Evaluation of hippocampus dose for patients undergoing intensity-modulated radiotherapy for nasopharyngeal carcinoma

Objective:

To evaluate the dose received by the hippocampus among patients undergoing intensity-modulated radiotherapy (IMRT) for nasopharyngeal cancer.

Methods:

10 patients with biopsy-proven, locally advanced nasopharyngeal cancer constituted the study population. The total prescribed dose to the planning target volume (PTV) was 70 Gy (D95%) delivered in 2.12-Gy daily fractions using IMRT. Using established anatomical guidelines, MRI co-registration and the assistance of a board-certified neuroradiologist, the right and left hippocampi were delineated on axial imaging from the CT scan obtained at simulation for each patient beginning at the most anterior portion of the lateral ventricle. IMRT treatment plans were generated without dose–volume constraints to the hippocampus. A range of dose–volume statistics was calculated.

Results:

The mean hippocampus volume was 6.01 ± 2.61 cm³. The mean V20 was 72.2%; V40 was 22.0%; V50 was 10.2%; and V60 was 5.5%. The average mean, minimum and maximum hippocampus doses were 30.27 Gy (range, 19.08–47.99 Gy); 17.54 Gy (range, 11.66–33.17 Gy); and 54.95 Gy (range, 35.59–75.57 Gy), respectively. The hippocampus received a maximum dose exceeding 70 Gy in 30% of cases.

Conclusion:

Our dosimetric analysis suggests that, for patients undergoing IMRT for nasopharyngeal cancer, the hippocampus routinely receives significantly high doses.

Advances in knowledge:

The hippocampus receives a fair amount of incidental radiation during treatment for nasopharyngeal cancer. Given the importance of this structure with respect to memory and neurocognitive function, consideration should be given to identifying the hippocampus as a critical organ at risk in the IMRT optimization process.Although intensity-modulated radiotherapy (IMRT) has supplanted two-dimensional and three-dimensional radiotherapies as the standard treatment for patients with head and neck cancer, it has become increasingly clear that the generation of highly conformal plans with steep fall-off gradients may come at the expense of significant doses to non-delineated extra-target organs.¹ Owing to the anatomical proximity of many head and neck cancers to the central nervous system, studies investigating the effects of radiation exposure on specific structures in the brain responsible for neurocognitive functioning may be warranted.Located within the temporal lobes, the hippocampus is a horseshoe-shaped paired structure that is a critical component of the limbic system. Its functions relate to the formation of new memories, spatial navigation and the connection of emotions and senses, such as smell and sound, to memories. Although the tolerance of this structure to radiation has yet to be fully established, it has been hypothesized that incidental exposure to this structure may contribute to both short-term toxicity, such as lack of inhibition and disequilibrium, as well as long-term memory loss.² Thus, the purpose of this study was to conduct a dosimetric analysis in patients with nasopharyngeal cancer treated by IMRT to assess incidental exposure to the hippocampus.