Twenty-five patients (23.6%) specified DNR/DNI and another 39 (36.8%) denoted limitations on aggressiveness of care if death was imminent. Among the patients who died, 88 (53.7%) were hospitalized in the last month of their life and 50 (30.5%) died in the hospital. There was no difference in hospitalizations between those with an advance directive specifying limits and those who did not specify limits (OR 1.26, 95% CI 0.64-2.48). However, those with an advance directive specifying limits were less frequently mechanically ventilated (OR 0.26, 95% CI 0.06-0.88), and there was a trend toward them being less frequently admitted into the ICU (OR 0.45, 95% CI 0.16-1.29).
Bottom line: Less than half of community patients with heart failure had an advance directive, and many of these failed to address end-of-life decisions. Patients with an advance directive that specified limits in care were less likely to receive mechanical ventilation.
Citation: Dunlay SM, Swetz KM, Mueller PS, Roger VL. Advance directives in community patients with heart failure. Circ Cardiovasc Qual Outcomes. 2012;5:283-289.
Chlorhexidine Bathing Associated with Significant, Sustainable Reductions in Central-Venous-Catheter-Associated Bloodstream Infection
Clinical question: What is the impact, and sustainability, of chlorhexidine bathing on central-venous-catheter-associated bloodstream infections?
Background: Chlorhexidine bathing has been associated with reductions in healthcare-associated bloodstream infections, including vancomycin-resistant enterococci and methicillin-resistant Staphylococcus aureus. No prospective studies have evaluated the impact and sustainability of chlorhexidine bathing.
Study design: Prospective, three-phase study.
Setting: Medical-surgical ICUs and respiratory-care units at five New York hospitals.
Synopsis: In the pre-intervention phase (six to nine months, 1,808 admissions), patients were bathed with soap and water or nonmedicated bathing cloths. In the intervention phase (eight months, 1,832 admissions), patients were bathed with 2% chlorhexidine cloths. In the post-intervention phase (12 months, 2,834 admissions), chlorhexidine bathing was continued without oversight by researchers.
During the intervention phase, there were significantly fewer central-venous-catheter-associated bloodstream infections (2.6/1,000 catheter days vs. 6.4/1,000 pre-intervention). The reductions in bloodstream infections were sustained during the post-intervention period (2.9/1,000 catheter days). Compliance with chlorhexidine bathing was 82% and 88% during the intervention and post-intervention phases, and was well tolerated by the patients.
Limitations of this study include lack of patient-specific data and severity of illness data, as well as lack of randomization and blinding. Although not evaluated in this study, the savings associated with decreased bloodstream infections likely outweigh the cost of chlorhexidine bathing.
Bottom line: Chlorhexidine bathing is a well-tolerated, sustainable intervention that significantly reduces central-venous-catheter-associated bloodstream infections.
Citation: Montecalvo MA, McKenna D, Yarrish R, et al. Chlorhexidine bathing to reduce central venous catheter-associated bloodstream infection: impact and sustainability. Am J Med. 2012;125(5):505-511.
Simulation Training Improves Lumbar Puncture Skills
Clinical question: What effect does simulation have on lumbar puncture (LP) skills of PGY1 internal-medicine (IM) residents compared with PGY2-4 neurology residents who have not received simulation training?
Background: LPs are common procedures. The American College of General Medical Education does not define competency; neither do the internal-medicine (IM) or neurology board certifications. Simulation can improve skills in many areas but has not been well studied in LPs.
Study design: Pre-test-post-test.
Setting: Northwestern University’s Feinberg School of Medicine in Chicago.
Synopsis: The intervention group included 58 PGY1 IM residents, while the control group was 49 PGY2-to-PGY4 neurology residents. The pre-test consisted of a 21-point checklist. IM residents watched a three-hour video, performed LPs on simulators, and received feedback. The post-test was a clinical skills examination using the checklist. If this exam was failed, the participant practiced and was retested. Neurology residents completed the pre-test and demonstrated an LP using the simulator.