2013
SU‐E‐T‐25: Investigating the Impact of Polymer‐Coating On the Dosimetric Characteristics of a 103Pd Brachytherapy Source Using Photon Spectroscopy
Chen Z, Kim J, Nath R. SU‐E‐T‐25: Investigating the Impact of Polymer‐Coating On the Dosimetric Characteristics of a 103Pd Brachytherapy Source Using Photon Spectroscopy. Medical Physics 2013, 40: 208-208. DOI: 10.1118/1.4814459.Peer-Reviewed Original ResearchPhoton energy spectrumHigh-purity germaniumDosimetric characteristicsEnergy spectrumLow-energy brachytherapy sourcesDose-rate constantDose rate constantPd-103Photon spectroscopyBrachytherapy sourcesPhoton spectrometerPd-103 seedsDosimetric propertiesBrachytherapy seedsPhotonic characteristicsDosimetry dataPhotonsSeed modelSpectraBrachytherapyHigh-resolutionDosimetricallyDosimetrySeed migrationConstant
1999
Long‐term complications with prostate implants: Iodine‐125 vs. palladium‐103
Peschel R, Chen Z, Roberts K, Nath R. Long‐term complications with prostate implants: Iodine‐125 vs. palladium‐103. International Journal Of Cancer 1999, 7: 278-288. PMID: 10580897, DOI: 10.1002/(sici)1520-6823(1999)7:5<278::aid-roi3>3.0.co;2-3.Peer-Reviewed Original ResearchMeSH KeywordsActuarial AnalysisBrachytherapyCell DeathFollow-Up StudiesForecastingHumansIodine RadioisotopesLongitudinal StudiesMaleModels, BiologicalNeoplasm StagingPalladiumProbabilityProstatic NeoplasmsRadioisotopesRadiopharmaceuticalsRadiotherapy DosageRelative Biological EffectivenessRetrospective StudiesTreatment OutcomeConceptsLong-term complicationsMinimum tumor dosesComplication ratePd-103Lower overall complication ratePalladium-103Long-term complication rateIodine-125Overall complication rateHigh complication rateProstate cancer patientsProstate implantsActuarial probabilityGrade IIILog10 cell killCancer patientsVs. 6Tumor dosesClinical practiceCell killProstate cancer brachytherapyEffective doseNormal tissuesPatientsTissue beds
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