about
Advances in 4D treatment planning for scanned particle beam therapy - report of dedicated workshopsMotion as perturbation. II. Development of the method for dosimetric analysis of motion effects with fixed-gantry IMRT.Rapid estimation of 4DCT motion-artifact severity based on 1D breathing-surrogate periodicity.Motion of the esophagus due to cardiac motion.Optimization of an on-board imaging system for extremely rapid radiation therapy4D dose simulation in volumetric arc therapy: Accuracy and affecting parametersImpact of sampling interval in training data acquisition on intrafractional predictive accuracy of indirect dynamic tumor-tracking radiotherapy.Effect of MLC tracking latency on conformal volumetric modulated arc therapy (VMAT) plans in 4D stereotactic lung treatmentIntensity modulated proton therapyPET in the management of locally advanced and metastatic NSCLC.Image-guided radiotherapy and motion management in lung cancer.The potential of positron emission tomography for intratreatment dynamic lung tumor tracking: a phantom studyTemporal regularization of ultrasound-based liver motion estimation for image-guided radiation therapy.Online 4D ultrasound guidance for real-time motion compensation by MLC tracking.Treatment Parameters Optimization to Compensate for Interfractional Anatomy Variability and Intrafractional Tumor MotionAmplitude-based optimal respiratory gating in positron emission tomography in patients with primary lung cancer.Dosimetric and clinical effects of interfraction and intrafraction correlation errors during marker-based real-time tumor tracking for liver SBRT.Electromagnetic guided couch and multileaf collimator tracking on a TrueBeam accelerator.Robustness of sweeping-window arc therapy treatment sequences against intrafractional tumor motion.Feasibility of Systematic Respiratory-Gated Acquisition in Unselected Patients Referred for 18F-Fluorodeoxyglucose Positron Emission Tomography/Computed Tomography.IMRT dose verification considering passing rate and respiratory motion.Experimentally studied dynamic dose interplay does not meaningfully affect target dose in VMAT SBRT lung treatmentsEvaluation of the combined use of two different respiratory monitoring systems for 4D CT simulation and gated treatmentApplication of red light phototherapy in the treatment of radioactive dermatitis in patients with head and neck cancer
P2860
Q26829381-B3EBB0D0-F5A5-4320-94D5-1444EF0F5D19Q31162012-00EF0F6D-9855-43D9-83B6-63A7063E771EQ34562941-CBF2BCEE-3030-4E25-83DC-C39519E66FF3Q35106707-4544A087-68EF-4F4C-A741-1C6460549EB7Q36233881-C786FDF9-64FD-4303-A4CD-CC5C626AFAC6Q36288669-CFC410EB-756D-4B9A-B0DF-4D1992464AB3Q36373998-73D4842B-45F2-4AC8-925F-7B1ECC7F1A12Q36506212-3CC2C516-31CD-4A63-91C8-778D40BEFA44Q38414155-C4A89DA5-40AC-46AB-A90D-0779FCC1E835Q38444980-F07C725B-EC91-4CA5-8E8D-FE9D98E6C3CFQ38467341-272DF233-4F0A-4319-8403-E526BFA20148Q38634993-CBC64865-C8AD-4222-B124-633370CAB24BQ38922933-D350E05B-5CC8-47B6-9BAE-30802072D0C6Q39248711-4D038381-700D-4B71-90BD-AC8315F65243Q41887952-0A6C3329-995E-47F4-8E6D-1ECD919C9A2EQ45954854-84386609-827C-4753-BF9F-E50F5F33FD80Q47290163-4C9FE2BF-4534-4E2E-9D1E-27F6C29260F3Q48616960-5AACB78E-A413-4B80-A5EB-9F4B26528AD3Q51644337-CBA6289A-E4A3-455B-A115-B3ED6DE6D26BQ55272897-BF775B89-15BE-4CDE-A43F-1EF11B73D9EBQ55417188-236B3711-DA16-4546-89D8-CE12F215FFBBQ58089064-0F880CFD-F84A-4718-A4C7-DF86B68421C1Q58784471-727DE425-DC90-426D-84B0-08A496628B54Q59136255-C22D65FA-8B77-4D00-87A3-6B5AFA741E31
P2860
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Motion in radiotherapy: photon therapy.
@en
type
label
Motion in radiotherapy: photon therapy.
@en
prefLabel
Motion in radiotherapy: photon therapy.
@en
P356
P1476
Motion in radiotherapy: photon therapy.
@en
P304
P356
10.1088/0031-9155/57/23/R161
P577
2012-12-01T00:00:00Z