AI-based detection of Certas Plus shunt valve settings in CT scans
Pierre Scheffler, Mukesch Shah, Ramy Amirah, Shahan Momjian, Jürgen Beck, Amir El Rahal

TL;DR
An AI model was developed to accurately detect settings of Certas Plus shunt valves in CT scans, aiding in the diagnosis of hydrocephalus.
Contribution
A novel AI-based method for detecting Certas Plus shunt valve settings in CT scans is introduced.
Findings
The AI model segmented valve components in 97.3% of test cases.
The model correctly predicted the exact or adjacent shunt valve setting in 96% of cases.
The model shows promise as a clinical support tool for shunt diagnostics.
Abstract
Adjustable pressure cerebrospinal fluid (CSF) shunt valves are widely used in the treatment of hydrocephalus. CSF shunt dysfunctions can manifest with diverse symptoms, often requiring further diagnostic evaluation. Head computed tomography (CT) is frequently used as an initial diagnostic tool. Accurate identification of the current shunt valve setting is crucial for patient management; however, interpretation on CT is difficult due to three-dimensional imaging, metal artefacts, and limited spatial resolution. We therefore developed an artificial intelligence (AI)-based model to automatically assess shunt valve settings in CT scans. We collected 391 head CT scans from patients with CSF shunts featuring a Certas Plus valve. Shunt settings were extracted from medical records and verified on imaging. A 3D U-Net was trained to segment radiopaque valve components, from which the valve…
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Taxonomy
TopicsCerebrospinal fluid and hydrocephalus · Intracerebral and Subarachnoid Hemorrhage Research · Fetal and Pediatric Neurological Disorders
