair cellsOuter hair cellsCell depolarizationExquisite sensitivityMembraneLateral diffusionMedium osmolalityHyposmotic challengeCellsDynamic changesTransmembraneElectromotilityFluidityVoltage dependenceDrugs resultsSex Differences in Self-Reported and Physiological Response to Oral Cocaine and Placebo in Humans
Singha A, McCance-Katz E, Petrakis I, Kosten T, Oliveto A. Sex Differences in Self-Reported and Physiological Response to Oral Cocaine and Placebo in Humans. The American Journal Of Drug And Alcohol Abuse 2000, 26: 643-657. PMID: 11097197, DOI: 10.1081/ada-100101900.Peer-Reviewed Original ResearchConceptsBad drug effectsSex differencesSystolic blood pressureCocaine-abusing volunteersGreater increasePentobarbital-ChlorpromazineBlood pressurePlacebo controlDrug effectsActive drugOral cocainePlaceboBaseline ratingsCocaineGreater ratingsMalesDrugsFemalesPhysiological responsesResponseAlcohol groupDifferencesVolunteers
1998
CHRONOMERGE: An Application for the Merging and Display of Multiple Time-Stamped Data Streams
Nadkarni P. CHRONOMERGE: An Application for the Merging and Display of Multiple Time-Stamped Data Streams. Journal Of Biomedical Informatics 1998, 31: 451-464. PMID: 9843629, DOI: 10.1006/cbmr.1998.1492.Peer-Reviewed Original ResearchConceptsData streamsGraphical user interfaceTime-stamped dataSingle streamTime-stamp valuesDatabase applicationsUser interfaceSQL codeMultiple time seriesMultiple streamsMerge operationResultant streamStatistical aggregatesStandard toolStreamsMore parametersMergeMultiple timesGranularityRepositoryTime seriesDisplayApplicationsNumerous optionsSpecification
1986
The Effect of Drugs on Bile Flow and Composition
Okolicsanyi L, Lirussi F, Strazzabosco M, Jemmolo R, Orlando R, Nassuato G, Muraca M, Crepaldi G. The Effect of Drugs on Bile Flow and Composition. Drugs 1986, 31: 430-448. PMID: 2872047, DOI: 10.2165/00003495-198631050-00003.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBileBile Acids and SaltsCatsChlorpromazineCholagogues and CholereticsCholesterolClofibrateColchicineCricetinaeDehydrocholic AcidDiureticsDogsEnterohepatic CirculationEstrogensGlucagonGuinea PigsHumansInsulinLiverMacaca mulattaPhospholipidsRabbitsRatsRifampinRifamycinsSomatostatinTheophyllineUrsodeoxycholic AcidConceptsBile flowBile acidsBile acid sequestrant cholestyramineBiliary bile acid secretionBiliary cholesterol concentrationBiliary cholesterol saturationBiliary cholesterol secretionBile acid concentrationsBile acid secretionBiliary phospholipid concentrationDrug-induced changesComposition of bileUnconjugated bile acidsEffects of drugsVariety of drugsCholesterol secretionHepatic secretionDrug therapyCholesterol saturationUrsodeoxycholic acidBiliary lipidsAcid secretionCholesterol concentrationsD-thyroxineHepatobiliary route
1983
Typical and atypical neuroleptics: differential effects of chronic administration on the activity of A9 and A10 midbrain dopaminergic neurons
Chiodo L, Bunney B. Typical and atypical neuroleptics: differential effects of chronic administration on the activity of A9 and A10 midbrain dopaminergic neurons. Journal Of Neuroscience 1983, 3: 1607-1619. PMID: 6135762, PMCID: PMC6564520, DOI: 10.1523/jneurosci.03-08-01607.1983.Peer-Reviewed Original ResearchConceptsExtrapyramidal side effectsDepolarization inactivationA10 neuronsAntipsychotic drugsDA neuronsDopaminergic neuronsSide effectsExtracellular single-unit recording techniquesExcitatory amino acid glutamateInhibitory neurotransmitter gamma-aminobutyric acidSingle-unit recording techniquesNeurotransmitter gamma-aminobutyric acidActive DA cellsA10 dopaminergic neuronsMidbrain dopaminergic neuronsGamma-aminobutyric acidActivity of A9Amino acid glutamateChronic administrationMicroiontophoretic applicationNeuroleptic treatmentNeuroleptic administrationAtypical neurolepticsTricyclic antidepressantsDA cells
1982
Effect of Chlorpromazine on Hepatic Clearance and Excretion of Bile Acids by the Isolated Perfused Rat Liver 1
Tavoloni N, Reed J, Boyer J. Effect of Chlorpromazine on Hepatic Clearance and Excretion of Bile Acids by the Isolated Perfused Rat Liver 1. Experimental Biology And Medicine 1982, 170: 486-492. PMID: 7122478, DOI: 10.3181/00379727-170-41463.Peer-Reviewed Original ResearchConceptsBile acid excretionAcid excretionEffect of chlorpromazineBile acidsRat liverRat liver 1Glutamic oxalacetic transaminase activityHepatic perfusionHepatic functionTransaminase releasePerfusate concentrationPerfusate flowConstant infusionDrug AdministrationBile acid extractionControl liversHepatic clearanceGlutamic pyruvicTransaminase activityExcretionSodium taurocholateLiver 1Eventual excretionLiverChlorpromazine
1980
Relationship between hepatic metabolism of chlorpromazine and cholestatic effects in the isolated perfused rat liver.
Tavoloni N, Boyer J. Relationship between hepatic metabolism of chlorpromazine and cholestatic effects in the isolated perfused rat liver. Journal Of Pharmacology And Experimental Therapeutics 1980, 214: 269-274. PMID: 7391977, DOI: 10.1016/s0022-3565(25)32167-1.Peer-Reviewed Original ResearchChlorpromazine and immunologic considerations of schizophrenia.
GAMMON G, HAFEZ H, DOCHERTY J. Chlorpromazine and immunologic considerations of schizophrenia. Annals Of Internal Medicine 1980, 92: 441-2. PMID: 6965573, DOI: 10.7326/0003-4819-92-3-441_2.Peer-Reviewed Original Research
1979
Chlorpromazine and Its Metabolites Alter Polymerization and Gelation of Actin
Elias E, Boyer J. Chlorpromazine and Its Metabolites Alter Polymerization and Gelation of Actin. Science 1979, 206: 1404-1406. PMID: 574316, DOI: 10.1126/science.574316.Peer-Reviewed Original ResearchEffect of chlorpromazine on hepatic perfusion and bile secretory function in the isolated perfused rat liver.
Tavoloni N, Reed J, Hruban Z, Boyer J. Effect of chlorpromazine on hepatic perfusion and bile secretory function in the isolated perfused rat liver. Translational Research 1979, 94: 726-41. PMID: 227976.Peer-Reviewed Original ResearchConceptsHepatic perfusionPerfusate flowBile secretionBile acid-independent bile secretionSecretory functionBile acid excretionBile secretory functionRat liverEffect of chlorpromazineLiver 20 minLobar distributionHepatic lobeAcid excretionBaseline valuesPerfusate concentrationConstant infusionHepatic ultrastructureBile acidsControl valuesCPZSodium taurocholateLiverPerfusionGM-1Liver plasma membranes
1978
Ultrastructural changes during cholestasis induced by chlorpromazine in the isolated perfused rat liver.
Hruban Z, Tavoloni N, Reed J, Boyer J. Ultrastructural changes during cholestasis induced by chlorpromazine in the isolated perfused rat liver. Cell Pathology 1978, 26: 289-305. PMID: 416590, DOI: 10.1007/bf02889557.Peer-Reviewed Original Research
1974
A comparison of the effects of chlorpromazine, 7-hydroxychlorpromazine and chlorpromazine sulfoxide on the activity of central dopaminergic neurons
Bunney B, Aghajanian G. A comparison of the effects of chlorpromazine, 7-hydroxychlorpromazine and chlorpromazine sulfoxide on the activity of central dopaminergic neurons. Life Sciences 1974, 15: 309-318. PMID: 4549921, DOI: 10.1016/0024-3205(74)90221-5.Peer-Reviewed Original ResearchConceptsChlorpromazine sulfoxideSingle-unit recording techniquesAnti-psychotic propertyCentral dopaminergic neuronsVentral tegmental neuronsPossible clinical importanceEffect of chlorpromazineA10 neuronsDopaminergic neuronsAntipsychotic efficacyPlasma levelsTegmental neuronsAntipsychotic agentsTherapeutic effectAntipsychotic propertiesClinical importanceEquivalent dosesRecording techniquesChlorpromazineNeuronsDepressionPreliminary studyPrevious findingsSulfoxide levelsChlorpromazine metabolitesNoradrenergic neurons: Morphine inhibition of spontaneous activity
Korf J, Bunney B, Aghajanian G. Noradrenergic neurons: Morphine inhibition of spontaneous activity. European Journal Of Pharmacology 1974, 25: 165-169. PMID: 4435020, DOI: 10.1016/0014-2999(74)90045-4.Peer-Reviewed Original ResearchConceptsLocus coeruleusMorphine sulfateFiring rateNeuronal activitySpontaneous activityNoradrenergic neuron activityNorepinephrine-containing neuronsNoradrenergic neuronal activityLocus coeruleus cellsSpontaneous firing rateDorsal raphe nucleusAnalgesic actionMorphine inhibitionSerotonergic neuronsRaphe nucleusMorphine antagonistNoxious stimuliNE cellsNeuron activityCoeruleusMorphineNeuronsNaloxoneInhibitionCells
1973
DOPAMINERGIC NEURONS: EFFECT OF ANTIPSYCHOTIC DRUGS AND AMPHETAMINE ON SINGLE CELL ACTIVITY
BUNNEY B, WALTERS J, ROTH R, AGHAJANIAN G. DOPAMINERGIC NEURONS: EFFECT OF ANTIPSYCHOTIC DRUGS AND AMPHETAMINE ON SINGLE CELL ACTIVITY. Journal Of Pharmacology And Experimental Therapeutics 1973, 185: 560-571. PMID: 4576427, DOI: 10.1016/s0022-3565(25)29539-8.Peer-Reviewed Original Research
1963
The role of the nervous system in regenerating hydra: The effect of neuropharmacological agents
Lentz T, Barrnett R. The role of the nervous system in regenerating hydra: The effect of neuropharmacological agents. Journal Of Experimental Zoology 1963, 154: 305-327. PMID: 14100032, DOI: 10.1002/jez.1401540306.Peer-Reviewed Original ResearchAmphetamineAmphetaminesAnimalsAtropineAutonomic AgentsBiphenyl CompoundsChlorpromazineCnidariaDecamethonium CompoundsDihydroxyphenylalanineEnzyme InhibitorsErgotamineHexamethonium CompoundsHistocytochemistryHistologyHydraIsoflurophateLidocaineMethyldopaNervous SystemPharmacologyPhysostigmineRegenerationResearchReserpineTubocurarine
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