OBJECTIVE:To describe trends and risk factors for pressure injuries (PIs) in adult critical care patients proned to alleviate acute respiratory distress syndrome secondary to COVID-19 and examine the effectiveness of products and strategies used to mitigate PIs.
METHODS:The authors conducted a retrospective chart review between April 9 and June 8, 2020. Demographic data were analyzed using descriptive statistics. Differences between groups with and without PIs were analyzed.RESULTS: Among 147 patients, significant PI risk factors included male sex ( P = .019), high body mass index (>40 kg/m 2 ; P = .020), low Braden Scale score (<12; P = .018), and low-dose vasopressor therapy ( P = .020). Taping endotracheal tubes (ETTs) caused significantly fewer facial PIs than commercial ETT holders ( P < .0001). Maximum prone duration/session was a significant risk factor for anterior PIs ( P = . 016), which dropped 71% with newer pressure redistribution products. D-Dimer greater than 3,200 μg/mL ( P = .042) was a significant risk factor for sacrococcygeal PIs while supine. Mortality was 30%; significant risk factors included age older than 60 years (P = .005), Sequential Organ Failure Assessment score greater than 11 ( P = .003), and comorbid congestive heart failure ( P = .016).
CONCLUSIONS:Taping the ETT, limiting the maximum duration of prone positioning to less than 32 hours, and frequent repositioning while supine may reduce the number of modifiable risk factors for PIs. Standardized methods for testing products for PI prevention will inform individualized patient care.
The outcome of the outpatient falls guideline was characterized by an increase, a plateau, and a decrease in incident reports. The initial increase may be due to the Hawthorne effect. The plateau may represent the value closest to the true incidence. The decrease may represent the effect of the program.
The overall rate of safety reports in pediatric MRI is 0.52%. Interventions should focus on vulnerable populations, such as younger patients, those requiring sedation, and those in need of acute medical attention.
Objective:
As intensive care unit bed capacity doubled due to COVID-19 cases, nursing leaders created a prone team to support labor-intensive prone positioning of patients with COVID-related acute respiratory distress syndrome. The goal of the prone team was to reduce workload on intensive care teams, standardize the proning process, mitigate pressure injuries and turning-related adverse events, and ensure prone team safety.
Methods:
Staff were trained using a hybrid learning model focused on prone-positioning techniques, pressure injury prevention, and turning-related adverse events.
Results:
No adverse events occurred to patients or members of the prone ream. The prone team mitigated pressure injuries using prevention strategies. The prone team and intensive care unit staff were highly satisfied with their experience.
Conclusion:
The prone team provided support for critically ill patients, and team members reported feeling supported and empowered. Intensive care unit staff were highly satisfied with the prone team.
As medical errors and patient harm mount in today's healthcare arena, healthcare administrators have turned to high efficiency, high reliability, and high risk industries for strategies and guidance. By adopting elements of Crew Resource Management (CRM), healthcare teams have been shown to work more effectively together, allowing for earlier recognition of medical errors and catching them before they cause serious patient harm.
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