AI Article Synopsis
- Cerebrovascular damage from small vessel disease (SVD) is common in older adults, and white matter hyperintensities (WMH) increase with age, detected through MRI using the STRIVE criteria.
- Current methods for assessing WMH are time-consuming and inconsistent, prompting the study to evaluate different automated segmentation software against manual assessment to enhance accuracy and practicality.
- The study found that supervised algorithms outperformed others in detecting small WMHs, proposed a new biomarker for moderate vascular damage related to WMH volume, and highlighted the correlation of this marker with variations in brain structure and behavior in healthy adults.
Article Abstract
Cerebrovascular damage from small vessel disease (SVD) occurs in healthy and pathological aging. SVD markers, such as white matter hyperintensities (WMH), are commonly found in individuals over 60 and increase in prevalence with age. WMHs are detectable on standard MRI by adhering to the STRIVE criteria. Currently, visual assessment scales are used in clinical and research scenarios but is time-consuming and has rater variability, limiting its practicality. Addressing this issue, our study aimed to determine the most precise WMH segmentation software, offering insights into methodology and usability to balance clinical precision with practical application. This study employed a dataset comprising T1, FLAIR, and DWI images from 300 cognitively healthy older adults. WMHs in this cohort were evaluated using four automated neuroimaging tools: Lesion Prediction Algorithm (LPA) and Lesion Growth Algorithm (LGA) from Lesion Segmentation Tool (LST), Sequence Adaptive Multimodal Segmentation (SAMSEG), and Brain Intensity Abnormalities Classification Algorithm (BIANCA). Additionally, clinicians manually segmented WMHs in a subsample of 45 participants to establish a gold standard. The study assessed correlations with the Fazekas scale, algorithm performance, and the influence of WMH volume on reliability. Results indicated that supervised algorithms were superior, particularly in detecting small WMHs, and can improve their consistency when used in parallel with unsupervised tools. The research also proposed a biomarker for moderate vascular damage, derived from the top 95th percentile of WMH volume in healthy individuals aged 50 to 60. This biomarker effectively differentiated subgroups within the cohort, correlating with variations in brain structure and behavior.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11118558 | PMC |
| http://dx.doi.org/10.1101/2023.03.30.23287946 | DOI Listing |
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