Gabriel J Escobar1, Vincent X Liu1, Alejandro Schuler1, Brian Lawson1, John D Greene1, Patricia Kipnis1. 1. From the Systems Research Initiative, Kaiser Permanente Division of Research, Oakland (G.J.E., V.X.L., A.S., B.L., J.D.G., P.K.), the Intensive Care Unit, Kaiser Permanente Medical Center, Santa Clara (V.X.L.), and Unlearn.AI, San Francisco (A.S.) - all in California.
Abstract
BACKGROUND: Hospitalized adults whose condition deteriorates while they are in wards (outside the intensive care unit [ICU]) have considerable morbidity and mortality. Early identification of patients at risk for clinical deterioration has relied on manually calculated scores. Outcomes after an automated detection of impending clinical deterioration have not been widely reported. METHODS: On the basis of a validated model that uses information from electronic medical records to identify hospitalized patients at high risk for clinical deterioration (which permits automated, real-time risk-score calculation), we developed an intervention program involving remote monitoring by nurses who reviewed records of patients who had been identified as being at high risk; results of this monitoring were then communicated to rapid-response teams at hospitals. We compared outcomes (including the primary outcome, mortality within 30 days after an alert) among hospitalized patients (excluding those in the ICU) whose condition reached the alert threshold at hospitals where the system was operational (intervention sites, where alerts led to a clinical response) with outcomes among patients at hospitals where the system had not yet been deployed (comparison sites, where a patient's condition would have triggered a clinical response after an alert had the system been operational). Multivariate analyses adjusted for demographic characteristics, severity of illness, and burden of coexisting conditions. RESULTS: The program was deployed in a staggered fashion at 19 hospitals between August 1, 2016, and February 28, 2019. We identified 548,838 non-ICU hospitalizations involving 326,816 patients. A total of 43,949 hospitalizations (involving 35,669 patients) involved a patient whose condition reached the alert threshold; 15,487 hospitalizations were included in the intervention cohort, and 28,462 hospitalizations in the comparison cohort. Mortality within 30 days after an alert was lower in the intervention cohort than in the comparison cohort (adjusted relative risk, 0.84, 95% confidence interval, 0.78 to 0.90; P<0.001). CONCLUSIONS: The use of an automated predictive model to identify high-risk patients for whom interventions by rapid-response teams could be implemented was associated with decreased mortality. (Funded by the Gordon and Betty Moore Foundation and others.).
BACKGROUND: Hospitalized adults whose condition deteriorates while they are in wards (outside the intensive care unit [ICU]) have considerable morbidity and mortality. Early identification of patients at risk for clinical deterioration has relied on manually calculated scores. Outcomes after an automated detection of impending clinical deterioration have not been widely reported. METHODS: On the basis of a validated model that uses information from electronic medical records to identify hospitalized patients at high risk for clinical deterioration (which permits automated, real-time risk-score calculation), we developed an intervention program involving remote monitoring by nurses who reviewed records of patients who had been identified as being at high risk; results of this monitoring were then communicated to rapid-response teams at hospitals. We compared outcomes (including the primary outcome, mortality within 30 days after an alert) among hospitalized patients (excluding those in the ICU) whose condition reached the alert threshold at hospitals where the system was operational (intervention sites, where alerts led to a clinical response) with outcomes among patients at hospitals where the system had not yet been deployed (comparison sites, where a patient's condition would have triggered a clinical response after an alert had the system been operational). Multivariate analyses adjusted for demographic characteristics, severity of illness, and burden of coexisting conditions. RESULTS: The program was deployed in a staggered fashion at 19 hospitals between August 1, 2016, and February 28, 2019. We identified 548,838 non-ICU hospitalizations involving 326,816 patients. A total of 43,949 hospitalizations (involving 35,669 patients) involved a patient whose condition reached the alert threshold; 15,487 hospitalizations were included in the intervention cohort, and 28,462 hospitalizations in the comparison cohort. Mortality within 30 days after an alert was lower in the intervention cohort than in the comparison cohort (adjusted relative risk, 0.84, 95% confidence interval, 0.78 to 0.90; P<0.001). CONCLUSIONS: The use of an automated predictive model to identify high-risk patients for whom interventions by rapid-response teams could be implemented was associated with decreased mortality. (Funded by the Gordon and Betty Moore Foundation and others.).
Authors: M Kit Delgado; Vincent Liu; Jesse M Pines; Patricia Kipnis; Marla N Gardner; Gabriel J Escobar Journal: J Hosp Med Date: 2012-09-28 Impact factor: 2.960
Authors: B Alex Dummett; Carmen Adams; Elizabeth Scruth; Vincent Liu; Margaret Guo; Gabriel J Escobar Journal: J Hosp Med Date: 2016-11 Impact factor: 2.960
Authors: Gabriel J Escobar; Benjamin J Turk; Arona Ragins; Jason Ha; Brian Hoberman; Steven M LeVine; Manuel A Ballesca; Vincent Liu; Patricia Kipnis Journal: J Hosp Med Date: 2016-11 Impact factor: 2.960
Authors: Matthew M Churpek; Trevor C Yuen; Christopher Winslow; Ari A Robicsek; David O Meltzer; Robert D Gibbons; Dana P Edelson Journal: Am J Respir Crit Care Med Date: 2014-09-15 Impact factor: 21.405
Authors: Roy Adams; Katharine E Henry; Anirudh Sridharan; Hossein Soleimani; Andong Zhan; Nishi Rawat; Lauren Johnson; David N Hager; Sara E Cosgrove; Andrew Markowski; Eili Y Klein; Edward S Chen; Mustapha O Saheed; Maureen Henley; Sheila Miranda; Katrina Houston; Robert C Linton; Anushree R Ahluwalia; Albert W Wu; Suchi Saria Journal: Nat Med Date: 2022-07-21 Impact factor: 87.241
Authors: Katharine E Henry; Roy Adams; Cassandra Parent; Hossein Soleimani; Anirudh Sridharan; Lauren Johnson; David N Hager; Sara E Cosgrove; Andrew Markowski; Eili Y Klein; Edward S Chen; Mustapha O Saheed; Maureen Henley; Sheila Miranda; Katrina Houston; Robert C Linton; Anushree R Ahluwalia; Albert W Wu; Suchi Saria Journal: Nat Med Date: 2022-07-21 Impact factor: 87.241
Authors: Kenneth P Seastedt; Dana Moukheiber; Saurabh A Mahindre; Chaitanya Thammineni; Darin T Rosen; Ammara A Watkins; Daniel A Hashimoto; Chuong D Hoang; Jacques Kpodonu; Leo A Celi Journal: Eur J Cardiothorac Surg Date: 2022-01-24 Impact factor: 4.191
Authors: Laura M Holdsworth; Samantha M R Kling; Margaret Smith; Nadia Safaeinili; Lisa Shieh; Stacie Vilendrer; Donn W Garvert; Marcy Winget; Steven M Asch; Ron C Li Journal: JMIR Res Protoc Date: 2021-07-07