Variability of target volume delineation in cervical esophageal cancer11Awarded Research Trainee Prize from the Radiological Society of North America (RSNA)
Autor: | Patricia Tai, Edward Yu, Jake Van Dyk, T. Coad, Jerry J. Battista, Larry Stitt |
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Rok vydání: | 1998 |
Předmět: |
Cancer Research
Percentile Radiation business.industry medicine.medical_treatment Brachytherapy Esophageal cancer medicine.disease Primary tumor Radiation therapy Oncology medicine Radiology Nuclear Medicine and imaging Tomography business Radiation treatment planning Nuclear medicine Quality assurance |
Zdroj: | International Journal of Radiation Oncology*Biology*Physics. 42:277-288 |
ISSN: | 0360-3016 |
DOI: | 10.1016/s0360-3016(98)00216-8 |
Popis: | Purpose: Three-dimensional (3D) conformal radiation therapy (CRT) assumes and requires the precise delineation of the target volume. To assess the consistency of target volume delineation by radiation oncologists, who treat esophageal cancers, we have performed a transCanada survey. Materials and Methods: One of three case presentations, including CT scan images, of different stages of cervical esophageal cancer was randomly chosen and sent by mail. Respondents were asked to fill in questionnaires regarding treatment techniques and to outline boost target volumes for the primary tumor on CT scans, using ICRU-50 definitions. Results: Of 58 radiation oncologists who agreed to participate, 48 (83%) responded. The external beam techniques used were mostly anterior-posterior fields, followed by a multifield boost technique. Brachytherapy was employed by 21% of the oncologists, and concurrent chemotherapy by 88%. For a given case, and the three volumes defined by ICRU-50 (i.e., gross tumor volume [GTV], clinical target volume [CTV], and planning target volume [PTV]) we determined: 1. The total length in the cranio-caudal dimension; 2. the mean diameter in the transverse slice that was located in a CT slice that was common to all participants; 3. the total volume for each ICRU volume; and 4. the (5, 95) percentiles for each parameter. The PTV showed a mean length of 14.4 (9.6, 18.0) cm for Case A, 9.4 (5.0, 15.0) cm for Case B, 11.8 (6.0, 16.0) cm for Case C, a mean diameter of 6.4 (5.0, 9.4) cm for Case A, 4.4 (0.0, 7.3) cm for Case B, 5.2 (3.9, 7.3) cm for Case C, and a mean volume of 320 (167, 840) cm 3 for Case A and 176 (60, 362) cm 3 for Case C. The results indicate variability factors (95 percentile divided by 5 percentile values) in target diameters of 1.5 to 2.6, and in target lengths of 1.9 to 5.0. Conclusion: There was a substantial inconsistency in defining the planning target volume, both transversely and longitudinally, among radiation oncologists. The potential benefits of 3D treatment planning with high-precision dose delivery could be offset by this inconsistency in target-volume delineation by radiation oncologists. This may be particularly important for multicenter clinical trials, for which quality assurance of this step will be essential to the interpretation of results. |
Databáze: | OpenAIRE |
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