Analysis of radiation pneumonitis risk using a generalized Lyman model. - Wikidata - awgldk - TriplyDB

Analysis of radiation pneumonitis risk using a generalized Lyman model.

Analysis of radiation pneumonitis risk using a generalized Lyman model.

http://www.wikidata.org/entity/Q36235629

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Is there an impact of heart exposure on the incidence of radiation pneumonitis? Analysis of data from a large clinical cohort.The lessons of QUANTEC: recommendations for reporting and gathering data on dose-volume dependencies of treatment outcome.Candidate dosimetric predictors of long-term swallowing dysfunction after oropharyngeal intensity-modulated radiotherapy Genetic variants in inflammation-related genes are associated with radiation-induced toxicity following treatment for non-small cell lung cancer.Late rectal toxicity on RTOG 94-06: analysis using a mixture Lyman model Using generalized equivalent uniform dose atlases to combine and analyze prospective dosimetric and radiation pneumonitis data from 2 non-small cell lung cancer dose escalation protocols.Estimation of α/β for late rectal toxicity based on RTOG 94-06 Single nucleotide polymorphism at rs1982073:T869C of the TGFbeta 1 gene is associated with the risk of radiation pneumonitis in patients with non-small-cell lung cancer treated with definitive radiotherapy.Incorporating single-nucleotide polymorphisms into the Lyman model to improve prediction of radiation pneumonitis.A literature-based meta-analysis of clinical risk factors for development of radiation induced pneumonitis.Patient Specific Characteristics Are an Important Factor That Determines the Risk of Acute Grade ≥ 2 Rectal Toxicity in Patients Treated for Prostate Cancer with IMRT and Daily Image Guidance Based on Implanted Gold Markers.Consideration of dose limits for organs at risk of thoracic radiotherapy: atlas for lung, proximal bronchial tree, esophagus, spinal cord, ribs, and brachial plexus.(Radio)biological optimization of external-beam radiotherapy.Pulmonary toxicity generated from radiotherapeutic treatment of thoracic malignancies.Dosimetric advantages of intensity modulated radiation therapy in locally advanced lung cancer.DVH- and NTCP-based dosimetric comparison of different longitudinal margins for VMAT-IMRT of esophageal cancer.On the use of published radiobiological parameters and the evaluation of NTCP models regarding lung pneumonitis in clinical breast radiotherapy.Towards individualized dose constraints: Adjusting the QUANTEC radiation pneumonitis model for clinical risk factors.Using gEUD based plan analysis method to evaluate proton vs. photon plans for lung cancer radiation therapy.

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P2860

Analysis of radiation pneumonitis risk using a generalized Lyman model.

http://www.wikidata.org/entity/Q36235629

description

2008 nî lūn-bûn

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name

Analysis of radiation pneumonitis risk using a generalized Lyman model.

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Analysis of radiation pneumonitis risk using a generalized Lyman model.

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Analysis of radiation pneumonitis risk using a generalized Lyman model.

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Analysis of radiation pneumonitis risk using a generalized Lyman model.

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Analysis of radiation pneumonitis risk using a generalized Lyman model.

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Analysis of radiation pneumonitis risk using a generalized Lyman model.

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International Journal of Radiation Oncology Biology Physics

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Analysis of radiation pneumonitis risk using a generalized Lyman model.

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H Helen Liu

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Hekun Jin

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Mary K Martel

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Shulian Wang

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Susan L Tucker

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Xiong Wei

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Zhongxing Liao

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P2860

Radiation pneumonitis as a function of mean lung dose: an analysis of pooled data of 540 patients.

Radiation and the lung: a reevaluation of the mechanisms mediating pulmonary injury.

CTCAE v3.0: development of a comprehensive grading system for the adverse effects of cancer treatment.

The use of mixture models for the analysis of survival data with long-term survivors.

Statistical models for analysing time-to-occurrence data in radiobiology and radiation oncology.

Dose-volume thresholds and smoking status for the risk of treatment-related pneumonitis in inoperable non-small cell lung cancer treated with definitive radiotherapy.

Calculation of complication probability factors for non-uniform normal tissue irradiation: the effective volume method.

Rectal bleeding, fecal incontinence, and high stool frequency after conformal radiotherapy for prostate cancer: normal tissue complication probability modeling.

Damage and morbidity from pneumonitis after irradiation of partial volumes of mouse lung.

Modeling radiation pneumonitis risk with clinical, dosimetric, and spatial parameters.

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