Machine learning identifies clinical sepsis phenotypes that translate to the plasma proteome.

IF 3.6 2区医学 Q1 INFECTIOUS DISEASES

Infection Pub Date : 2025-08-28 DOI:10.1007/s15010-025-02628-3

Thilo Bracht, Maike Weber, Kerstin Kappler, Lars Palmowski, Malte Bayer, Karin Schork, Tim Rahmel, Matthias Unterberg, Helge Haberl, Alexander Wolf, Björn Koos, Katharina Rump, Dominik Ziehe, Ulrich Limper, Dietrich Henzler, Stefan Felix Ehrentraut, Thilo von Groote, Alexander Zarbock, Katrin Marcus-Alic, Martin Eisenacher, Michael Adamzik, Barbara Sitek, Hartmuth Nowak

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引用次数: 0

Abstract

Background: Sepsis therapy is still limited to treatment of the underlying infection and supportive measures. To date, various sepsis subtypes were proposed, but therapeutic options addressing the molecular changes of sepsis were not identified. With the aim of a future individualized therapy, we used machine learning (ML) to identify clinical phenotypes and their temporal development in a prospective, multicenter sepsis cohort and characterized them using plasma proteomics.

Methods: Routine clinical data and blood samples were collected from 384 patients. Sepsis phenotypes were identified based on clinical measurements and plasma samples from 301 patients were analyzed using mass spectrometry. The obtained data were evaluated in relation to the phenotypes, and supervised ML models were developed enabling prospective phenotype classification.

Results: Three sepsis phenotypes were identified. Cluster C was characterized by the highest disease severity and multi-organ failure with leading liver failure. Cluster B showed relevant organ failure, with renal damage being particularly prominent in comparison to cluster A. Time course analysis showed a strong association of cluster C with mortality, while patients in cluster B were likely to change the cluster until day 4. The plasma proteome reflected the clinical features of the phenotypes and showed gradual consumption of complement and coagulation factors with increasing sepsis severity. Supervised ML models allowed the assignment of patients based on only seven widely available features (alanine transaminase (ALT), aspartate transaminase (AST), base excess (BE), international normalized ratio of thrombin time (INR), diastolic arterial blood pressure, systolic arterial blood pressure (BPdia, BPsys) and activated partial thromboplastin time (aPTT)).

Conclusions: The identified clinical phenotypes reflected varying degrees of sepsis severity and were mirrored in the plasma proteome. Proteomic profiling offered novel insights into the molecular mechanisms underlying sepsis and enabled a deeper characterization of the identified phenotypes.

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机器学习识别转化为血浆蛋白质组的临床败血症表型。

背景：脓毒症的治疗仍然局限于治疗潜在感染和支持措施。迄今为止，各种脓毒症亚型被提出，但解决脓毒症分子变化的治疗方案尚未确定。为了未来的个体化治疗，我们使用机器学习（ML）在前瞻性多中心脓毒症队列中识别临床表型及其时间发展，并使用血浆蛋白质组学对其进行表征。方法：收集384例患者的常规临床资料及血液标本。根据临床测量确定脓毒症表型，并使用质谱分析301例患者的血浆样本。将获得的数据与表型进行评估，并开发有监督的ML模型，从而实现前瞻性表型分类。结果：确定了三种脓毒症表型。C组的特点是疾病严重程度最高，多器官功能衰竭伴肝功能衰竭。B类患者表现出相关的器官衰竭，与a类患者相比，肾损害尤为突出。时间过程分析显示，C类患者与死亡率有很强的相关性，而B类患者在第4天之前可能会改变聚类。血浆蛋白质组反映了表型的临床特征，随着脓毒症严重程度的增加，补体和凝血因子逐渐消耗。有监督的ML模型允许仅基于七个广泛可用的特征（谷丙转氨酶（ALT），天冬氨酸转氨酶（AST），碱基过剩（BE），国际标准化凝血酶时间比（INR），舒张动脉压，收缩压（BPdia, BPsys）和活化的部分凝血活素时间（aPTT））来分配患者。结论：确定的临床表型反映了不同程度的脓毒症严重程度，并反映在血浆蛋白质组中。蛋白质组学分析为脓毒症的分子机制提供了新的见解，并能够更深入地表征所鉴定的表型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Infection 医学-传染病学

CiteScore

12.50

自引率

1.30%

发文量

224

审稿时长

6-12 weeks

期刊介绍： Infection is a journal dedicated to serving as a global forum for the presentation and discussion of clinically relevant information on infectious diseases. Its primary goal is to engage readers and contributors from various regions around the world in the exchange of knowledge about the etiology, pathogenesis, diagnosis, and treatment of infectious diseases, both in outpatient and inpatient settings. The journal covers a wide range of topics, including: Etiology: The study of the causes of infectious diseases. Pathogenesis: The process by which an infectious agent causes disease. Diagnosis: The methods and techniques used to identify infectious diseases. Treatment: The medical interventions and strategies employed to treat infectious diseases. Public Health: Issues of local, regional, or international significance related to infectious diseases, including prevention, control, and management strategies. Hospital Epidemiology: The study of the spread of infectious diseases within healthcare settings and the measures to prevent nosocomial infections. In addition to these, Infection also includes a specialized "Images" section, which focuses on high-quality visual content, such as images, photographs, and microscopic slides, accompanied by brief abstracts. This section is designed to highlight the clinical and diagnostic value of visual aids in the field of infectious diseases, as many conditions present with characteristic clinical signs that can be diagnosed through inspection, and imaging and microscopy are crucial for accurate diagnosis. The journal's comprehensive approach ensures that it remains a valuable resource for healthcare professionals and researchers in the field of infectious diseases.