BACKGROUND: Prior studies have shown that implementation of the Leapfrog intensive care unit physician staffing standard of dedicated intensivists providing 24-hr intensive care unit coverage reduces length of stay and in-hospital mortality. A theoretical model of the cost-effectiveness of intensive care unit physician staffing patterns has also been published, but no study has examined the actual cost vs. cost savings of such a program. OBJECTIVE: To determine whether improved outcomes in specific quality measures would result in an overall cost savings in patient care DESIGN: Retrospective, 1 yr before-after cohort study SETTING: A 15-bed mixed medical-surgical community intensive care unit PATIENTS: A total of 2,181 patients: 1,113 patients preimplementation and 1,068 patients postimplementation. INTERVENTION: Leapfrog intensive care unit physician staffing standard MEASUREMENTS: Intensive care unit and hospital length of stay, rates for ventilator-associated pneumonia and central venous access device infection, and cost of care. RESULTS: Following institution of the intensive care unit physician staffing, the mean intensive care unit length of stay decreased significantly from 3.5±8.9 days to 2.7±4.7 days, (p<.002). The frequency of ventilator-associated pneumonia fell from 8.1% to 1.3% (p<.0002) after intervention. Ventilator-associated pneumonia rate per 100 ventilator days decreased from 1.03 to 0.38 (p<.0002). After intervention, the frequency of the central venous access device infection events fell from 9.4% to 1.1% (p<.0002). Central venous access device infection rate per 1000 line days decreased from 8.49 to 1.69. The net savings for the hospital were $744,001. The 1-yr institutional return on investment from intensive care unit physician staffing was 105%. CONCLUSIONS: Implementation of the Leapfrog intensive care unit physician staffing standard significantly reduced intensive care unit length of stay and lowered the prevalence of ventilator-associated pneumonia and central venous access device infection. A cost analysis yielded a 1-yr institutional return on investment of 105%. Our study confirms that implementation of the Leapfrog intensive care unit physician staffing model in the community hospital setting improves quality measures and is economically feasible.
BACKGROUND: Prior studies have shown that implementation of the Leapfrog intensive care unit physician staffing standard of dedicated intensivists providing 24-hr intensive care unit coverage reduces length of stay and in-hospital mortality. A theoretical model of the cost-effectiveness of intensive care unit physician staffing patterns has also been published, but no study has examined the actual cost vs. cost savings of such a program. OBJECTIVE: To determine whether improved outcomes in specific quality measures would result in an overall cost savings in patient care DESIGN: Retrospective, 1 yr before-after cohort study SETTING: A 15-bed mixed medical-surgical community intensive care unit PATIENTS: A total of 2,181 patients: 1,113 patients preimplementation and 1,068 patients postimplementation. INTERVENTION: Leapfrog intensive care unit physician staffing standard MEASUREMENTS: Intensive care unit and hospital length of stay, rates for ventilator-associated pneumonia and central venous access device infection, and cost of care. RESULTS: Following institution of the intensive care unit physician staffing, the mean intensive care unit length of stay decreased significantly from 3.5±8.9 days to 2.7±4.7 days, (p<.002). The frequency of ventilator-associated pneumonia fell from 8.1% to 1.3% (p<.0002) after intervention. Ventilator-associated pneumonia rate per 100 ventilator days decreased from 1.03 to 0.38 (p<.0002). After intervention, the frequency of the central venous access device infection events fell from 9.4% to 1.1% (p<.0002). Central venous access device infection rate per 1000 line days decreased from 8.49 to 1.69. The net savings for the hospital were $744,001. The 1-yr institutional return on investment from intensive care unit physician staffing was 105%. CONCLUSIONS: Implementation of the Leapfrog intensive care unit physician staffing standard significantly reduced intensive care unit length of stay and lowered the prevalence of ventilator-associated pneumonia and central venous access device infection. A cost analysis yielded a 1-yr institutional return on investment of 105%. Our study confirms that implementation of the Leapfrog intensive care unit physician staffing model in the community hospital setting improves quality measures and is economically feasible.
Authors: Ashley M Tameron; Kevin B Ricci; Wendelyn M Oslock; Amy P Rushing; Angela M Ingraham; Vijaya T Daniel; Anghela Z Paredes; Adrian Diaz; Courtney E Collins; Victor K Heh; Holly E Baselice; Scott A Strassels; Heena P Santry Journal: J Crit Care Date: 2020-07-05 Impact factor: 3.425
Authors: Walter A Boyle; David J Murray; Mary Beth Beyatte; Justin G Knittel; Paul W Kerby; Julie Woodhouse; John R Boulet Journal: Crit Care Med Date: 2018-06 Impact factor: 7.598
Authors: Thomas S Metkus; John Lindsley; Linda Fair; Sarah Riley; Stephen Berry; Sarina Sahetya; Steven Hsu; Nisha A Gilotra Journal: J Card Fail Date: 2021-10 Impact factor: 6.592
Authors: Ryan G O'Malley; Benjamin Olenchock; Erin Bohula-May; Christopher Barnett; Dan J Fintel; Christopher B Granger; Jason N Katz; Michael C Kontos; Jeffrey T Kuvin; Sabina A Murphy; Joseph E Parrillo; David A Morrow Journal: Eur Heart J Acute Cardiovasc Care Date: 2013-03