Incidentally discovered Covert Cerebrovascular Disease by CT versus MRI: Agreement and Prognostic Value for Stroke and Dementia in a Large Real-World Cohort
Abstract
Background
Covert cerebrovascular disease (CCD), comprising covert brain infarction (CBI) and white matter disease (WMD), is common in older adults and linked to increased risk of stroke and dementia. While most CCD research relies on MRI, CT remains the predominant imaging modality in clinical care. The influence of imaging modality on detection and prognosis of incidentally discovered CCD remains unclear.
Methods
We identified 18,626 patients aged ≥50 years from Kaiser Permanente Southern California who underwent both CT and MRI brain scans within 30 days between 2009– 2022. Patients with known prior stroke or dementia were excluded. Natural language processing algorithms were applied to radiology reports to identify CBI and WMD status and WMD severity (none, mild, moderate, severe). We assessed prevalence, cross-modality agreement (Cohen’s kappa), and reclassification patterns. Prognostic associations with incident stroke or dementia were estimated using Cox Proportional Hazards regression adjusted for vascular and cognitive risk factors.
Findings
CBI prevalence was similar for CT (6.3%) and MRI (6.1%), but agreement was modest (κ=0.27). WMD was reported far more often on MRI (60.5%) than CT (24.4%). Among 15,551 patients with classifiable severity on both modalities, 47.9% (n=7,441) had discordant grades, with 92.3% upgraded on MRI. The incidence rates of stroke or dementia per 1,000 person-years were 12.7 (95% CI 11.5 - 14.0) for patients without WMD on either modality (36.3% of the cohort), 22.6 (21.0 - 24.2) for WMD detected on MRI only (39.2% of the cohort), and 52.2 (48.69 to 55.95) for WMD detected on both CT and MRI (21.2% of the cohort). In adjusted Cox models, WMD detected on MRI only was associated with a 23% higher hazard of stroke or dementia (HR=1.23, 95% CI 1.07–1.41) compared with no WMD on either modality, while WMD detected on both CT and MRI was associated with an 82% higher hazard (1.82, 1.58–2.11).
Interpretation
MRI detects substantially more WMD than CT; however, WMD visible on CT has stronger prognostic significance, despite CT’s low sensitivity. These findings emphasize modality-based diagnostic and prognostic differences and support the need for modality-specific approaches when translating CCD research into clinical risk assessment and patient counselling.
Funding
This work is funded by an Alzheimer’s Drug Discovery Foundation (ADDF) award (RC-202209-2024187) and National Institutes of Health (NIH) grants (2 RF1 NS102233-05, R01 NS134859-01).
Research in context
Evidence before this study
Most knowledge about covert cerebrovascular disease (CCD), including covert brain infarction (CBI) and white matter disease (WMD), comes from MRI-based research cohorts. However, CT is the dominant imaging modality in routine care, where incidental CCD is identified. Previous studies identified from our literature search suggest that CT and MRI may differ in sensitivity, but no studies have directly compared diagnostic and prognostic differences across both modalities within the same patients in routinely-obtained neuroimaging.
Added value of this study
This is the first large-scale, within-subject analysis of CT and MRI CCD findings obtained in routine care. We found that MRI detects substantially more WMD, while CT-detected WMD is more strongly associated with future stroke and dementia. CBI prevalence was similar across modalities, but agreement was modest.
Implications of all the available evidence
Our findings suggest that clinically meaningful CCD is usually captured by CT scan; pragmatic research studies need to incorporate this modality.
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