Dynamic data during hypotensive episode improves mortality predictions among patients with sepsis and hypotension. Mayaud, L., Lai, P., S., Clifford, G., D., Tarassenko, L., Celi, L., A., & Annane, D. Critical Care Medicine, 41(4):954-62, NIH Public Access, 4, 2013.
Dynamic data during hypotensive episode improves mortality predictions among patients with sepsis and hypotension. [link]Website  abstract   bibtex   
OBJECTIVES: To determine if a prediction rule for hospital mortality using dynamic variables in response to treatment of hypotension in patients with sepsis performs better than current models.\n\nDESIGN: Retrospective cohort study.\n\nSETTING: All ICUs at a tertiary care hospital.\n\nPATIENTS: Adult patients admitted to ICUs between 2001 and 2007 of whom 2,113 met inclusion criteria and had sufficient data.\n\nINTERVENTIONS: None.\n\nMEASUREMENTS AND MAIN RESULTS: We developed a prediction algorithm for hospital mortality in patients with sepsis and hypotension requiring medical intervention using data from the Multiparameter Intelligent Monitoring in Intensive Care II. We extracted 189 candidate variables, including treatments, physiologic variables and laboratory values collected before, during, and after a hypotensive episode. Thirty predictors were identified using a genetic algorithm on a training set (n=1500) and validated with a logistic regression model on an independent validation set (n=613). The final prediction algorithm used included dynamic information and had good discrimination (area under the receiver operating curve=82.0%) and calibration (Hosmer-Lemeshow C statistic=10.43, p=0.06). This model was compared with Acute Physiology and Chronic Health Evaluation IV using reclassification indices and was found to be superior with an Net Reclassification Improvement of 0.19 (p<0.001) and an Integrated Discrimination Improvement of 0.09 (p<0.001).\n\nCONCLUSIONS: Hospital mortality predictions based on dynamic variables surrounding a hypotensive event is a new approach to predicting prognosis. A model using these variables has good discrimination and calibration and offers additional predictive prognostic information beyond established ones.
@article{
 title = {Dynamic data during hypotensive episode improves mortality predictions among patients with sepsis and hypotension.},
 type = {article},
 year = {2013},
 identifiers = {[object Object]},
 keywords = {80 and over,Adult,Aged,Algorithms,Cohort Studies,Comorbidity,Critical Illness,Critical Illness: mortality,Female,Great Britain,Hospital Mortality,Hospital Mortality: trends,Humans,Hypotension,Hypotension: mortality,Intensive Care Units,Male,Middle Aged,Outcome Assessment (Health Care),Predictive Value of Tests,Prognosis,Retrospective Studies,Sepsis,Sepsis: mortality},
 pages = {954-62},
 volume = {41},
 websites = {http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=3609896&tool=pmcentrez&rendertype=abstract},
 month = {4},
 publisher = {NIH Public Access},
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 abstract = {OBJECTIVES: To determine if a prediction rule for hospital mortality using dynamic variables in response to treatment of hypotension in patients with sepsis performs better than current models.\n\nDESIGN: Retrospective cohort study.\n\nSETTING: All ICUs at a tertiary care hospital.\n\nPATIENTS: Adult patients admitted to ICUs between 2001 and 2007 of whom 2,113 met inclusion criteria and had sufficient data.\n\nINTERVENTIONS: None.\n\nMEASUREMENTS AND MAIN RESULTS: We developed a prediction algorithm for hospital mortality in patients with sepsis and hypotension requiring medical intervention using data from the Multiparameter Intelligent Monitoring in Intensive Care II. We extracted 189 candidate variables, including treatments, physiologic variables and laboratory values collected before, during, and after a hypotensive episode. Thirty predictors were identified using a genetic algorithm on a training set (n=1500) and validated with a logistic regression model on an independent validation set (n=613). The final prediction algorithm used included dynamic information and had good discrimination (area under the receiver operating curve=82.0%) and calibration (Hosmer-Lemeshow C statistic=10.43, p=0.06). This model was compared with Acute Physiology and Chronic Health Evaluation IV using reclassification indices and was found to be superior with an Net Reclassification Improvement of 0.19 (p<0.001) and an Integrated Discrimination Improvement of 0.09 (p<0.001).\n\nCONCLUSIONS: Hospital mortality predictions based on dynamic variables surrounding a hypotensive event is a new approach to predicting prognosis. A model using these variables has good discrimination and calibration and offers additional predictive prognostic information beyond established ones.},
 bibtype = {article},
 author = {Mayaud, Louis and Lai, Peggy S and Clifford, Gari D and Tarassenko, Lionel and Celi, Leo Anthony and Annane, Djillali},
 journal = {Critical Care Medicine},
 number = {4}
}

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