ABSTRACT BACKGROUND AND PURPOSE: Advancements in CT myelography (CTM) have improved visualization of CSF-venous fistulas (CVFs), a frequent cause of spontaneous intracranial hypotension (SIH). However, the relative impact of the timing of image acquisition and the contrast density in the subarachnoid space remains unclear. This study compared the effects of timing and contrast density in the ipsilateral subarachnoid space and assessed the impact of other technical factors on CVF conspicuity, using a validated instrument to stratify diagnostic confidence. MATERIALS AND METHODS: A retrospective review of ICHD-3 confirmed SIH patients with CVFs was performed. Only fistulas classified as definite by the Duke CSF-Venous Fistula Confidence Score (DCCS) were included. All available CTMs covering each index fistula site were reviewed, excluding exams occurring after surgery or embolization for a definite CVF. We assigned a DCCS score to each acquisition and recorded contrast density in the subarachnoid space ipsilateral to the known CVF and image acquisition time. Patient positioning and scanner type were also collected as potential confounders. Ordinal logistic regression was used to assess associations with CVF conspicuity. RESULTS: 144 patients with 149 definite CVFs comprised the final cohort, from which 222 CTMs and 697 acquisitions were assessed. Both increased contrast density and reduced acquisition time were associated with increased CVF conspicuity in univariate analyses (pCONCLUSIONS: Both contrast density and time influence conspicuity of CVFs on CTM; however, the greater relative impact of density suggests that myelogram technique should prioritize maximization of contrast density for optimal visualization of CVFs. Positioning strategies to increase local contrast pooling may improve CVF detection more effectively than timing adjustments alone. ABBREVIATIONS:CTM = CT myelography; CVF = CSF-venous fistula; DCCS = Duke CSF-Venous Fistula Confidence Score; DSM = digital subtraction myelography; EID CT = energy-integrating detector CT; HPVS = hyperdense paraspinal vein sign; ISS = ipsilateral subarachnoid space; PCD CT = photon-counting detector CT; SIH = spontaneous intracranial hypotension.
Zhu et al. (Wed,) studied this question.
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