OBJECTIVE: To determine how vital signs such as heart and respiratory rates should be included in prediction models for serious bacterial infections (SBIs) in febrile children. STUDY DESIGN AND SETTING: Prospective observational study of 1,750 febrile children aged <16 years, visiting the emergency department of a university hospital; of them 13% (n = 222) had SBI. Common age-specific thresholds of heart and respiratory rates were used to define tachycardia and tachypnea. We compared seven strategies to handle vital signs as predictors of SBI (dichotomized or continuously in various ways). RESULTS: The dichotomous predictors, namely tachycardia and tachypnea, containing information on the vital sign and age showed limited value to predict the presence of SBI (area under the receiver operating characteristic curve [AUC (ROC)]: 0.53 for heart rate and 0.55 for respiratory rate). In comparison, a model with age as a single continuous predictor resulted in an AUC of 0.58. Models with age and one of the vital signs included continuously showed the highest AUC (heart rate: 0.60 and respiratory rate: 0.63). CONCLUSION: Heart and respiratory rates should be maintained as continuous variables in model development to predict SBI in febrile children, as dichotomization results in information loss and lower predictive ability.
OBJECTIVE: To determine how vital signs such as heart and respiratory rates should be included in prediction models for serious bacterial infections (SBIs) in febrile children. STUDY DESIGN AND SETTING: Prospective observational study of 1,750 febrile children aged <16 years, visiting the emergency department of a university hospital; of them 13% (n = 222) had SBI. Common age-specific thresholds of heart and respiratory rates were used to define tachycardia and tachypnea. We compared seven strategies to handle vital signs as predictors of SBI (dichotomized or continuously in various ways). RESULTS: The dichotomous predictors, namely tachycardia and tachypnea, containing information on the vital sign and age showed limited value to predict the presence of SBI (area under the receiver operating characteristic curve [AUC (ROC)]: 0.53 for heart rate and 0.55 for respiratory rate). In comparison, a model with age as a single continuous predictor resulted in an AUC of 0.58. Models with age and one of the vital signs included continuously showed the highest AUC (heart rate: 0.60 and respiratory rate: 0.63). CONCLUSION: Heart and respiratory rates should be maintained as continuous variables in model development to predict SBI in febrile children, as dichotomization results in information loss and lower predictive ability.
Authors: Gary S Collins; Emmanuel O Ogundimu; Jonathan A Cook; Yannick Le Manach; Douglas G Altman Journal: Stat Med Date: 2016-05-18 Impact factor: 2.373
Authors: Rex Pui Kin Lam; Kin Ling Chan; Arthur Chi Kin Cheung; Kin Wa Wong; Eric Ho Yin Lau; Lujie Chen; Vi Ka Chaang; Patrick Chiu Yat Woo Journal: Medicine (Baltimore) Date: 2021-11-05 Impact factor: 1.817
Authors: Nienke N Hagedoorn; Joany M Zachariasse; Dorine Borensztajn; Elise Adriaansens; Ulrich von Both; Enitan D Carrol; Irini Eleftheriou; Marieke Emonts; Michiel van der Flier; Ronald de Groot; Jethro Adam Herberg; Benno Kohlmaier; Emma Lim; Ian Maconochie; Federico Martinón-Torres; Ruud Gerard Nijman; Marko Pokorn; Irene Rivero-Calle; Maria Tsolia; Dace Zavadska; Werner Zenz; Michael Levin; Clementien Vermont; Henriette A Moll Journal: Arch Dis Child Date: 2021-06-22 Impact factor: 3.791