J Neurosci Nurs. 2026 Jan-Feb 01;58(1):36-39. doi: 10.1097/JNN.0000000000000854. Epub 2026 Jan 5.
ABSTRACT
BACKGROUND: IRRAflow is a novel active cerebrospinal fluid (CSF) exchange system for the treatment of hemorrhagic strokes and intracranial infections. It is a closed system that irrigates various medications dissolved in irrigation solutions at a speed of up to 180 mL/h, expediting resolution. Disrupting this closed system to withdraw CSF samples or infuse medications is necessary in certain circumstances. We report our novel approach for maintaining the sterility of the closed IRRAflow system using a needleless extension and assess the compatibility and safety of this technology throughout treatment. METHODS: We used a needleless extension to withdraw CSF samples and deliver medications to 5 patients treated with the IRRAflow system. We used 1 stopcock with a 3-way valve, 2 neutral needleless connectors, and 2 antiseptic caps. The stopcock was connected between the irrigation and drainage ports of the catheter. The needleless connectors were mounted at the 12 o'clock position of the attached stopcock and the irrigation port with antiseptic caps covering the distal ends. To initiate fluid exchange, the 2 needleless connectors were separated. The extra stopcock valve was connected between the drainage arm, the cassette, and the irrigation arm. The needleless connectors remained mounted at the 12 o'clock position of the stopcock and irrigation port throughout treatment. RESULTS: The needleless connectors mounted on the 12 o'clock position of the stopcock and irrigation port on the drainage and irrigation arms, respectively, provided efficient management of fluid exchange, CSF fluid sampling, and medication delivery. Our needleless extension was compatible with the IRRAflow device and prevented secondary infections despite repeated CSF sampling and medication delivery. CONCLUSION: The needleless extension facilitated a simple and safe interaction with the closed IRRAflow system without compromising the sterile environment during CSF sampling and medication delivery.
PMID:41494111 | DOI:10.1097/JNN.0000000000000854