Temporal robustness of biomarker-based classification algorithms for sepsis

Emma Rademaker; Rombout B E van Amstel; Said El Bouhaddani; Marc J M Bonten; Lennie P G Derde; Lonneke van Vught; Tom van der Poll; Lieuwe D J Bos; Harm-Jan de Grooth; Olaf L Cremer

doi:10.1007/s00134-025-08218-z

Temporal robustness of biomarker-based classification algorithms for sepsis

Emma Rademaker
, Rombout B E van Amstel
, Said El Bouhaddani
, Marc J M Bonten
, Lennie P G Derde
, Lonneke van Vught
, Tom van der Poll
, Lieuwe D J Bos
, Harm-Jan de Grooth
, Olaf L Cremer

Julius Centre for Health Sciences and Primary Care, Netherlands
University Medical Center Utrecht
Department of Intensive Care
AMsterdam University Medical Center
University of Amsterdam
European Clinical Research Alliance on Infectious Diseases
Utrecht
The Netherlands
Center for Experimental and Molecular Medicine
Utrecht University
Amsterdam UMC - University of Amsterdam

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

PURPOSE: Heterogeneity of the host response in sepsis hampers development of effective treatments. Several immunobiologically distinct subphenotypes (or endotypes) have been identified using data-driven analyses of single-timepoint biomarker data, but their temporal stability remains uncertain due to dynamic biology and statistical limitations.

METHODS: We analyzed data from 345 sepsis patients across two ICU cohorts. 30 immune biomarkers were measured every 8 h for up to 7 days. Latent profile analysis was used to identify classes upon admission and re-classify patients at later timepoints. Temporal robustness was assessed by (1) inter-class transition rates, and (2) intra-class cohesion (regardless of label) using the Rand Index (RI).

RESULTS: At ICU admission, three immune profiles were identified: profile A (149 patients, 43%) reflected adaptive immune activation (elevated IL-4, IL-5, RANTES, and GM-CSF); profile B (60 patients, 17%) a hyperinflammatory state (high IL-6, IL-8, IL-1Ra, and low protein C); and profile C (136 patients, 39%) broadly attenuated inflammation. By 48 h, the prevalences of A and B declined to 31% and 13%, while C increased to 56%. Inter-class transitions occurred most in patients assigned to A (41% of all 8-hourly transitions), compared to 39% and 22% for B and C. Intra-class cohesion across intervals was poor (median RI 65%, IQR 62-64%), indicating that patients classified together at admission did not remain consistently together.

CONCLUSION: Sepsis patients were frequently reclassified across immune profiles over short intervals, with approximately one-third of subgroup peers changing at each timepoint. This instability challenges the clinical utility of biomarker-derived endotypes.

Original language	English
Journal	Intensive care medicine
Early online date	1 Dec 2025
DOIs	https://doi.org/10.1007/s00134-025-08218-z
Publication status	E-pub ahead of print - 1 Dec 2025

Keywords

Biomarker
Immune profile
Sepsis
Subphenotypes
Temporal stability

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title = "Temporal robustness of biomarker-based classification algorithms for sepsis",

abstract = "PURPOSE: Heterogeneity of the host response in sepsis hampers development of effective treatments. Several immunobiologically distinct subphenotypes (or endotypes) have been identified using data-driven analyses of single-timepoint biomarker data, but their temporal stability remains uncertain due to dynamic biology and statistical limitations.METHODS: We analyzed data from 345 sepsis patients across two ICU cohorts. 30 immune biomarkers were measured every 8 h for up to 7 days. Latent profile analysis was used to identify classes upon admission and re-classify patients at later timepoints. Temporal robustness was assessed by (1) inter-class transition rates, and (2) intra-class cohesion (regardless of label) using the Rand Index (RI).RESULTS: At ICU admission, three immune profiles were identified: profile A (149 patients, 43\%) reflected adaptive immune activation (elevated IL-4, IL-5, RANTES, and GM-CSF); profile B (60 patients, 17\%) a hyperinflammatory state (high IL-6, IL-8, IL-1Ra, and low protein C); and profile C (136 patients, 39\%) broadly attenuated inflammation. By 48 h, the prevalences of A and B declined to 31\% and 13\%, while C increased to 56\%. Inter-class transitions occurred most in patients assigned to A (41\% of all 8-hourly transitions), compared to 39\% and 22\% for B and C. Intra-class cohesion across intervals was poor (median RI 65\%, IQR 62-64\%), indicating that patients classified together at admission did not remain consistently together.CONCLUSION: Sepsis patients were frequently reclassified across immune profiles over short intervals, with approximately one-third of subgroup peers changing at each timepoint. This instability challenges the clinical utility of biomarker-derived endotypes.",

keywords = "Biomarker, Immune profile, Sepsis, Subphenotypes, Temporal stability",

author = "Emma Rademaker and \{van Amstel\}, \{Rombout B E\} and \{El Bouhaddani\}, Said and Bonten, \{Marc J M\} and Derde, \{Lennie P G\} and \{van Vught\}, Lonneke and \{van der Poll\}, Tom and Bos, \{Lieuwe D J\} and \{de Grooth\}, Harm-Jan and Cremer, \{Olaf L\}",

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year = "2025",

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doi = "10.1007/s00134-025-08218-z",

language = "English",

journal = "Intensive care medicine",

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T1 - Temporal robustness of biomarker-based classification algorithms for sepsis

AU - Rademaker, Emma

AU - van Amstel, Rombout B E

AU - El Bouhaddani, Said

AU - Bonten, Marc J M

AU - Derde, Lennie P G

AU - van Vught, Lonneke

AU - van der Poll, Tom

AU - Bos, Lieuwe D J

AU - de Grooth, Harm-Jan

AU - Cremer, Olaf L

PY - 2025/12/1

Y1 - 2025/12/1

N2 - PURPOSE: Heterogeneity of the host response in sepsis hampers development of effective treatments. Several immunobiologically distinct subphenotypes (or endotypes) have been identified using data-driven analyses of single-timepoint biomarker data, but their temporal stability remains uncertain due to dynamic biology and statistical limitations.METHODS: We analyzed data from 345 sepsis patients across two ICU cohorts. 30 immune biomarkers were measured every 8 h for up to 7 days. Latent profile analysis was used to identify classes upon admission and re-classify patients at later timepoints. Temporal robustness was assessed by (1) inter-class transition rates, and (2) intra-class cohesion (regardless of label) using the Rand Index (RI).RESULTS: At ICU admission, three immune profiles were identified: profile A (149 patients, 43%) reflected adaptive immune activation (elevated IL-4, IL-5, RANTES, and GM-CSF); profile B (60 patients, 17%) a hyperinflammatory state (high IL-6, IL-8, IL-1Ra, and low protein C); and profile C (136 patients, 39%) broadly attenuated inflammation. By 48 h, the prevalences of A and B declined to 31% and 13%, while C increased to 56%. Inter-class transitions occurred most in patients assigned to A (41% of all 8-hourly transitions), compared to 39% and 22% for B and C. Intra-class cohesion across intervals was poor (median RI 65%, IQR 62-64%), indicating that patients classified together at admission did not remain consistently together.CONCLUSION: Sepsis patients were frequently reclassified across immune profiles over short intervals, with approximately one-third of subgroup peers changing at each timepoint. This instability challenges the clinical utility of biomarker-derived endotypes.

AB - PURPOSE: Heterogeneity of the host response in sepsis hampers development of effective treatments. Several immunobiologically distinct subphenotypes (or endotypes) have been identified using data-driven analyses of single-timepoint biomarker data, but their temporal stability remains uncertain due to dynamic biology and statistical limitations.METHODS: We analyzed data from 345 sepsis patients across two ICU cohorts. 30 immune biomarkers were measured every 8 h for up to 7 days. Latent profile analysis was used to identify classes upon admission and re-classify patients at later timepoints. Temporal robustness was assessed by (1) inter-class transition rates, and (2) intra-class cohesion (regardless of label) using the Rand Index (RI).RESULTS: At ICU admission, three immune profiles were identified: profile A (149 patients, 43%) reflected adaptive immune activation (elevated IL-4, IL-5, RANTES, and GM-CSF); profile B (60 patients, 17%) a hyperinflammatory state (high IL-6, IL-8, IL-1Ra, and low protein C); and profile C (136 patients, 39%) broadly attenuated inflammation. By 48 h, the prevalences of A and B declined to 31% and 13%, while C increased to 56%. Inter-class transitions occurred most in patients assigned to A (41% of all 8-hourly transitions), compared to 39% and 22% for B and C. Intra-class cohesion across intervals was poor (median RI 65%, IQR 62-64%), indicating that patients classified together at admission did not remain consistently together.CONCLUSION: Sepsis patients were frequently reclassified across immune profiles over short intervals, with approximately one-third of subgroup peers changing at each timepoint. This instability challenges the clinical utility of biomarker-derived endotypes.

KW - Biomarker

KW - Immune profile

KW - Sepsis

KW - Subphenotypes

KW - Temporal stability

UR - https://www.scopus.com/pages/publications/105023530772

U2 - 10.1007/s00134-025-08218-z

DO - 10.1007/s00134-025-08218-z

M3 - Article

C2 - 41324692

SN - 0342-4642

JO - Intensive care medicine

JF - Intensive care medicine

ER -

Temporal robustness of biomarker-based classification algorithms for sepsis

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