Hippocampal radiotherapy dose-constraints for predicting long-term neurocognitive outcomes: Mature data from a prospective trial in young patients with brain tumors.

BACKGROUND: Hippocampus is considered to be the seat for neurocognitive functions. Avoidance of hippocampus during radiotherapy to brain may serve to preserve various domains of neurocognition. We aimed to derive radiotherapy dose constraints to hippocampi for preserving neurocognition in young patients with brain tumors by measuring various neurocognitive parameters. METHODS: Forty-eight patients with residual/progressive benign or low-grade brain tumors treated with stereotactic conformal radiotherapy (SCRT) to a dose of 54 Gy in 30 fractions underwent prospective neuropsychological assessments at baseline before SCRT and at 6 months, 2, 3, 4, and 5 years. Hippocampi were drawn as per the RTOG atlas. Longitudinal change in intelligence quotient (IQ) scores was correlated with hippocampal doses. RESULTS: Mean volume of bilateral hippocampi was 4.35 c.c (range: 2.12-8.41). Craniopharyngioma was commonest histologic sub-type. A drop >10% in mean full-scale intelligence quotient (FSIQ) scores at 3- and 5-years post SCRT was observed in patients in whom left hippocampus received a mean dose of 30.7 Gy (p=.04) and 31 Gy (p=.04), respectively. Mean performance quotient (PQ) scores dropped > 10% at 5 years when the left hippocampus received a dose of >32 Gy (p= 0.03). There was no significant correlation of radiotherapy doses with verbal quotient, or with doses received by the right hippocampus. Multivariate analysis revealed young age (<13 years) and left hippocampus dose predicted for clinically relevent decline in certain neurocognitive domains. CONCLUSIONS: A mean dose of