Acetazolamide modulates intracranial pressure directly by its action on the cerebrospinal fluid secretion apparatus

Abstract

AbstractElevated intracranial pressure (ICP) is observed in many neurological pathologies, e.g. hydrocephalus and stroke. This condition is routinely relieved with neurosurgical approaches, since effective and targeted pharmacological tools are still lacking. The carbonic anhydrase inhibitor, acetazolamide (AZE), may be employed to treat elevated ICP. However, its effectiveness is questioned, its location of action unresolved, and its tolerability low. Here, we employed in vivo and ex vivo approaches to reveal the efficacy and mode of action of AZE in the rat brain. The drug effectively reduced the ICP, irrespective of the mode of drug administration and level of anaesthesia. The effect occurred via a direct action on the choroid plexus and an associated decrease in cerebrospinal fluid secretion, and not indirectly via the systemic action of AZE on renal and vascular processes. Upon a single administration, the reduced ICP endured for approximately 10 h post-AZE delivery with no long-term changes of brain water content or choroidal transporter expression. However, a persistent reduction of ICP was secured with repeated AZE administrations throughout the day. Future specific targeting of choroidal carbonic anhydrases may limit the systemic side effects, and therefore enhance the treatment tolerability and effectiveness in select patient groups experiencing elevated ICP.