RESUMO
Introduction: Radiation-induced hypothyroidism is a well-recognized entity that occurs after an interval of 15-21 months. However, in the treatment of locally advanced Head and neck Squamous cell carcinoma (HNSCC), thyroid-sparing techniques are infrequently employed. Aims: To evaluate the dosimetric and early clinical outcomes of thyroid-sparing SIB-VMAT technique (Simultaneous Integrated Boost - Volumetric Modulated Arc Radiotherapy) in patients of locally advanced HNSCC. Methods: In this two-arm prospective pilot study, patients in the study group received radiotherapy by SIB-VMAT technique with a thyroid constraint to a dose of 70 Gy to the gross disease and 59.4 Gy to nodal and subclinical disease in 33 fractions over 6 ½ weeks with concurrent cisplatin. V50Gy<75% was the thyroid constraint used. The control group was treated with the same dose and technique but without using a thyroid gland constraint. The dose-volume parameters of the thyroid gland, PTV (Planning Target Volume) along with thyroid profile were analyzed. Results: Twenty-six patients were recruited. Thyroid V50Gy of the study group (65.33 ±6.63 %) was significantly lower than that of control group (80.35 ±13.40 %) (p=0.003). Tumor dose parameters of both groups were compared and revealed no significant difference. At 18 months follow-up, the incidence of any degree of hypothyroidism was 46.15% in the study group and 23.07% in the control group (p=0.216). Conclusion: In locally advanced HNSCC, it is feasible to spare the thyroid gland without compromising the tumour coverage. This has the potential to reduce the frequency of radiation-induced hypothyroidism.
RESUMO
BACKGROUND: Radiation-induced hypothyroidism is a common toxicity of head and neck radiation. Our re-planning study aimed to reduce thyroid dose while maintaining target coverage with IMRT. METHODS: We retrospectively identified patients with oral-cavity (n = 5) and oropharyngeal cancer (n = 5). Treatment plans were re-optimized with 45 Gy thyroid mean dose constraint, then we cropped the thyroid out of PTVs and further reduced thyroid dose. Target coverage was delivering 100% dose to ≥ 93% of PTV and 95% of dose to > 99% of PTV. RESULTS: Originally, average mean dose to thyroid was 5580 cGy. In model I, this dropped to 4325 cGy (p < 0.0001). In model II, average mean dose was reduced to 3154 cGy (p < 0.0001). For PTV low and PTV int, all had acceptable target coverage. CONCLUSION: In patients with oral-cavity and oropharyngeal cancers, mean dose could be significantly reduced using a thyroid-optimized or thyroid-sparing IMRT technique with adequate coverage.