Abstract
CSF shunting with adjustable valve is the treatment of idiopathic normal pressure hydrocephalus. The opening pressure valve setting is left to the neurosurgeon’s experience. Aqueductal CSF stroke volume by phase-contrast magnetic resonance measures the CSF passing through the Sylvian aqueduct and it changes with intracranial hydrodynamics. We sought to identify a window of stroke volume differences associated with the best clinical outcome and lowest rate of complications. The records of 69 patients were reviewed. At every clinical check, stroke volume, opening pressure valve, clinical outcome, and CSF overdrainage were analyzed. The correlation between stroke volume differences and negative outcome was also analyzed. The median follow-up was 2.3 years (range 0.3–10.4 years). The odds of negative outcome between two consecutive checks significantly increased by 16% (95%CI 4–28%, p = 0.006). Taking the lowest risk group as reference, the odds ratio of negative outcome was 1.16 (95%CI 0.51–2.63, p = 0.726) for SV differences less than − 37.6 µL, while it was 1.96 (95%CI 0.97–3.98, p = 0.062) for stroke volume changes above + 23.1 µL. Maintaining stroke volume values within a definite range might help maximize clinical benefit and avoid the risk of CSF overdrainage.
Highlights
CSF shunting with adjustable valve is the treatment of idiopathic normal pressure hydrocephalus
Idiopathic normal pressure hydrocephalus is a derangement of intracranial hydrodynamic leading to CSF endo-ventricular a ccumulation[1,2]
Adjustable valve allows for non-invasive matching of the opening pressure valve (OPV) with the patient’s intracranial hydrodynamics and clinical course, leading to gains in terms of outcome and treatment of overdrainage complications[13]
Summary
CSF shunting with adjustable valve is the treatment of idiopathic normal pressure hydrocephalus. Stroke volume, opening pressure valve, clinical outcome, and CSF overdrainage were analyzed. Maintaining stroke volume values within a definite range might help maximize clinical benefit and avoid the risk of CSF overdrainage. A relevant decrease of SV values heralded intracranial fluid collection (IFC), a CSF overdrainage-related complication, which can be corrected by valve closure at the expense of the clinical benefits[12]. Adjustable valve allows for non-invasive matching of the opening pressure valve (OPV) with the patient’s intracranial hydrodynamics and clinical course, leading to gains in terms of outcome and treatment of overdrainage complications[13]. We aimed at identifying a range of SV changes achievable by means of OPV resettings during follow-up that might help maximize a patient’s clinical benefit while avoiding overdrainage complications
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