Chauffert, B.; Galmiche, A.; Louandre, C.; Royer, B.; Simonet, M.; Guilain, N.; Rech, F.; Simonet, P.; Sibert, M.; Abdaoui, A.; Cau, A.; Boone, M.; Beaurain, J.

The poor prognosis of brain tumors, including IDH-wild-type glioblastoma (GB), as well as brain and leptomeningeal metastases, is partly related to the blood brain barrier (BBB), which limits the delivery of hydrophilic anticancer drugs to the tumor site and surrounding brain parenchyma. Early studies using vital dyes demonstrated that intracranial injection could bypass the BBB in cats. We confirmed that, in guinea pigs, the vital dye Bleu Patente V diffused efficiently into the brain after a bolus intracranial injection, whereas the brain remained unstained after intravenous administration. Similarly, brain concentrations of the hydrophilic anticancer drug gemcitabine were significantly higher following intracranial injection than after intravenous administration. Consistent with these findings, Bleu Patente penetrated deeply into the cerebral cortex of sheep after a 24-hour intraventricular infusion. At the end of a 24-hour intraventricular infusion of 20 mg gemcitabine in sheep, mean gemcitabine concentrations reached 1,415 microg/L in cerebrospinal fluid and 850 microg/kg in brain tissue. These concentrations exceeded the IC90 values of gemcitabine for A172, U87-MG, and U118-MG human glioblastoma cell lines, as determined in vitro after 24 hours of incubation. We hypothesize that Bleu Patente dye and gemcitabine circumvent the blood-brain barrier (BBB) by utilizing the glymphatic system. Tolerance of a single 24-hour intraventricular infusion of gemcitabine at doses of 5, 10, and 20 mg was good. Taken together, these encouraging preclinical results support the resumption of Phase I clinical trials evaluating intraventricular infusion of gemcitabine in patients with refractory primary or secondary brain tumors.