Is helical tomotherapy-based intensity-modulated radiotherapy feasible and effective in bilateral synchronous breast cancer? A two-center experience.

PURPOSE: This study describes the early clinical results and dosimetric parameters of intensity-modulated radiation therapy (IMRT) using a tomotherapy device in patients with primary bilateral synchronous breast cancer (PSBBC).

METHODS: Fourteen patients with bilateral breast cancer were treated with tomotherapy between January 2011 and October 2014. The treatment planning objectives were to cover 95% of the planning target volume using a 95% isodose, with a minimum dose of 90% and a maximum dose of 107%. The organs at risk (OAR), such as the lungs, heart, esophagus and spinal cord, were contoured. Acute toxicity was recorded during and after radiation therapy.

RESULTS: The advantages included better treatment conformity with lower dosages to minimize the risk to susceptible organs, such as the lungs, heart and spinal cord. There was improved coverage of the planning target volume, including the regional nodes, without any field junction problems. The median homogeneity index was 0.13 and the median conformity index 1.32. The median V20, V15, V10 and V5 for the total lungs were 18.5, 23.3, 24.2 and 60%, respectively. Skin acute toxicity was grade 1 in 72% and grade 2 in 14% of the patients. Esophageal acute toxicity was grade 1 in 43% of the patients.

CONCLUSION: Tomotherapy delivers treatment that is well-tolerated, with high homogeneity and coverage indexes and the capability to reduce the irradiation dose received by the lungs and heart in PSBBC patients. This technique is therefore feasible and safe for the treatment of bilateral breast cancer.