心肺信息传递减少与脓毒症重症患者病情恶化和预后不良有关

Cecilia Morandotti, Matthew Wikner, Qijun Li, Emily Ito, Calix Tan, Pin-Yu Chen, Anika Cawthorn, Watjana Lilaonitkul, Alireza Mani
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引用次数: 0

摘要

在重症监护病房评估病情严重程度对于早期预测病情恶化和预后至关重要。传统的预后评分通常将器官系统分开处理,忽略了人体相互关联的本质。网络生理学为了解这些复杂的相互作用提供了一种新方法。本研究利用传递熵(TE)的概念来测量脓毒症重症患者心率(HR)、呼吸频率(RR)和毛细血管血氧饱和度(SpO2)之间的信息流,并假设这些信号之间的传递熵与疾病预后相关。这项回顾性队列研究利用了 MIMIC III 临床数据库,其中包括入院时符合败血症-3 标准并有 30 分钟连续 HR、RR 和 SpO2 数据的患者。通过计算信号之间的TE值来创建生理网络图。Cox 回归评估了心肺网络指数与病情恶化(48 小时内 SOFA 评分增加≥2 分)和 30 天死亡率之间的关系。在164名患者中,从SpO2到HR的较高信息流[TE(SpO2 → HR)]和HR与RR之间的相互信息流[TE(RR → HR)和TE(HR → RR)]与死亡率降低有关,与年龄、机械通气、SOFA评分和合并症无关。TE(HR → RR)、TE(RR → HR)、TE(SpO2 → RR)和TE(SpO2 → HR)的降低与 48 小时病情恶化风险的增加有关。在对潜在混杂因素进行调整后,只有TE(HR → RR)和TE(RR → HR)仍具有统计学意义。该研究证实,利用脓毒症患者的常规信号绘制生理网络图可显示病情严重程度,而且较高的TE值通常与预后改善相关。
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Decreased cardio-respiratory information transfer is associated with deterioration and a poor prognosis in critically ill patients with sepsis
Assessing illness severity in the ICU is crucial for early prediction of deterioration and prognosis. Traditional prognostic scores often treat organ systems separately, overlooking the body's interconnected nature. Network physiology offers a new approach to understanding these complex interactions. This study used the concept of transfer entropy (TE) to measure information flow between heart rate (HR), respiratory rate (RR), and capillary oxygen saturation (SpO2) in critically ill sepsis patients, hypothesizing that TE between these signals would correlate with disease outcome. The retrospective cohort study utilized the MIMIC III Clinical Database, including patients who met Sepsis-3 criteria on admission and had 30 minutes of continuous HR, RR, and SpO2 data. TE between the signals was calculated to create physiological network maps. Cox regression assessed the relationship between cardiorespiratory network indices and both deterioration (SOFA score increase of ≥2 points at 48 hours) and 30-day mortality. Among 164 patients, higher information flow from SpO2 to HR [TE(SpO2 → HR)] and reciprocal flow between HR and RR [TE(RR → HR) and TE(HR → RR)] were linked to reduced mortality, independent of age, mechanical ventilation, SOFA score, and comorbidity. Reductions in TE(HR → RR), TE(RR → HR), TE(SpO2 → RR), and TE(SpO2 → HR) were associated with increased risk of 48-hour deterioration. After adjustment for potential confounders, only TE(HR → RR) and TE(RR → HR) remained statistically significant. The study confirmed that physiological network mapping using routine signals in sepsis patients could indicate illness severity and that higher TE values were generally associated with improved outcomes.
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