Dosimetric effects of repeat computed tomography scan during radiotherapy planning in esophagus carcinoma.

Aim of Study: The aim was to assess the potential reduction in the doses to organs at risk (OARs) and target organ volume by doing replanning on repeat computed tomography (CT) scan during the 4th week of radiation therapy (RT). Materials and Methods: Twenty-four histologically proven patients of inoperable esophagus carcinoma were studied. All patients received induction chemotherapy followed by concurrent chemotherapy and radiotherapy. CT simulation with proper immobilization was done, and images were transferred to the treatment planning system. Delineation of target volumes and OARs was done, and two plans were generated for 60 Gy in 30 fractions and 40 Gy in 20 fractions with intensity-modulated RT keeping the doses to OARs within the tolerance limits. Replanning for 20 Gy in 10 fractions was done on repeat CT scan during the 4th week of radiotherapy treatment, and potential reduction in doses to OARs and target organ volume was assessed. Results: A total of 24 cases were analyzed for the adaptive plan with the coverage of the 95% prescription isodose for planning target volume. Statistical analysis was done by t-test. The difference in the doses received by the OARs was analyzed and was seen that due to re CT scan, the doses were reduced to the left lung V20 (mean 19.23 Gy vs. 17.35 Gy) and Dmean (mean 16.03 Gy vs. 14.25 Gy), right lung V20 (mean 18.38 Gy vs. 16.66 Gy) and Dmean (mean 15.70 Gy vs. 13.97 Gy), heart V25 (mean 38.72 Gy vs. 35.32 Gy) and Dmean (mean 26.40 Gy vs. 22.74 Gy), and spine 1% volume (mean 36.54 Gy vs. 33.39 Gy) and Dmax (mean 39.81 Gy vs. 34.34 Gy), gross tumor volume (GTV) (mean 67.37 cm 3 vs. 24.58 cm 3) and were all significantly smaller for the adaptive plan. Conclusion: By doing adaptive radiotherapy in the 4th week of treatment using repeat CT scan, along with the response evaluation, there is a significant reduction in the volume of GTV, and replanning of treatment on repeat CT scan also helps us in reducing doses to the OARs resulting in reduced toxicity.

Olfactory Neuroblastoma: A Novel Site of Presentation.

Olfactory neuroblastoma (ONB) or esthesioneuroblastoma is a rare malignant intranasal tumor, commonly originated from upper part of nasal cavity. Majority of cases presented with nasal obstruction or epistaxis. ONB is rarely reported in ectopic locations. Here we present the first-ever documented case of an olfactory neuroblastoma situated anterior to body of maxilla, presented as left sided facial swelling. This case report is aimed at achieving the consideration of this rare tumour as a differential diagnosis in the lesions of the anatomical region surrounding the commonly known site of origin i.e. the sinonasal cavity.

To evaluate volume changes on computerized tomography scan and magnetic resonance imaging-based delineation during radiotherapy treatment planning in prostate cancer.

AIM: The aim of the present study was to evaluate the impact of magnetic resonance imaging (MRI) on radiotherapy target volume changes in prostate cancer. MATERIALS AND METHODS: Ten patients with localized prostate cancer receiving radical radiotherapy were included in the study. Computerized tomography (CT) simulation was done with adequate immobilization, and pelvic MRI was also done at the same time. The two were then registered on eclipse planning system and fused. Target delineation (gross tumor volume [GTV] and clinical target volume [CTV]) was done on both the image sets separately and their volumes were compared. RESULTS: In the current study, it has been found that the CT image-based contouring overestimated the GTV and CTV with 35.4% and 21.7%, respectively, as compared to that by MRI images. The difference observed was statistically significant in the case of GTV, whereas it was not statistically significant for CTV. CONCLUSIONS: It can be concluded that MRI is found to be a better modality for GTV delineation, as it gives superior soft-tissue contrast.