Abstract | PURPOSE: METHODS: Thirty-seven patients with stage III NSCLC were retrospectively studied. Patients received one cycle of cisplatin- gemcitabine, followed by two to three cycles of cisplatin- etoposide concurrently with involved-field thoracic radiotherapy (46-66 Gy; 2 Gy/fraction). Pretherapy regional ventilation images of the lung were derived from 4D computed tomography via a density change-based algorithm with mass correction. In addition to the conventional dose-volume metrics (V20, V30, V40, and mean lung dose), dose-function metrics (fV20, fV30, fV40, and functional mean lung dose) were generated by combining regional ventilation and radiation dose. A new class of metrics was derived and referred to as dose-subvolume metrics (sV20, sV30, sV40, and subvolume mean lung dose); these were defined as the conventional dose-volume metrics computed on the functional lung. Area under the receiver operating characteristic curve (AUC) values and logistic regression analyses were used to evaluate these metrics in predicting hallmark characteristics of RF (lung consolidation, volume loss, and airway dilation). RESULTS: AUC values for the dose-volume metrics in predicting lung consolidation, volume loss, and airway dilation were 0.65-0.69, 0.57-0.70, and 0.69-0.76, respectively. The respective ranges for dose-function metrics were 0.63-0.66, 0.61-0.71, and 0.72-0.80 and for dose-subvolume metrics were 0.50-0.65, 0.65-0.75, and 0.73-0.85. Using an AUC value = 0.70 as cutoff value suggested that at least one of each type of metrics (dose-volume, dose-function, dose-subvolume) was predictive for volume loss and airway dilation, whereas lung consolidation cannot be accurately predicted by any of the metrics. Logistic regression analyses showed that dose-function and dose-subvolume metrics were significant (P values ≤ 0.02) in predicting volume airway dilation. Likelihood ratio test showed that when combining dose-function and/or dose-subvolume metrics with dose-volume metrics, the achieved improvements of prediction accuracy on volume loss and airway dilation were significant (P values ≤ 0.04). CONCLUSIONS: The authors' results demonstrated that the inclusion of regional ventilation function improved accuracy in predicting RF. In particular, dose-subvolume metrics provided a promising method for preventing radiation-induced pulmonary complications.
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Authors | Fujun Lan, Jean Jeudy, Suresh Senan, J R van Sornsen de Koste, Warren D'Souza, Huan-Hsin Tseng, Jinghao Zhou, Hao Zhang |
Journal | Medical physics
(Med Phys)
Vol. 43
Issue 9
Pg. 5072
(Sep 2016)
ISSN: 2473-4209 [Electronic] United States |
PMID | 27587037
(Publication Type: Journal Article)
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Topics |
- Adult
- Aged
- Carcinoma, Non-Small-Cell Lung
(pathology, physiopathology, radiotherapy)
- Chemoradiotherapy
- Dose-Response Relationship, Radiation
- Female
- Humans
- Lung Neoplasms
(pathology, physiopathology, radiotherapy)
- Male
- Middle Aged
- Neoplasm Staging
- Prognosis
- Pulmonary Ventilation
- Radiation Pneumonitis
(diagnosis, prevention & control)
- Radiotherapy Planning, Computer-Assisted
- Respiration
- Respiratory Function Tests
- Retrospective Studies
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