2024
Associations Between Prostate Magnetic Resonance Imaging, Genomic Testing, and Treatment for Localized Prostate Cancer.
Sundaresan V, Wang R, Long J, Sprenkle P, Seibert T, Loeb S, Cooperberg M, Catalona W, Ma X, Gross C, Leapman M. Associations Between Prostate Magnetic Resonance Imaging, Genomic Testing, and Treatment for Localized Prostate Cancer. Urology Practice 2024, 101097upj0000000000000679. PMID: 39196719, DOI: 10.1097/upj.0000000000000679.Peer-Reviewed Original ResearchLocalized prostate cancerClinically localized prostate cancerHigh-risk diseaseProstate MRIProstate cancerTreatment intensificationIntensified treatmentGenomic testingTreated patientsProstate magnetic resonance imagingEnd Results databaseLong-term patient outcomesProstate cancer prognosisRetrospective cohort studyAssociated with decreased oddsRisk stratification toolPrimary study outcomeAssociated with increased oddsMagnetic resonance imagingResults databaseStratification toolTreatment patientsCohort studyRisk strataCancer prognosis
2022
Practice patterns and real-life outcomes for patients with acute promyelocytic leukemia in the United States
Bewersdorf JP, Prozora S, Podoltsev NA, Shallis R, Huntington SF, Neparidze N, Wang R, Zeidan AM, Davidoff AJ. Practice patterns and real-life outcomes for patients with acute promyelocytic leukemia in the United States. Blood Advances 2022, 6: 376-385. PMID: 34724703, PMCID: PMC8791583, DOI: 10.1182/bloodadvances.2021005642.Peer-Reviewed Original ResearchConceptsAcute promyelocytic leukemiaAdverse outcomesPromyelocytic leukemiaNational Comprehensive Cancer Network guidelinesBaseline white blood cell countFavorable long-term prognosisWhite blood cell countVizient Clinical Data BaseGuideline-concordant regimensGuideline-concordant therapyGuideline-concordant treatmentGuideline-recommended therapiesBaseline clinical characteristicsHigh-risk diseaseLong-term prognosisPopulation-based registryBlood cell countClinical data baseLarge database analysisLogistic regression modelsTreatment concordanceClinical characteristicsReal-world practiceTreatment patternsNetwork guidelines
2018
Transfusion Independence in Lower-Risk, Non-del5(q) Myelodysplastic Syndromes (LR-MDS) Among Patients (pts) Initiating Hypomethylating Agents (HMAs) While Receiving Red Blood Cell (RBC) Transfusions
Zeidan A, Zhu W, Wang R, Stahl M, Huntington S, Giri S, Podoltsev N, Gore S, Ma X, Davidoff A. Transfusion Independence in Lower-Risk, Non-del5(q) Myelodysplastic Syndromes (LR-MDS) Among Patients (pts) Initiating Hypomethylating Agents (HMAs) While Receiving Red Blood Cell (RBC) Transfusions. Blood 2018, 132: 838. DOI: 10.1182/blood-2018-99-116497.Peer-Reviewed Original ResearchRBC transfusion independenceHMA initiationTransfusion independenceTransfusion dependenceLR-MDSClinical trial dataHypomethylating agentTransfusion statusMedian timeMedian TI durationCox modelContinuous Medicare Parts ATrial dataRed blood cell transfusionDiagnosis of MDSRBC transfusion dependenceSubset of ptsBlood cell transfusionEnd Results-MedicareErythropoiesis-stimulating agentsHigh-risk diseaseMultivariate Cox modelTreatment of MDSEnd of studyTI duration