Cortical thickness analysis combined with CSF dynamics improves diagnostic stratification in idiopathic normal pressure hydrocephalus
Daniele Piccolo, Daniele Bagatto, Serena D’Agostini, Maria Cristina De Colle, Enrico Belgrado, Yan Tereshko, Marco Vindigni, Francesco Tuniz

TL;DR
Combining brain imaging and spinal fluid analysis improves diagnosis and treatment decisions for a brain condition called idiopathic normal pressure hydrocephalus.
Contribution
A new diagnostic approach combining cortical thickness and CSF dynamics achieves high predictive accuracy for iNPH treatment outcomes.
Findings
Cortical thickness variations in specific brain regions correlate with poor treatment outcomes in iNPH patients.
A machine learning model integrating cortical thickness and CSF data achieved 90% positive predictive value for treatment response.
Combining neuroimaging and CSF analysis improves diagnostic precision over traditional methods.
Abstract
The diagnostic landscape for idiopathic normal-pressure hydrocephalus is intricate, and there is a pressing need for accurate and cost-effective methods. Because of the lack of accurate diagnostic and prognostic quantitative biomarkers, the frequent presence of comorbidities, and the limited understanding of the pathophysiology of the disorder, only a minority of patients receive disease-specific treatment. While traditional neuroimaging offers insights, its isolated diagnostic precision can be enhanced. Emerging quantitative methods analyzing cortical thickness based on standard T1-weighted brain MR images offer new diagnostic possibilities. We analyzed 294 patients referred to our clinic from January 2015 until December 2022. After the exclusion criteria, the final sample consisted of 100 possible iNPH patients. Of these, 71 underwent ventriculoperitoneal shunt surgery, while 29 did…
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Taxonomy
TopicsCerebrospinal fluid and hydrocephalus · Intracerebral and Subarachnoid Hemorrhage Research · Fetal and Pediatric Neurological Disorders
