Br. J. Cancer 2015 Jun 30
Dexamethasone exerts profound immunologic interference on treatment efficacy for recurrent glioblastoma.   
ABSTRACT
BACKGROUND
Patients with recurrent glioblastoma have a poor outcome. Data from the phase III registration trial comparing tumour-treating alternating electric fields (TTFields) vs chemotherapy provided a unique opportunity to study dexamethasone effects on patient outcome unencumbered by the confounding immune and myeloablative side effects of chemotherapy.
METHODS
Using an unsupervised binary partitioning algorithm, we segregated both cohorts of the trial based on the dexamethasone dose that yielded the greatest statistical difference in overall survival (OS). The results were validated in a separate cohort treated in a single institution with TTFields and their T lymphocytes were correlated with OS.
RESULTS
Patients who used dexamethasone doses >4.1 mg per day had a significant reduction in OS when compared with those who used ⩽4.1 mg per day, 4.8 vs 11.0 months respectively (χ(2)=34.6, P<0.0001) in the TTField-treated cohort and 6.0 vs 8.9 months respectively (χ(2)=10.0, P<0.0015) in the chemotherapy-treated cohort. In a single institution validation cohort treated with TTFields, the median OS of patients who used dexamethasone >4.1 mg per day was 3.2 months compared with those who used ⩽4.1 mg per day was 8.7 months (χ(2)=11.1, P=0.0009). There was a significant correlation between OS and T-lymphocyte counts.
CONCLUSIONS
Dexamethasone exerted profound effects on both TTFields and chemotherapy efficacy resulting in lower patient OS. Therefore, global immunosuppression by dexamethasone likely interferes with immune functions that are necessary for the treatment of glioblastoma.

Related Questions

Which appetite stimulants are the most effective? How do you respond to patients who request medical marijuana?