RESUMEN
BACKGROUND: Various intensivist staffing models have been suggested, but the long-term sustainability and outcomes vary and may not be sustained. We examined the impact of implementing a high-intensity intensivist coverage model with a nighttime in-house nocturnist (non-intensivist) and its effect on intensive care unit (ICU) outcomes. METHODS: We obtained historical control baseline data from 2007 to 2011 and compared the same data from 2011 to 2015. The Acute Physiological and Chronic Health Evaluation outcomes system was utilized to collect clinical, physiological, and outcome data on all adult patients in the medical ICU and to provide severity-adjusted outcome predictions. The model consists of a mandatory in-house daytime intensivist service that leads multidisciplinary rounds, and an in-house nighttime coverage is provided by nocturnist (nonintensivists) with current procedural skills in airways management, vascular access, and commitment to supervise house staff as needed. The intensivist continues to be available remotely at nighttime for house staff and consultation with the nocturnist. A backup intensivist is available for surge management. RESULTS: First year yielded improved throughput (2428 patients/year to 2627 then 2724 at fifth year). Case mix stable at 53.7 versus 55.2. The ICU length of stay decreased from 4.7 days (predicted 4.25 days) to 3.8 days (4.15) in first year; second year: 3.63 days (4.29 days); third year: 3.24 days (4.37), fourth year: 3.34 days (4.45), and fifth year: 3.61 days (4.42). Intensive care unit <24 hours readmission remained at 1%; >24 hours increased from 4% to 6%. Low-risk monitoring admissions remained at an average 17% (benchmark 17.18%). Intensive care unit mortality improved with standardized mortality ration averaging at 0.84. Resident satisfaction surveys improved. CONCLUSIONS: Implementing an intensivist service with nighttime nocturnist staffing in a high-intensity large teaching hospital is feasible and improved ICU outcomes in a sustained manner that persisted after the initial implementation phase. The model resulted in reduced and sustained observed-to-predicted length of ICU stay.
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Resultados de Cuidados Críticos , Cuidados Críticos/organización & administración , Unidades de Cuidados Intensivos/organización & administración , Cuerpo Médico de Hospitales/organización & administración , Cuidados Nocturnos/organización & administración , APACHE , Anciano , Enfermedad Crítica/mortalidad , Bases de Datos Factuales , Estudios de Factibilidad , Femenino , Mortalidad Hospitalaria , Humanos , Tiempo de Internación/estadística & datos numéricos , Masculino , Persona de Mediana Edad , Admisión y Programación de Personal , Estudios Prospectivos , Estudios RetrospectivosRESUMEN
PURPOSE: To determine the feasibility of conducting a multicenter ICU RCT of AFS compared to either protocol-directed sedation (PDS) or both PDS and daily sedation interruption (DSI) in North America. MATERIALS AND METHODS: This single-center RCT compared AFS [fentanyl (bolus ± infusions) to reach CPOT ≤2; if RASS ≥1, CPOT ≤2 and additional fentanyl failed to reach RASS goal (-2 to 0), low-dose propofol (up to 6â¯h) was given] with either PDS or both PDS and DSI daily in adults mechanically ventilated (MV) ≥48â¯h. Relevant feasibility, safety, and clinical outcomes were defined and evaluated. RESULTS: 90 of 160 eligible patients were enrolled [AFSâ¯=â¯27; PDSâ¯=â¯28; PDSâ¯+â¯DSIâ¯=â¯31]; rateâ¯=â¯3/month. Time from intubation to randomization was 17.5⯱â¯11.6â¯h. Study days fully adherent to the study intervention [AFSâ¯=â¯95%; PDSâ¯=â¯99%; PDSâ¯+â¯DSIâ¯=â¯96%] and time spent in the first 48â¯h after randomization without pain (CPOT ≤2)[AFSâ¯=â¯82%; PDSâ¯=â¯78%; PDSâ¯+â¯DSIâ¯=â¯77%] and at goal RASS[AFSâ¯=â¯88%; PDSâ¯=â¯83%; PDSâ¯+â¯DSIâ¯=â¯95%] were high and similar. Nurse-perceived [median (IQR)] study workload (10-point VAS) was higher with AFS [4(2-6)] than PDS [1(1-3)] or PDSâ¯+â¯DSI [2(1-5)]; pâ¯=â¯.002). Unplanned extubation was rare (AFSâ¯=â¯1; PDS =â¯0; PDSâ¯+â¯DSIâ¯=â¯1). Days [median (IQR)] free of MV in the 28d after intubation [AFS 24(23,26); PDS 24(20,26); PDSâ¯+â¯DSI 24(21,26)] was not different (pâ¯=â¯.62). CONCLUSION: A multicenter RCT evaluating AFS is feasible to conduct in North America.