常规和非常规 T 细胞反应有助于预测败血症患者的临床结局和致病细菌病原体

Ross J Burton, Loïc Raffray, Linda M Moet, Simone M Cuff, Daniel A White, Sarah E Baker, Bernhard Moser, Valerie B O’Donnell, Peter Ghazal, Matt P Morgan, Andreas Artemiou, Matthias Eberl
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引用次数: 0

摘要

败血症的特点是宿主对感染的反应失调,最终导致危及生命的器官衰竭,需要对病人进行复杂的管理和快速干预。及时诊断败血症的潜在病因至关重要,而识别有并发症和死亡风险的患者则是分流治疗和资源分配的当务之急。在此,我们探索了可解释机器学习模型预测败血症患者死亡率和致病病原体的潜力。通过采用多种特征选择算法的建模管道,我们证明了从临床参数、血浆生物标记物和血液免疫细胞的广泛表型中识别综合模式的可行性。虽然没有一个变量具有足够的预测能力,但结合了五个或更多特征的模型显示,预测败血症诊断后 90 天死亡率的宏观曲线下面积(AUC)为 0.85,区分革兰氏阳性和革兰氏阴性细菌感染的宏观曲线下面积(AUC)为 0.86。与细胞免疫反应相关的参数对预测 90 天死亡率的模型贡献最大,其中最明显的是 T 细胞在 PBMCs 中的比例,以及 CD4+ T 细胞的 CXCR3 表达和粘膜相关不变 T(MAIT)细胞的 CD25 表达。Vδ2+ γδ T 细胞的频率与其他 T 细胞相关变量和中性粒细胞总数一起对革兰氏阴性感染的预测产生了最深远的影响。总之,我们的研究结果强调了结合其他免疫学、生化和临床参数测量脓毒症患者血液中常规和非常规 T 细胞的比例和活化模式的附加价值。
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Conventional and unconventional T cell responses contribute to the prediction of clinical outcome and causative bacterial pathogen in sepsis patients
Sepsis is characterised by a dysfunctional host response to infection culminating in life-threatening organ failure that requires complex patient management and rapid intervention. Timely diagnosis of the underlying cause of sepsis is crucial, and identifying those at risk of complications and death is imperative for triaging treatment and resource allocation. Here, we explored the potential of explainable machine learning models to predict mortality and causative pathogen in sepsis patients. By using a modelling pipeline employing multiple feature selection algorithms, we demonstrate the feasibility to identify integrative patterns from clinical parameters, plasma biomarkers and extensive phenotyping of blood immune cells. Whilst no single variable had sufficient predictive power, models that combined five and more features showed a macro area under the curve (AUC) of 0.85 to predict 90 day mortality after sepsis diagnosis, and a macro AUC of 0.86 to discriminate between Gram-positive and Gram-negative bacterial infections. Parameters associated with the cellular immune response contributed the most to models predictive of 90 day mortality, most notably, the proportion of T cells among PBMCs, together with expression of CXCR3 by CD4+ T cells and CD25 by mucosal-associated invariant T (MAIT) cells. Frequencies of Vδ2+ γδ T cells had the most profound impact on the prediction of Gram-negative infections, alongside other T cell-related variables and total neutrophil count. Overall, our findings highlight the added value of measuring the proportion and activation patterns of conventional and unconventional T cells in the blood of sepsis patients in combination with other immunological, biochemical and clinical parameters.
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