2019
Molecular Neuroimaging of the Dopamine Transporter as a Patient Enrichment Biomarker for Clinical Trials for Early Parkinson's Disease
Romero K, Conrado D, Burton J, Nicholas T, Sinha V, Macha S, Ahamadi M, Cedarbaum J, Seibyl J, Marek K, Basseches P, Hill D, Somer E, Gallagher J, Dexter DT, Roach A, Stephenson D, Consortium F, Initiative T. Molecular Neuroimaging of the Dopamine Transporter as a Patient Enrichment Biomarker for Clinical Trials for Early Parkinson's Disease. Clinical And Translational Science 2019, 12: 240-246. PMID: 30706986, PMCID: PMC6510371, DOI: 10.1111/cts.12619.Peer-Reviewed Original ResearchConceptsClinical trialsImaging biomarkersDopamine transporterEuropean Medicines Agency's CommitteeParkinson's disease clinical trialsEarly Parkinson's diseaseCritical Path InstitutePatient selectionEnrichment biomarkerParkinson's diseaseMolecular neuroimagingPharmaceutical partnersDiseaseBiomarkersTrialsQualification opinionHuman useInternational ConsortiumTransportersMedical productsNeuroimaging
1994
The effects of ciliary neurotrophic factor on motor dysfunction in wobbler mouse motor neuron disease
Mitsumoto H, Ikeda K, Holmlund T, Greene T, Cedarbaum J, Wong V, Lindsay R. The effects of ciliary neurotrophic factor on motor dysfunction in wobbler mouse motor neuron disease. Annals Of Neurology 1994, 36: 142-148. PMID: 8053649, DOI: 10.1002/ana.410360205.Peer-Reviewed Original ResearchConceptsCiliary neurotrophic factorNeurotrophic factorMotor neuron diseaseHuman ciliary neurotrophic factorGrip strengthNeuron diseaseBody weightWobbler mouse motor neuron diseaseMotor neuron disease modelMouse motor neuron diseaseFirst neurotrophic factorMean grip strengthImproved muscle strengthVehicle-treated animalsWeeks of treatmentMuscle twitch tensionSurvival-promoting effectsWobbler mouse modelRat ciliary neurotrophic factorMotor dysfunctionControl miceMuscle strengthDisease progressionMotor neuronsTwitch tension
1991
Dopamine sulfate in ventricular cerebrospinal fluid and motor function in Parkinson's disease.
Cedarbaum J, Olanow CW. Dopamine sulfate in ventricular cerebrospinal fluid and motor function in Parkinson's disease. Neurology 1991, 41: 1567-70. PMID: 1922797, DOI: 10.1212/wnl.41.10.1567.Peer-Reviewed Original ResearchConceptsAdvanced Parkinson's diseaseDopamine sulfateParkinson's diseaseDopamine sulfate levelsLevodopa/carbidopaTime of transplantationPeak plasma concentrationAvailability of dopamineVentricular cerebrospinal fluidSulfate levelsClinical improvementMotor fluctuationsOmmaya reservoirSingle doseExogenous levodopaParkinsonian brainMotor functionPlasma concentrationsLateral ventricleCerebrospinal fluidAdrenal medullaLevodopaPatientsDiseaseDopamine"Early" initiation of levodopa treatment does not promote the development of motor response fluctuations, dyskinesias, or dementia in Parkinson's disease.
Cedarbaum JM, Gandy SE, McDowell FH. "Early" initiation of levodopa treatment does not promote the development of motor response fluctuations, dyskinesias, or dementia in Parkinson's disease. Neurology 1991, 41: 622-9. PMID: 2027475, DOI: 10.1212/wnl.41.5.622.Peer-Reviewed Original ResearchConceptsMotor response fluctuationsLevodopa therapyLevodopa treatmentDisease clinicResponse fluctuationsParkinson's disease clinicDevelopment of dyskinesiaHistory of patientsTiming of initiationPatient populationDisease onsetParkinson's diseaseDyskinesiaYounger ageDementiaPatientsTherapyAdverse consequencesTreatmentDiseaseGreater proportionInitiationDisease diagnosisClinicDiagnosis