A Machine Learning Algorithm to Predict Severe Sepsis and Septic Shock: Development, Implementation, and Impact on Clinical Practice*

Giannini, H.M.; Ginestra, Jennifer C; Chivers, Corey; Draugelis, Michael; Hanish, Asaf; Schweickert, William D.; Fuchs, Barry D.; Meadows, Laurie; Lynch, Michael J.; Donnelly, Patrick J.; Pavan, Kimberly; Fishman, Neil O.; Hanson, C. William; Umscheid, Craig A

doi:10.1097/ccm.0000000000003891

Cited by 163 publications

(96 citation statements)

References 25 publications

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“…28 Beyond the simple heuristics of rules-based scoring systems such as MEWS, SOFA, qSOFA and SIRS, several machine learning approaches have been retrospectively evaluated for the detection and prediction of incipient sepsis. 37 38 57-66 They include dynamic Bayesian networks, 60 support vector machines, 57 survival-analytical models (TREWScore, Artificial Intelligence Sepsis Expert), 61 62 smoothed disease severity score learning, 63 hierarchical switching linear dynamical systems, 64 autoregressive hidden Markov models, 65 free-text models 38 and random-forest models. 57 These tools contribute notably to the field of sepsis detection because they offer generalisability, are scalable, and can be updated as new information is acquired.…”

Section: Discussionmentioning

confidence: 99%

“…37 38 57-66 They include dynamic Bayesian networks, 60 support vector machines, 57 survival-analytical models (TREWScore, Artificial Intelligence Sepsis Expert), 61 62 smoothed disease severity score learning, 63 hierarchical switching linear dynamical systems, 64 autoregressive hidden Markov models, 65 free-text models 38 and random-forest models. 57 These tools contribute notably to the field of sepsis detection because they offer generalisability, are scalable, and can be updated as new information is acquired. 58 However, many do not use information about measurement trends or correlations, 67 or do so ineffectively.…”

Section: Discussionmentioning

confidence: 99%

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Effect of a sepsis prediction algorithm on patient mortality, length of stay and readmission: a prospective multicentre clinical outcomes evaluation of real-world patient data from US hospitals

Burdick

Pino

Gabel-Comeau

et al. 2020

BMJ Health Care Inform

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BackgroundSevere sepsis and septic shock are among the leading causes of death in the USA. While early prediction of severe sepsis can reduce adverse patient outcomes, sepsis remains one of the most expensive conditions to diagnose and treat.ObjectiveThe purpose of this study was to evaluate the effect of a machine learning algorithm for severe sepsis prediction on in-hospital mortality, hospital length of stay and 30-day readmission.DesignProspective clinical outcomes evaluation.SettingEvaluation was performed on a multiyear, multicentre clinical data set of real-world data containing 75 147 patient encounters from nine hospitals across the continental USA, ranging from community hospitals to large academic medical centres.ParticipantsAnalyses were performed for 17 758 adult patients who met two or more systemic inflammatory response syndrome criteria at any point during their stay (‘sepsis-related’ patients).InterventionsMachine learning algorithm for severe sepsis prediction.Outcome measuresIn-hospital mortality, length of stay and 30-day readmission rates.ResultsHospitals saw an average 39.5% reduction of in-hospital mortality, a 32.3% reduction in hospital length of stay and a 22.7% reduction in 30-day readmission rate for sepsis-related patient stays when using the machine learning algorithm in clinical outcomes analysis.ConclusionsReductions of in-hospital mortality, hospital length of stay and 30-day readmissions were observed in real-world clinical use of the machine learning-based algorithm. The predictive algorithm may be successfully used to improve sepsis-related outcomes in live clinical settings.Trial registration numberNCT03960203

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Effect of a sepsis prediction algorithm on patient mortality, length of stay and readmission: a prospective multicentre clinical outcomes evaluation of real-world patient data from US hospitals

Burdick

Pino

Gabel-Comeau

et al. 2020

BMJ Health Care Inform

View full text Add to dashboard Cite

show abstract

“…Interventional studies using traditional SIRS and SOFA alarm systems have not shown significant changes in clinical outcomes [48][49][50]. Only three interventional studies have been identified in this review, which were carried out in different clinical settings and show mixed results [31,32,51]. None of the studies, however, investigated a direct clinical action associated with the sepsis prediction, but left treatment decisions at the discretion of the clinician.…”

Section: Clinical Model Performancementioning

confidence: 99%

“…One clinical validation study in the ED showed the machine learning model outperformed manual scoring by nurses and the SIRS criteria when identifying severe sepsis and septic shock [28], the other study made no comparison [29]. The interventional studies included two pre-post implementation studies (in-hospital) [30,31] and one ICU randomized controlled trial [32]. All looked at mortality and hospital length of stay, but results are mixed as shown in Table 1.…”

Section: Study Characteristicsmentioning

confidence: 99%

Machine learning for the prediction of sepsis: a systematic review and meta-analysis of diagnostic test accuracy

et al. 2020

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Purpose: Early clinical recognition of sepsis can be challenging. With the advancement of machine learning, promising real-time models to predict sepsis have emerged. We assessed their performance by carrying out a systematic review and meta-analysis. Methods: A systematic search was performed in PubMed, Embase.com and Scopus. Studies targeting sepsis, severe sepsis or septic shock in any hospital setting were eligible for inclusion. The index test was any supervised machine learning model for real-time prediction of these conditions. Quality of evidence was assessed using the Grading of Recommendations Assessment, Development and Evaluation (GRADE) methodology, with a tailored Quality Assessment of Diagnostic Accuracy Studies (QUADAS-2) checklist to evaluate risk of bias. Models with a reported area under the curve of the receiver operating characteristic (AUROC) metric were meta-analyzed to identify strongest contributors to model performance. Results: After screening, a total of 28 papers were eligible for synthesis, from which 130 models were extracted. The majority of papers were developed in the intensive care unit (ICU, n = 15; 54%), followed by hospital wards (n = 7; 25%), the emergency department (ED, n = 4; 14%) and all of these settings (n = 2; 7%). For the prediction of sepsis, diagnostic test accuracy assessed by the AUROC ranged from 0.68-0.99 in the ICU, to 0.96-0.98 in-hospital and 0.87 to 0.97 in the ED. Varying sepsis definitions limit pooling of the performance across studies. Only three papers clinically implemented models with mixed results. In the multivariate analysis, temperature, lab values, and model type contributed most to model performance. Conclusion: This systematic review and meta-analysis show that on retrospective data, individual machine learning models can accurately predict sepsis onset ahead of time. Although they present alternatives to traditional scoring systems, between-study heterogeneity limits the assessment of pooled results. Systematic reporting and clinical implementation studies are needed to bridge the gap between bytes and bedside.

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“…Previous studies explored the potential for ML-based approaches to enhance ICU patient outcomes with sepsis [9]; however, the effectiveness and utility of these algorithms on clinical practice and patient outcomes, particularly outside of ICU settings, are yet to be established [10]. It is important to consider how sepsis prediction changes with the data available in these different settings, how patients need to be monitored across settings, as well as the multitude of factors that can influence the performance of sepsis prediction in diverse populations.…”

Section: Introductionmentioning

confidence: 99%

Practical Machine Learning-Based Sepsis Prediction

Pettinati¹,

Chen²,

Rajput³

et al. 2020

2020 42nd Annual International Conference of the IEEE Engineering in Medicine &Amp; Biology Society (EMBC)

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Sepsis is a life-threatening clinical syndrome and one of the most expensive conditions treated in hospitals. It is challenging to detect due to the nonspecific clinical signs and the absence of gold standard diagnostics. However, early recognition of sepsis and optimal treatments for sepsis are of paramount importance to improve the condition's management and patient outcomes. This paper aims to delineate key aspects of current sepsis detection systems, including their dependency on clinical expert and laboratory biometric features requiring ongoing critical care intervention, the efficacy of vital sign measures, and the effect of the study population with respect to the precision of sepsis prediction. The AUROC performances of XGBoost models trained on a heterogenous ICU patient group (n=3932) showed significant degradations (p<0.05) as the expert and laboratory biomarker features are removed systematically and vital sign features taken in ICU settings are left. The performance of XGBoost models trained only with vital sign features on a more homogeneous group of ICU patients (n=1927) had a significantly (P<0.05) improved AUPRC to moderate level. The presented results highlight the importance of making a practical machine learning system for sepsis prediction by considering the availability of dominant features as well as personalizing sepsis prediction by configuring it to the specific demographics of a targeted population.

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A Machine Learning Algorithm to Predict Severe Sepsis and Septic Shock: Development, Implementation, and Impact on Clinical Practice*

Cited by 163 publications

References 25 publications

Effect of a sepsis prediction algorithm on patient mortality, length of stay and readmission: a prospective multicentre clinical outcomes evaluation of real-world patient data from US hospitals

Effect of a sepsis prediction algorithm on patient mortality, length of stay and readmission: a prospective multicentre clinical outcomes evaluation of real-world patient data from US hospitals

Machine learning for the prediction of sepsis: a systematic review and meta-analysis of diagnostic test accuracy

Practical Machine Learning-Based Sepsis Prediction

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