OBJECTIVE: To devise a simple clinical scoring system, using age of patients and laboratory data available on admission, to predict in-hospital mortality of unselected medical and surgical patients. METHODS: All patients admitted as emergencies to a large teaching hospital in Liverpool in the 5 months July-November 2004 were reviewed retrospectively, identifying all who died in hospital and controls who survived. Laboratory data available on admission were extracted to form a derivation dataset. Factors that predicted mortality were determined using logistic regression analysis and then used to construct models tested using receiver operating characteristic curves. Models were simplified to include only seven data items, with minimal loss of predictive efficiency. The simplified model was tested in a second validation dataset of all patients admitted to the same hospital in October and November 2004. RESULTS: The derivation dataset included 550 patients who died and 1100 controls. After logistic regression comparisons, 22 dummy variables were given weightings in discriminant analysis and used to create a receiver operating characteristic curve with area under the curve (AUC) of 0.884. The model was simplified to include the seven most discriminant variables, which can each be assigned scores of 2, 3 or 4 to form an index predicting outcome; a validation dataset contained 4828 patients (overall mortality 4.7%), showed this simplified scoring system accurately predicted mortality with AUC 0.848, compared with an AUC of 0.861 in a model containing all 23 original variables. CONCLUSION: A simple scoring system accurately predicts in-hospital mortality of unselected hospital patients, using age of patient and a small number of laboratory parameters available very soon after admission.
OBJECTIVE: To devise a simple clinical scoring system, using age of patients and laboratory data available on admission, to predict in-hospital mortality of unselected medical and surgical patients. METHODS: All patients admitted as emergencies to a large teaching hospital in Liverpool in the 5 months July-November 2004 were reviewed retrospectively, identifying all who died in hospital and controls who survived. Laboratory data available on admission were extracted to form a derivation dataset. Factors that predicted mortality were determined using logistic regression analysis and then used to construct models tested using receiver operating characteristic curves. Models were simplified to include only seven data items, with minimal loss of predictive efficiency. The simplified model was tested in a second validation dataset of all patients admitted to the same hospital in October and November 2004. RESULTS: The derivation dataset included 550 patients who died and 1100 controls. After logistic regression comparisons, 22 dummy variables were given weightings in discriminant analysis and used to create a receiver operating characteristic curve with area under the curve (AUC) of 0.884. The model was simplified to include the seven most discriminant variables, which can each be assigned scores of 2, 3 or 4 to form an index predicting outcome; a validation dataset contained 4828 patients (overall mortality 4.7%), showed this simplified scoring system accurately predicted mortality with AUC 0.848, compared with an AUC of 0.861 in a model containing all 23 original variables. CONCLUSION: A simple scoring system accurately predicts in-hospital mortality of unselected hospital patients, using age of patient and a small number of laboratory parameters available very soon after admission.
Authors: Muhammad Faisal; Andrew J Scally; Natalie Jackson; Donald Richardson; Kevin Beatson; Robin Howes; Kevin Speed; Madhav Menon; Jeremey Daws; Judith Dyson; Claire Marsh; Mohammed A Mohammed Journal: BMJ Open Date: 2018-12-06 Impact factor: 2.692
Authors: Mohammed A Mohammed; Gavin Rudge; Duncan Watson; Gordon Wood; Gary B Smith; David R Prytherch; Alan Girling; Andrew Stevens Journal: PLoS One Date: 2013-05-29 Impact factor: 3.240
Authors: Mohammed A Mohammed; Gavin Rudge; Gordon Wood; Gary Smith; Vishal Nangalia; David Prytherch; Roger Holder; Jim Briggs Journal: PLoS One Date: 2012-10-15 Impact factor: 3.240
Authors: Oliver C Redfern; Marco A F Pimentel; David Prytherch; Paul Meredith; David A Clifton; Lionel Tarassenko; Gary B Smith; Peter J Watkinson Journal: Resuscitation Date: 2018-09-22 Impact factor: 5.262