A low-cost educational intervention to reduce unplanned extubation in low-resourced pediatric intensive care units.

INTRODUCTION: Unplanned extubation (UE) is orders of magnitude worse in low-income Pediatric Intensive Care Units (PICUs) than their high-income counterparts. Furthermore, a significant percent (20 %) of UEs result in a destabilizing event or cardiac collapse that negatively contributes to morbidity and mortality. As the principles of safe airway management are universal, we hypothesize that a multi-disciplinary educational intervention bundle which included provision of low-cost cuffed endotracheal tubes (ETT) and ETT tape will decrease the rate of unplanned extubation (UE) in a low-resourced PICU. METHODS: This is a pre-post interventional study powered to evaluate UE of intubated pediatric patients in an El Salvadorian PICU after a multi-disciplinary educational effort and provision of low-cost disposable materials. A multidisciplinary (otolaryngologists, intensivists, anesthesiologists, respiratory therapists, and nurses) educational curriculum involving hands on training, online video modules readily available via bedside QR codes, and pre- and post-testing was administered. The cost of the intervention materials was $1.32 per child. PICU mortality was evaluated as an exploratory outcome. RESULTS: Nine-hundred and fifty-seven (859 pre-intervention and 98 post-intervention) patients met inclusion criteria. Patients with one or more UEs decreased significantly from 29.4 % to 17.3 % post-intervention (p = 0.01; CI: 0.28-0.88) with an odds ratio of 0.51. The use of a cuffed ETT increased from 12 % to 36 % (p < 0.001; CI: 0.17-0.44; OR:3.74) and cuffed ETT use was associated with a reduction in UE with an odds ratio of 0.40 (p < 0.001; CI: 0.24-0.66). Finally, there was a 4.3 % decrease in pediatric mortality from 26.7 % to 22.4 % that equates to a number needed to treat to prevent a single child mortality of 23. Therefore, the ICER per mortality prevented is $30.7 and the ICER per Disability Adjusted Life Year (DALY) is $0.44. CONCLUSION: This multi-faceted intervention bundle is an accessible, scalable, cost-effective means to reduce UE and has implications in reducing global pediatric mortality.

Effect of Transition From a Unit-Based Team to External Transport Team for a Pediatric Critical Care Unit.

OBJECTIVE: Pediatric hospitals must consider staff, training, and direct costs required to maintain a pediatric specialized transport team, balanced with indirect potential benefits of marketing and referral volume. The effect of transitioning a unit-based transport team to an external service on the pediatric intensive care unit (PICU) is unknown, but information is needed as hospital systems focus on population management. We examined the impact on PICU transports after transition to an external transport vendor. METHODS: Single-center retrospective review performed of PICU admissions, referrals, and transfers during baseline, post-, and maintenance period with a total of 9-year follow-up. Transfer volume was analyzed during pre-, post-, and maintenance phase with descriptive statistics and statistical process control charts from 1999 to 2012. RESULTS: Total PICU admissions increased with an annual growth rate of 3.7%, with mean annual 626 admissions prior to implementation to the mean of 890 admissions at the end of period, P < .001. The proportion of transport to total admissions decreased from 27% to 21%, but mean annual transports were unchanged, 175 to 183, P = .6, and mean referrals were similar, 186 to 203, P = .8. Seasonal changes in transport volume remained as a predominant source of variability. Annual transport refusals increased initially in the postimplementation phase, mean 11 versus 33, P < .03, but similar to baseline in the maintenance phase, mean 20/year, P = .07. Patient refusals were due to bed and staffing constraints, with 7% due to the lack of transport vendor availability. CONCLUSION: In a transition to a regional transport service, PICU transport volume was maintained in the long-term follow-up and total PICU admissions increased. Further research on the direct and indirect impact of transport regionalization is needed to determine the optimal cost-benefit and quality of care as health-care systems focus on population management.

Interdisciplinary development and implementation of communication checklist for postoperative management of pediatric airway patients.

OBJECTIVE: The authors describe their multidisciplinary experience in applying the Institute of Health Improvement methodology to develop a protocol and checklist to reduce communication error during transfer of care for postoperative pediatric surgical airway patients. Preliminary outcome data following implementation of the protocol and checklist are also presented. STUDY DESIGN: Prospective study from July 1, 2009, to February 1, 2011. SETTING: Tertiary care center. Subjects. One hundred twenty-six pediatric airway patients who required coordinated care between Massachusetts Eye and Ear Infirmary and Massachusetts General Hospital. METHODS: Two sentinel events involving airway emergencies demonstrated a critical need for a standardized, comprehensive instrument that would ensure safe transfer of care. After development and implementation of the protocol and checklist, an initial pilot period on the first set of 9 pediatric airway patients was reassessed. Subsequent prospective 11-month follow-up data of 93 pediatric airway patients were collected and analyzed. RESULTS: A multidisciplinary pediatric team developed and implemented a formalized, postoperative checklist and transfer protocol. After implementation of the checklist and transfer protocol, prospective analysis showed no adverse events from miscommunication during transfer of care over the subsequent 11-month period involving 93 pediatric airway patients. CONCLUSION: There has been very little written in the quality and safety patient literature about coordinating effective transfer of care between the pediatric surgical and medical subspecialty realms. After design and implementation of a simple, electronically based transfer-of-care checklist and protocol, the number of postsurgical pediatric airway information transfer and communication errors decreased significantly.