A beam-specific planning target volume (PTV) design for proton therapy to account for setup and range uncertainties. - Wikidata - awgldk - TriplyDB

A beam-specific planning target volume (PTV) design for proton therapy to account for setup and range uncertainties.

A beam-specific planning target volume (PTV) design for proton therapy to account for setup and range uncertainties.

http://www.wikidata.org/entity/Q35243057

about

Particle therapy for non-small cell lung tumors: where do we stand? A systematic review of the literature Dosimetric benefits of robust treatment planning for intensity modulated proton therapy for base-of-skull cancers.Planning strategies for inter-fractional robustness in pancreatic patients treated with scanned carbon therapy Promise and pitfalls of heavy-particle therapy.Multifield optimization intensity modulated proton therapy for head and neck tumors: a translation to practice A single-field integrated boost treatment planning technique for spot scanning proton therapy.Accuracy of robotic patient positioners used in ion beam therapy.Impact of respiratory motion on worst-case scenario optimized intensity modulated proton therapy for lung cancers.Robustness of target dose coverage to motion uncertainties for scanned carbon ion beam tracking therapy of moving tumors Bone marrow sparing in intensity modulated proton therapy for cervical cancer: Efficacy and robustness under range and setup uncertainties.Robust Intensity Modulated Proton Therapy (IMPT) Increases Estimated Clinical Benefit in Head and Neck Cancer Patients.Comprehensive analysis of proton range uncertainties related to patient stopping-power-ratio estimation using the stoichiometric calibration Effectiveness of robust optimization in intensity-modulated proton therapy planning for head and neck cancers.Whole-pelvic radiotherapy with spot-scanning proton beams for uterine cervical cancer: a planning study The use of proton-beam therapy in the treatment of non-small-cell lung cancer.The effect of anterior proton beams in the setting of a prostate-rectum spacer.A dosimetric comparison of proton and photon therapy in unresectable cancers of the head of pancreas.Beam-specific planning target volumes incorporating 4D CT for pencil beam scanning proton therapy of thoracic tumors.Comparing proton treatment plans of pediatric brain tumors in two pencil beam scanning nozzles with different spot sizes.A novel dose-based positioning method for CT image-guided proton therapy.Multi-scenario based robust intensity-modulated proton therapy (IMPT) plans can account for set-up errors more effectively in terms of normal tissue sparing than planning target volume (PTV) based intensity-modulated photon plans in the head and nec A simulation study on the dosimetric benefit of real-time motion compensation in spot-scanning proton therapy for prostate.Dosimetric robustness against setup errors in charged particle radiotherapy of skull base tumors.Dosimetric and radiobiological impact of intensity modulated proton therapy and RapidArc planning for high-risk prostate cancer with seminal vesicles.A study of the beam-specific interplay effect in proton pencil beam scanning delivery in lung cancer.Robust Planning for a Patient Treated in Decubitus Position with Proton Pencil Beam Scanning Radiotherapy.Impact of spot size on plan quality of spot scanning proton radiosurgery for peripheral brain lesions.Feasibility of proton pencil beam scanning treatment of free-breathing lung cancer patients.Evaluation of motion mitigation using abdominal compression in the clinical implementation of pencil beam scanning proton therapy of liver tumors.Acute toxicity of image-guided hypofractionated proton therapy for localized prostate cancer.Comparison of two methods for minimizing the effect of delayed charge on the dose delivered with a synchrotron based discrete spot scanning proton beam.Evaluation of dosimetric advantages of using patient-specific aperture system with intensity-modulated proton therapy for the shallow depth tumor.A proton therapy system in Nagoya Proton Therapy Center.Degradation of target coverage due to inter-fraction motion during intensity-modulated proton therapy of prostate and elective targets.Proton therapy for hepatocellular carcinoma: Current knowledges and future perspectives

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A beam-specific planning target volume (PTV) design for proton therapy to account for setup and range uncertainties.

http://www.wikidata.org/entity/Q35243057

description

2011 nî lūn-bûn

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2011 թուականի Յունիսին հրատարակուած գիտական յօդուած

@hyw

2011 թվականի հունիսին հրատարակված գիտական հոդված

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2011年の論文

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2011年論文

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2011年論文

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2011年論文

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2011年論文

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2011年論文

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2011年论文

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name

A beam-specific planning targe ...... setup and range uncertainties.

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A beam-specific planning targe ...... setup and range uncertainties.

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type

label

A beam-specific planning targe ...... setup and range uncertainties.

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A beam-specific planning targe ...... setup and range uncertainties.

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prefLabel

A beam-specific planning targe ...... setup and range uncertainties.

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A beam-specific planning targe ...... setup and range uncertainties.

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J.IJROBP.2011.05.011

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International Journal of Radiation Oncology Biology Physics

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A beam-specific planning targe ...... setup and range uncertainties.

@en

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Adam D Melancon

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Andrew K Lee

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Lei Dong

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Lifei Zhang

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Narayan Sahoo

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Peter C Park

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X Ronald Zhu

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P2860

Compensating for heterogeneities in proton radiation therapy.

Inclusion of geometrical uncertainties in radiotherapy treatment planning by means of coverage probability.

Four-dimensional computed tomography-based treatment planning for intensity-modulated radiation therapy and proton therapy for distal esophageal cancer.

Respiratory motion management in particle therapy.

Radiotherapy treatment of early-stage prostate cancer with IMRT and protons: a treatment planning comparison.

Intensity modulated proton therapy and its sensitivity to treatment uncertainties 2: the potential effects of inter-fraction and inter-field motions.

Intensity modulated proton therapy and its sensitivity to treatment uncertainties 1: the potential effects of calculational uncertainties.

Target volume dose considerations in proton beam treatment planning for lung tumors.

The probability of correct target dosage: dose-population histograms for deriving treatment margins in radiotherapy.

Ion stopping powers and CT numbers.

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