2018
Investigation of the dose perturbation effect for therapeutic beams with the presence of a 1.5 T transverse magnetic field in magnetic resonance imaging-guided radiotherapy.
Shao W, Tang X, Bai Y, Shu D, Geng C, Gong C, Guan F. Investigation of the dose perturbation effect for therapeutic beams with the presence of a 1.5 T transverse magnetic field in magnetic resonance imaging-guided radiotherapy. Journal Of Cancer Research And Therapeutics 2018, 14: 184-195. PMID: 29516984, DOI: 10.4103/jcrt.jcrt_1349_16.Peer-Reviewed Original ResearchConceptsT transverse magnetic fieldBeam energyCarbon ion beamsTherapeutic beamTransverse magnetic fieldMagnetic fieldDose perturbationsDose perturbation effectsIon beamMagnetic resonance imaging-guided radiotherapyHigher beam energiesUniform magnetic fieldWater-air interfaceAir-tissue interfacePhoton beamsRadiation fieldPerturbation effectsBragg peakProper energyBeamBeam typeDose distributionEnergyProtonsRadiotherapy methods
2017
Radiobiological issues in proton therapy
Mohan R, Peeler CR, Guan F, Bronk L, Cao W, Grosshans DR. Radiobiological issues in proton therapy. Acta Oncologica 2017, 56: 1367-1373. PMID: 28826292, PMCID: PMC5842809, DOI: 10.1080/0284186x.2017.1348621.Peer-Reviewed Original ResearchConceptsClinical practiceClinical evidenceProton therapyProton relative biological effectivenessClear clinical evidenceCurrent clinical practiceRelative biological effectivenessIntensity-modulated proton therapyMore patientsTherapeutic ratioUnforeseen toxicityTreatment planTherapyVariable relative biological effectivenessEffective dose distributionRadiation dosePatientsDoseCell typesEstimation of doseDose distributionParticle therapyRadiobiological issuesRBE variabilityEvidence