2007
Patterns and Levels of Hypoxia in Head and Neck Squamous Cell Carcinomas and Their Relationship to Patient Outcome
Evans SM, Du KL, Chalian AA, Mick R, Zhang PJ, Hahn SM, Quon H, Lustig R, Weinstein GS, Koch CJ. Patterns and Levels of Hypoxia in Head and Neck Squamous Cell Carcinomas and Their Relationship to Patient Outcome. International Journal Of Radiation Oncology • Biology • Physics 2007, 69: 1024-1031. PMID: 17967299, PMCID: PMC2737259, DOI: 10.1016/j.ijrobp.2007.04.067.Peer-Reviewed Original ResearchConceptsSquamous cell carcinomaCell carcinomaPatient outcomesNeck squamous cell tumorsNeck squamous cell carcinomaEvent-free survival timeShorter event-free survival timePositron emission tomographic studiesSquamous cell tumorsLevels of hypoxiaEmission tomographic studiesNodal statusOverall survivalTreatment regimenPrognostic significanceCell tumorsPrimary headMajority of cellsSurvival timeOral cavityHypoxia markersQuantitative immunohistochemistryEF5 bindingSevere hypoxiaPatients
1995
In Vivo D2 Dopamine Receptor Density in Psychotic and Nonpsychotic Patients With Bipolar Disorder
Pearlson G, Wong D, Tune L, Ross C, Chase G, Links J, Dannals R, Wilson A, Ravert H, Wagner H, DePaulo J. In Vivo D2 Dopamine Receptor Density in Psychotic and Nonpsychotic Patients With Bipolar Disorder. JAMA Psychiatry 1995, 52: 471-477. PMID: 7771917, DOI: 10.1001/archpsyc.1995.03950180057008.Peer-Reviewed Original ResearchConceptsSchizophrenic patientsBipolar disorderBmax valuesNonpsychotic patientsNormal controlsPsychotic symptomsPsychotic patientsAffective disordersPositron emission tomographic scansD2 dopamine receptor densityNeuroleptic-naive schizophrenic patientsPositron emission tomographic studiesDopamine receptor densityReceptor density valuesDSM-III criteriaPresent State ExaminationPresence of psychosisEmission tomographic studiesHigher Bmax valuesPsychotic bipolar disorderNeuroleptic medicationReceptor BmaxMood abnormalitiesReceptor valuesTomographic scan
1992
3‐O‐methyldopa administration does not alter fluorodopa transport into the brain
Guttman M, Léger G, Cedarbaum J, Reches A, Woodward W, Evans A, Diksic M, Gjedde A. 3‐O‐methyldopa administration does not alter fluorodopa transport into the brain. Annals Of Neurology 1992, 31: 638-643. PMID: 1514775, DOI: 10.1002/ana.410310611.Peer-Reviewed Original ResearchConceptsChronic L-DOPA therapyAdvanced Parkinson's diseaseL-dopa therapyPositron emission tomographic studiesL-DOPA administrationEmission tomographic studiesPositron emission tomographyL-dopa preparationsParkinsonian patientsPlasma concentrationsCynomolgus monkeysParkinson's diseasePatientsEmission tomographyL-DOPABrainTomographic studiesDiseaseAdministrationInfusionTherapyBlood
1990
The metabolic anatomy of Parkinson's disease: Complementary [18F]fluorodeoxyglucose and [18F]fluorodopa positron emission tomographic studies
Eidelberg D, Moeller JR, Dhawan V, Sidtis JJ, Ginos JZ, Strother SC, Cedarbaum J, Greene P, Fahn S, Rottenberg DA. The metabolic anatomy of Parkinson's disease: Complementary [18F]fluorodeoxyglucose and [18F]fluorodopa positron emission tomographic studies. Movement Disorders 1990, 5: 203-213. PMID: 2117706, DOI: 10.1002/mds.870050304.Peer-Reviewed Original ResearchConceptsPositron emission tomographyPD patientsParkinson's diseaseScaled Subprofile ModelMetabolic anatomyFDOPA uptakeFDG/PETPositron emission tomographic studiesStriatal FDOPA uptakeTypical Parkinson's diseaseOverall disease severityEmission tomographic studiesGait disturbanceTwo-compartment modelBrain uptakePlasma radioactivityClinical measuresMetabolic asymmetryPET scansDisease processMotor asymmetryLeft-right differencesDisease severityEmission tomographySubprofile Model
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