Author
Listed:
- Zhengwu Zhang
- Yuexuan Wu
- Di Xiong
- Joseph G. Ibrahim
- Anuj Srivastava
- Hongtu Zhu
Abstract
Over the past 30 years, magnetic resonance imaging has become a ubiquitous tool for accurately visualizing the change and development of the brain’s subcortical structures (e.g., hippocampus). Although subcortical structures act as information hubs of the nervous system, their quantification is still in its infancy due to many challenges in shape extraction, representation, and modeling. Here, we develop a simple and efficient framework of longitudinal elastic shape analysis (LESA) for subcortical structures. Integrating ideas from elastic shape analysis of static surfaces and statistical modeling of sparse longitudinal data, LESA provides a set of tools for systematically quantifying changes of longitudinal subcortical surface shapes from raw structure MRI data. The key novelties of LESA include: (i) it can efficiently represent complex subcortical structures using a small number of basis functions and (ii) it can accurately delineate the spatiotemporal shape changes of the human subcortical structures. We applied LESA to analyze three longitudinal neuroimaging datasets and showcase its wide applications in estimating continuous shape trajectories, building life-span growth patterns, and comparing shape differences among different groups. In particular, with the Alzheimer’s Disease Neuroimaging Initiative (ADNI) data, we found that Alzheimer’s Disease (AD) can significantly speed the shape change of the lateral ventricle and the hippocampus from 60 to 75 years olds compared with normal aging. Supplementary materials for this article are available online.
Suggested Citation
Zhengwu Zhang & Yuexuan Wu & Di Xiong & Joseph G. Ibrahim & Anuj Srivastava & Hongtu Zhu, 2023.
"LESA: Longitudinal Elastic Shape Analysis of Brain Subcortical Structures,"
Journal of the American Statistical Association, Taylor & Francis Journals, vol. 118(541), pages 3-17, January.
Handle:
RePEc:taf:jnlasa:v:118:y:2023:i:541:p:3-17
DOI: 10.1080/01621459.2022.2102984
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