Abstract
Background: MR-quantitative susceptibility mapping (QSM) can identify microbleeds (MBs) in intracranial aneurysm (IA) wall associated with sentinel headache (SH) preceding subarachnoid hemorrhage. However, its use is limited, due to associated skull base bonny and air artifact. MR-vessel wall imaging (VWI) is not limited by such artifact and therefore could be an alternative to QSM. The purpose of this study was to investigate the correlation between QSM and VWI in detecting MBs and to help develop a diagnostic strategy for SH. Methods: We performed a prospective study of subjects with one or more unruptured IAs in our hospital. All subjects underwent evaluation using 3T-MRI for MR angiography (MRA), QSM, and pre- and post-contrast VWI of the IAs. Presence/absence of MBs detected by QSM was correlated with aneurysm wall enhancement (AWE) on VWI. Results: A total of 40 subjects harboring 51 unruptured IAs were enrolled in the study. MBs evident on the QSM sequence was detected in 12 (23.5%) IAs of 11 subjects. All these subjects had a history of severe headache suggestive of SH. AWE was detected in 22 (43.1%) IAs. Using positive QSM as a surrogate for MBs, the sensitivity, specificity, positive predictive value, and negative predictive value of AWE on VWI for detecting MBs were 91.7%, 71.8%, 50%, and 96.6%, respectively. Conclusions: Positive QSM findings strongly suggested the presence of MBs with SH, whereas, the lack of AWE on VWI can rule it out with a probability of 96.6%. If proven in a larger cohort, combining QSM and VWI could be an adjunctive tool to help diagnose SH, especially in cases with negative or non-diagnostic CT and lumbar puncture.
Highlights
Sentinel headache (SH) is a sudden, intense, and persistent headache that precedes spontaneous subarachnoid hemorrhage (SAH) by days or weeks [1]
It remains problematic if patients harboring intracranial aneurysm (IA) presenting with severe headache suggestive of sentinel headache (SH) have no evidence of visible SAH in routine imaging head computed tomography (CT)
The purpose of this study was to investigate the correlation between the quantitative susceptibility mapping (QSM) and aneurysm wall enhancement (AWE), and to assess whether this type of imaging could complement the conventional assessment of CT and lumbar puncture (LP), especially when they are negative or non-diagnostic, during the work-up of patients with IAs presenting with severe headache
Summary
Sentinel headache (SH) is a sudden, intense, and persistent headache that precedes spontaneous subarachnoid hemorrhage (SAH) by days or weeks [1]. Given a wide spectrum of potential causes of severe headache, especially in the emergency department, it is important to identify objectively subjects with unruptured IAs presenting with SH who have aneurysmal microbleeds (MBs), as it is an eminent biomarker of later presentation of SAH. It remains problematic if patients harboring IAs presenting with severe headache suggestive of SH have no evidence of visible SAH in routine imaging head computed tomography (CT). MR-quantitative susceptibility mapping (QSM) can identify microbleeds (MBs) in intracranial aneurysm (IA) wall associated with sentinel headache (SH) preceding subarachnoid hemorrhage. If proven in a larger cohort, combining QSM and VWI could be an adjunctive tool to help diagnose SH, especially in cases with negative or non-diagnostic CT and lumbar puncture
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