Identifying TBI Physiological States by Clustering Multivariate Clinical Time-Series Data.

AMIA ... Annual Symposium proceedings. AMIA Symposium Pub Date : 2024-01-11 eCollection Date: 2023-01-01
Hamid Ghaderi, Brandon Foreman, Amin Nayebi, Sindhu Tipirneni, Chandan K Reddy, Vignesh Subbian
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Abstract

Determining clinically relevant physiological states from multivariate time-series data with missing values is essential for providing appropriate treatment for acute conditions such as Traumatic Brain Injury (TBI), respiratory failure, and heart failure. Utilizing non-temporal clustering or data imputation and aggregation techniques may lead to loss of valuable information and biased analyses. In our study, we apply the SLAC-Time algorithm, an innovative self-supervision-based approach that maintains data integrity by avoiding imputation or aggregation, offering a more useful representation of acute patient states. By using SLAC-Time to cluster data in a large research dataset, we identified three distinct TBI physiological states and their specific feature profiles. We employed various clustering evaluation metrics and incorporated input from a clinical domain expert to validate and interpret the identified physiological states. Further, we discovered how specific clinical events and interventions can influence patient states and state transitions.

通过聚类多变量临床时间序列数据识别创伤性脑损伤的生理状态。
要为创伤性脑损伤(TBI)、呼吸衰竭和心力衰竭等急性病提供适当的治疗,必须从具有缺失值的多变量时间序列数据中确定临床相关的生理状态。使用非时间聚类或数据估算和聚合技术可能会导致宝贵信息的丢失和分析结果的偏差。在我们的研究中,我们采用了 SLAC-Time 算法,这是一种基于自我监督的创新方法,它通过避免估算或聚合来保持数据的完整性,从而为急性病患者的状态提供更有用的表征。通过使用 SLAC-Time 对大型研究数据集中的数据进行聚类,我们确定了三种不同的创伤性脑损伤生理状态及其特定特征。我们采用了各种聚类评估指标,并结合临床领域专家的意见来验证和解释所识别的生理状态。此外,我们还发现了特定临床事件和干预措施如何影响患者状态和状态转换。
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