Machine Learning Used to Compare the Diagnostic Accuracy of Risk Factors, Clinical Signs and Biomarkers and to Develop a New Prediction Model for Neonatal Early-onset Sepsis

Martin Stocker; Imant Daunhawer; Wendy van Herk; Salhab el Helou; Sourabh Dutta; Frank A. B. A. Schuerman; Rita K. van den Tooren-de Groot; Jantien W. Wieringa; Jan Janota; Laura H. van der Meer-Kappelle; Rob Moonen; Sintha D. Sie; Esther de Vries; Albertine E. Donker; Urs Zimmerman; Luregn J. Schlapbach; Amerik C. de Mol; Angelique Hoffmann-Haringsma; Madan Roy; Maren Tomaske; René F. Kornelisse; Juliette van Gijsel; Frans B. Plötz; Sven Wellmann; Niek B. Achten; Dirk Lehnick; Annemarie M. C. van Rossum; Julia E. Vogt

doi:https://doi.org/10.1097/INF.0000000000003344

Machine Learning Used to Compare the Diagnostic Accuracy of Risk Factors, Clinical Signs and Biomarkers and to Develop a New Prediction Model for Neonatal Early-onset Sepsis

Martin Stocker, Imant Daunhawer, Wendy van Herk, Salhab el Helou, Sourabh Dutta, Frank A. B. A. Schuerman, Rita K. van den Tooren-de Groot, Jantien W. Wieringa, Jan Janota, Laura H. van der Meer-Kappelle, Rob Moonen, Sintha D. Sie, Esther de Vries, Albertine E. Donker, Urs Zimmerman, Luregn J. Schlapbach, Amerik C. de Mol, Angelique Hoffmann-Haringsma, Madan Roy, Maren TomaskeRené F. Kornelisse, Juliette van Gijsel, Frans B. Plötz, Sven Wellmann, Niek B. Achten, Dirk Lehnick, Annemarie M. C. van Rossum, Julia E. Vogt

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

8 Citations (Scopus)

Abstract

Background: Current strategies for risk stratification and prediction of neonatal early-onset sepsis (EOS) are inefficient and lack diagnostic performance. The aim of this study was to use machine learning to analyze the diagnostic accuracy of risk factors (RFs), clinical signs and biomarkers and to develop a prediction model for culture-proven EOS. We hypothesized that the contribution to diagnostic accuracy of biomarkers is higher than of RFs or clinical signs. Study Design: Secondary analysis of the prospective international multicenter NeoPInS study. Neonates born after completed 34 weeks of gestation with antibiotic therapy due to suspected EOS within the first 72 hours of life participated. Primary outcome was defined as predictive performance for culture-proven EOS with variables known at the start of antibiotic therapy. Machine learning was used in form of a random forest classifier. Results: One thousand six hundred eighty-five neonates treated for suspected infection were analyzed. Biomarkers were superior to clinical signs and RFs for prediction of culture-proven EOS. C-reactive protein and white blood cells were most important for the prediction of the culture result. Our full model achieved an area-under-the-receiver-operating-characteristic-curve of 83.41% (±8.8%) and an area-under-the-precision-recall-curve of 28.42% (±11.5%). The predictive performance of the model with RFs alone was comparable with random. Conclusions: Biomarkers have to be considered in algorithms for the management of neonates suspected of EOS. A 2-step approach with a screening tool for all neonates in combination with our model in the preselected population with an increased risk for EOS may have the potential to reduce the start of unnecessary antibiotics.

Original language	English
Pages (from-to)	248-254
Number of pages	7
Journal	Pediatric Infectious Disease Journal
Volume	41
Issue number	3
Early online date	9 Sept 2021
DOIs	https://doi.org/10.1097/INF.0000000000003344
Publication status	Published - 1 Mar 2022

Keywords

antibiotic therapy
biomarkers
clinical signs
early-onset sepsis
risk factors

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Stocker, M., Daunhawer, I., van Herk, W., el Helou, S., Dutta, S., Schuerman, F. A. B. A., van den Tooren-de Groot, R. K., Wieringa, J. W., Janota, J., van der Meer-Kappelle, L. H., Moonen, R., Sie, S. D., de Vries, E., Donker, A. E., Zimmerman, U., Schlapbach, L. J., de Mol, A. C., Hoffmann-Haringsma, A., Roy, M., ... Vogt, J. E. (2022). Machine Learning Used to Compare the Diagnostic Accuracy of Risk Factors, Clinical Signs and Biomarkers and to Develop a New Prediction Model for Neonatal Early-onset Sepsis. Pediatric Infectious Disease Journal, 41(3), 248-254. https://doi.org/10.1097/INF.0000000000003344

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title = "Machine Learning Used to Compare the Diagnostic Accuracy of Risk Factors, Clinical Signs and Biomarkers and to Develop a New Prediction Model for Neonatal Early-onset Sepsis",

abstract = "Background: Current strategies for risk stratification and prediction of neonatal early-onset sepsis (EOS) are inefficient and lack diagnostic performance. The aim of this study was to use machine learning to analyze the diagnostic accuracy of risk factors (RFs), clinical signs and biomarkers and to develop a prediction model for culture-proven EOS. We hypothesized that the contribution to diagnostic accuracy of biomarkers is higher than of RFs or clinical signs. Study Design: Secondary analysis of the prospective international multicenter NeoPInS study. Neonates born after completed 34 weeks of gestation with antibiotic therapy due to suspected EOS within the first 72 hours of life participated. Primary outcome was defined as predictive performance for culture-proven EOS with variables known at the start of antibiotic therapy. Machine learning was used in form of a random forest classifier. Results: One thousand six hundred eighty-five neonates treated for suspected infection were analyzed. Biomarkers were superior to clinical signs and RFs for prediction of culture-proven EOS. C-reactive protein and white blood cells were most important for the prediction of the culture result. Our full model achieved an area-under-the-receiver-operating-characteristic-curve of 83.41% (±8.8%) and an area-under-the-precision-recall-curve of 28.42% (±11.5%). The predictive performance of the model with RFs alone was comparable with random. Conclusions: Biomarkers have to be considered in algorithms for the management of neonates suspected of EOS. A 2-step approach with a screening tool for all neonates in combination with our model in the preselected population with an increased risk for EOS may have the potential to reduce the start of unnecessary antibiotics.",

keywords = "antibiotic therapy, biomarkers, clinical signs, early-onset sepsis, risk factors",

author = "Martin Stocker and Imant Daunhawer and {van Herk}, Wendy and {el Helou}, Salhab and Sourabh Dutta and Schuerman, {Frank A. B. A.} and {van den Tooren-de Groot}, {Rita K.} and Wieringa, {Jantien W.} and Jan Janota and {van der Meer-Kappelle}, {Laura H.} and Rob Moonen and Sie, {Sintha D.} and {de Vries}, Esther and Donker, {Albertine E.} and Urs Zimmerman and Schlapbach, {Luregn J.} and {de Mol}, {Amerik C.} and Angelique Hoffmann-Haringsma and Madan Roy and Maren Tomaske and Kornelisse, {Ren{\'e} F.} and {van Gijsel}, Juliette and Pl{\"o}tz, {Frans B.} and Sven Wellmann and Achten, {Niek B.} and Dirk Lehnick and {van Rossum}, {Annemarie M. C.} and Vogt, {Julia E.}",

note = "Funding Information: This study was supported by The Thrasher Foundation (9143) to [M.S.]; The NutsOhra Foundation (1101-059) to [A.M.C.v.R.]; The Sophia Foundation for Scientific research (681) to [W.v.H.]; and the Swiss National Science Foundation (200021_188466) to [I.D.]. In addition, Thermofisher provided procalcitonin kits and provided an unrestricted grant for the organization of 4 investigator meetings (2008, 2009, 2013 and 2015). Publisher Copyright: {\textcopyright} 2022 Lippincott Williams and Wilkins. All rights reserved.",

year = "2022",

month = mar,

day = "1",

doi = "https://doi.org/10.1097/INF.0000000000003344",

language = "English",

volume = "41",

pages = "248--254",

journal = "Pediatric Infectious Disease Journal",

issn = "0891-3668",

publisher = "Lippincott Williams and Wilkins",

number = "3",

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Stocker, M, Daunhawer, I, van Herk, W, el Helou, S, Dutta, S, Schuerman, FABA, van den Tooren-de Groot, RK, Wieringa, JW, Janota, J, van der Meer-Kappelle, LH, Moonen, R, Sie, SD, de Vries, E, Donker, AE, Zimmerman, U, Schlapbach, LJ, de Mol, AC, Hoffmann-Haringsma, A, Roy, M, Tomaske, M, Kornelisse, RF, van Gijsel, J, Plötz, FB, Wellmann, S, Achten, NB, Lehnick, D, van Rossum, AMC & Vogt, JE 2022, 'Machine Learning Used to Compare the Diagnostic Accuracy of Risk Factors, Clinical Signs and Biomarkers and to Develop a New Prediction Model for Neonatal Early-onset Sepsis', Pediatric Infectious Disease Journal, vol. 41, no. 3, pp. 248-254. https://doi.org/10.1097/INF.0000000000003344

Machine Learning Used to Compare the Diagnostic Accuracy of Risk Factors, Clinical Signs and Biomarkers and to Develop a New Prediction Model for Neonatal Early-onset Sepsis. / Stocker, Martin; Daunhawer, Imant; van Herk, Wendy et al.
In: Pediatric Infectious Disease Journal, Vol. 41, No. 3, 01.03.2022, p. 248-254.

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

TY - JOUR

T1 - Machine Learning Used to Compare the Diagnostic Accuracy of Risk Factors, Clinical Signs and Biomarkers and to Develop a New Prediction Model for Neonatal Early-onset Sepsis

AU - Stocker, Martin

AU - Daunhawer, Imant

AU - van Herk, Wendy

AU - el Helou, Salhab

AU - Dutta, Sourabh

AU - Schuerman, Frank A. B. A.

AU - van den Tooren-de Groot, Rita K.

AU - Wieringa, Jantien W.

AU - Janota, Jan

AU - van der Meer-Kappelle, Laura H.

AU - Moonen, Rob

AU - Sie, Sintha D.

AU - de Vries, Esther

AU - Donker, Albertine E.

AU - Zimmerman, Urs

AU - Schlapbach, Luregn J.

AU - de Mol, Amerik C.

AU - Hoffmann-Haringsma, Angelique

AU - Roy, Madan

AU - Tomaske, Maren

AU - Kornelisse, René F.

AU - van Gijsel, Juliette

AU - Plötz, Frans B.

AU - Wellmann, Sven

AU - Achten, Niek B.

AU - Lehnick, Dirk

AU - van Rossum, Annemarie M. C.

AU - Vogt, Julia E.

N1 - Funding Information: This study was supported by The Thrasher Foundation (9143) to [M.S.]; The NutsOhra Foundation (1101-059) to [A.M.C.v.R.]; The Sophia Foundation for Scientific research (681) to [W.v.H.]; and the Swiss National Science Foundation (200021_188466) to [I.D.]. In addition, Thermofisher provided procalcitonin kits and provided an unrestricted grant for the organization of 4 investigator meetings (2008, 2009, 2013 and 2015). Publisher Copyright: © 2022 Lippincott Williams and Wilkins. All rights reserved.

PY - 2022/3/1

Y1 - 2022/3/1

N2 - Background: Current strategies for risk stratification and prediction of neonatal early-onset sepsis (EOS) are inefficient and lack diagnostic performance. The aim of this study was to use machine learning to analyze the diagnostic accuracy of risk factors (RFs), clinical signs and biomarkers and to develop a prediction model for culture-proven EOS. We hypothesized that the contribution to diagnostic accuracy of biomarkers is higher than of RFs or clinical signs. Study Design: Secondary analysis of the prospective international multicenter NeoPInS study. Neonates born after completed 34 weeks of gestation with antibiotic therapy due to suspected EOS within the first 72 hours of life participated. Primary outcome was defined as predictive performance for culture-proven EOS with variables known at the start of antibiotic therapy. Machine learning was used in form of a random forest classifier. Results: One thousand six hundred eighty-five neonates treated for suspected infection were analyzed. Biomarkers were superior to clinical signs and RFs for prediction of culture-proven EOS. C-reactive protein and white blood cells were most important for the prediction of the culture result. Our full model achieved an area-under-the-receiver-operating-characteristic-curve of 83.41% (±8.8%) and an area-under-the-precision-recall-curve of 28.42% (±11.5%). The predictive performance of the model with RFs alone was comparable with random. Conclusions: Biomarkers have to be considered in algorithms for the management of neonates suspected of EOS. A 2-step approach with a screening tool for all neonates in combination with our model in the preselected population with an increased risk for EOS may have the potential to reduce the start of unnecessary antibiotics.

AB - Background: Current strategies for risk stratification and prediction of neonatal early-onset sepsis (EOS) are inefficient and lack diagnostic performance. The aim of this study was to use machine learning to analyze the diagnostic accuracy of risk factors (RFs), clinical signs and biomarkers and to develop a prediction model for culture-proven EOS. We hypothesized that the contribution to diagnostic accuracy of biomarkers is higher than of RFs or clinical signs. Study Design: Secondary analysis of the prospective international multicenter NeoPInS study. Neonates born after completed 34 weeks of gestation with antibiotic therapy due to suspected EOS within the first 72 hours of life participated. Primary outcome was defined as predictive performance for culture-proven EOS with variables known at the start of antibiotic therapy. Machine learning was used in form of a random forest classifier. Results: One thousand six hundred eighty-five neonates treated for suspected infection were analyzed. Biomarkers were superior to clinical signs and RFs for prediction of culture-proven EOS. C-reactive protein and white blood cells were most important for the prediction of the culture result. Our full model achieved an area-under-the-receiver-operating-characteristic-curve of 83.41% (±8.8%) and an area-under-the-precision-recall-curve of 28.42% (±11.5%). The predictive performance of the model with RFs alone was comparable with random. Conclusions: Biomarkers have to be considered in algorithms for the management of neonates suspected of EOS. A 2-step approach with a screening tool for all neonates in combination with our model in the preselected population with an increased risk for EOS may have the potential to reduce the start of unnecessary antibiotics.

KW - antibiotic therapy

KW - biomarkers

KW - clinical signs

KW - early-onset sepsis

KW - risk factors

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Stocker M, Daunhawer I, van Herk W, el Helou S, Dutta S, Schuerman FABA et al. Machine Learning Used to Compare the Diagnostic Accuracy of Risk Factors, Clinical Signs and Biomarkers and to Develop a New Prediction Model for Neonatal Early-onset Sepsis. Pediatric Infectious Disease Journal. 2022 Mar 1;41(3):248-254. Epub 2021 Sept 9. doi: https://doi.org/10.1097/INF.0000000000003344

Machine Learning Used to Compare the Diagnostic Accuracy of Risk Factors, Clinical Signs and Biomarkers and to Develop a New Prediction Model for Neonatal Early-onset Sepsis

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