Increasing the Use of Enteral Antibiotics in Hospitalized Children With Uncomplicated Infections

BACKGROUND

Route of administration is an important component of antimicrobial stewardship. Early transition from intravenous to enteral antibiotics in hospitalized children is associated with fewer catheter-related adverse events, as well as decreased costs and length of stay. Our aim was to increase the percentage of enteral antibiotic doses for hospital medicine patients with uncomplicated common bacterial infections (community-acquired pneumonia, skin and soft tissue infection, urinary tract infection, neck infection) from 50% to 80% in 6 months.

METHODS

We formed a multidisciplinary team to evaluate key drivers and design plan-do-study-act cycles. Interventions included provider education, structured discussion at existing team huddles, and pocket-sized printed information. Our primary measure was the percentage of antibiotic doses given enterally to patients receiving other enteral medications. Secondary measures included antibiotic cost, number of peripheral intravenous catheters, length of stay, and 7-day readmission. We used statistical process control charts to track our measures.

RESULTS

Over a 6-month baseline period and 12 months of improvement work, we observed 3183 antibiotic doses (888 in the baseline period, 2295 doses during improvement work). We observed an increase in the percentage of antibiotic doses given enterally per week for eligible patients from 50% to 67%. We observed decreased antibiotic costs and fewer peripheral intravenous catheters per encounter after the interventions. There was no change in length of stay or readmissions.

CONCLUSIONS

We observed increased enteral antibiotic doses for children hospitalized with common bacterial infections. Interventions targeting culture change and communication were associated with sustained improvement.

Getting Started With Multi-site Research: Lessons From the Eliminating Monitor Overuse (EMO) Study

Research in Pediatric Hospital Medicine is growing and expanding rapidly, and with this comes the need to expand single-site research projects into multisite research studies within practice-based research networks. This expansion is crucial to ensure generalizable findings in diverse populations; however, expanding Pediatric Hospital Medicine research projects from single to multisite can be daunting. We provide an overview of major logistical steps and challenges in project management, regulatory approvals, data use agreements, training, communication, and financial management that are germane to hospitalist researchers launching their first multisite project by sharing processes and lessons learned from running multisite research projects in the Pediatric Research in Inpatient Settings Network within the Eliminating Monitor Overuse study portfolio. This description is relevant to hospitalist researchers transitioning from single-site to multisite research or those considering serving as site lead for a multisite project.

Eliminating Monitor Overuse (EMO) type III effectiveness-deimplementation cluster-randomized trial: Statistical analysis plan

Background

Deimplementing overused health interventions is essential to maximizing quality and value while minimizing harm, waste, and inefficiencies. Three national guidelines discourage continuous pulse oximetry (SpO2) monitoring in children who are not receiving supplemental oxygen, but the guideline-discordant practice remains prevalent, making it a prime target for deimplementation. This paper details the statistical analysis plan for the Eliminating Monitor Overuse (EMO) SpO2 trial, which compares the effect of two competing deimplementation strategies (unlearning only vs. unlearning plus substitution) on the sustainment of deimplementation of SpO2 monitoring in children with bronchiolitis who are in room air.

Methods

The EMO Trial is a hybrid type 3 effectiveness-deimplementation trial with a longitudinal cluster-randomized design, conducted in Pediatric Research in Inpatient Settings Network hospitals. The primary outcome is deimplementation sustainment, analyzed as a longitudinal difference-in-differences comparison between study arms. This analysis will use generalized hierarchical mixed-effects models for longitudinal clustering outcomes. Secondary outcomes include the length of hospital stay and oxygen supplementation duration, modeled using linear mixed-effects regressions. Using the well-established counterfactual approach, we will also perform a mediation analysis of hospital-level mechanistic measures on the association between the deimplementation strategy and the sustainment outcome.

Discussion

We anticipate that the EMO Trial will advance the science of deimplementation by providing new insights into the processes, mechanisms, and likelihood of sustained practice change using rigorously designed deimplementation strategies. This pre-specified statistical analysis plan will mitigate reporting bias and support data-driven approaches.

Trial registration

ClinicalTrials.gov NCT05132322. Registered on 24 November 2021.

Epidemiology and Severity of Illness of MIS-C and Kawasaki Disease During the COVID-19 Pandemic

BACKGROUND AND OBJECTIVES

Multisystem inflammatory syndrome in children (MIS-C) is a novel, severe condition following severe acute respiratory syndrome coronavirus 2 infection. Large epidemiologic studies comparing MIS-C to Kawasaki disease (KD) and evaluating the evolving epidemiology of MIS-C over time are lacking. We sought to understand the illness severity of MIS-C compared with KD and evaluate changes in MIS-C illness severity over time during the coronavirus disease 2019 pandemic compared with KD.

METHODS

We included hospitalizations of children with MIS-C and KD from April 2020 to May 2022 from the Pediatric Health Information System administrative database. Our primary outcome measure was the presence of shock, defined as the use of vasoactive/inotropic cardiac support or extracorporeal membrane oxygenation. We examined the volume of MIS-C and KD hospitalizations and the proportion of hospitalizations with shock over time using 2-week intervals. We compared the proportion of hospitalizations with shock in MIS-C and KD patients over time using generalized estimating equations adjusting for hospital clustering and age, with time as a fixed effect.

RESULTS

We identified 4868 hospitalizations for MIS-C and 2387 hospitalizations for KD. There was a higher proportion of hospitalizations with shock in MIS-C compared with KD (38.7% vs 5.1%). In our models with time as a fixed effect, we observed a significant decrease in the odds of shock over time in MIS-C patients (odds ratio 0.98, P < .001) but not in KD patients (odds ratio 1.00, P = .062).

CONCLUSIONS

We provide further evidence that MIS-C is a distinct condition from KD. MIS-C was a source of lower morbidity as the pandemic progressed.

Sustainment of continuous pulse oximetry deimplementation: Analysis of Eliminating Monitor Overuse study data from six hospitals

Using continuous pulse oximetry (cSpO2 ) to monitor children with bronchiolitis who are not receiving supplemental oxygen is a form of medical overuse. In this longitudinal analysis from the Eliminating Monitor Overuse (EMO) study, we aimed to assess changes in cSpO2 overuse before, during, and after intensive cSpO2 -deimplementation efforts in six hospitals. Monitoring data were collected during three phases: "P1" baseline, "P2" active deimplementation (all sites engaged in education and audit and feedback strategies), and "P3" sustainment (a new baseline measured after strategies were withdrawn). Two thousand and fifty-three observations were analyzed. We found that each hospital experienced reductions during active deimplementation (P2), with overall adjusted cSpO2 overuse decreasing from 53%, 95% confidence interval (CI): (49-57) to 22%, 95% CI: (19-25) between P1 and P2. However, following the withdrawal of deimplementation strategies, overuse rebounded in all six sites, with overall adjusted cSpO2 overuse increasing to 37%, 95% CI: (33-41) in P3.

Identifying and Validating Pediatric Hospitalizations for MIS-C Through Administrative Data

BACKGROUND

Individual children's hospitals care for a small number of patients with multisystem inflammatory syndrome in children (MIS-C). Administrative databases offer an opportunity to conduct generalizable research; however, identifying patients with MIS-C is challenging.

METHODS

We developed and validated algorithms to identify MIS-C hospitalizations in administrative databases. We developed 10 approaches using diagnostic codes and medication billing data and applied them to the Pediatric Health Information System from January 2020 to August 2021. We reviewed medical records at 7 geographically diverse hospitals to compare potential cases of MIS-C identified by algorithms to each participating hospital's list of patients with MIS-C (used for public health reporting).

RESULTS

The sites had 245 hospitalizations for MIS-C in 2020 and 358 additional MIS-C hospitalizations through August 2021. One algorithm for the identification of cases in 2020 had a sensitivity of 82%, a low false positive rate of 22%, and a positive predictive value (PPV) of 78%. For hospitalizations in 2021, the sensitivity of the MIS-C diagnosis code was 98% with 84% PPV.

CONCLUSION

We developed high-sensitivity algorithms to use for epidemiologic research and high-PPV algorithms for comparative effectiveness research. Accurate algorithms to identify MIS-C hospitalizations can facilitate important research for understanding this novel entity as it evolves during new waves.

Impact of the COVID-19 pandemic on hospitalizations of children with neurologic impairment

INTRODUCTION

Children with neurologic impairment (NI) are frequently hospitalized for infectious and noninfectious illnesses. The early period of the COVID-19 pandemic was associated with overall lower pediatric hospitalization rates, particularly for respiratory infections, but the effect on utilization for children with NI is unknown.

METHOD

This multicenter retrospective cohort study included hospitalizations of children 1-18 years of age with NI diagnosis codes from 49 children's hospitals. We calculated the percent change in the median weekly hospitalization volumes and the hospitalization resource intensity score (H-RISK), comparing the early-COVID era (March 15, 2020 to December 31, 2020) with the pre-COVID era (same timeframe of 2017-2019). Percent change was calculated over the entire study period as well as within three seasonal time periods (spring, summer, and fall/winter). Differences between infectious and noninfectious admission diagnoses were also examined.

RESULTS

Compared with the pre-COVID era, there was a 14.4% decrease (interquartile range [IQR]: -33.8, -11.7) in the weekly median number of hospitalizations in the early-COVID era; the weekly median H-RISK score was 11.7% greater (IQR: 8.9, 14.9). Hospitalizations decreased for both noninfectious (-11.6%, IQR: -30.0, -8.0) and infectious (-35.5%, IQR: -51.1, -31.3) illnesses in the early-COVID era. This decrease was the largest in spring 2020 and continued throughout 2020.

CONCLUSIONS

For children with NI, there was a substantial and significant decrease in hospitalizations for infectious and noninfectious diagnoses but an increase in illness severity during the early-COVID era compared with the pre-COVID era. Our data suggest a need to reconsider current thresholds for hospitalization and identify opportunities to support and guide families through certain illnesses without hospitalization.

Sustainable deimplementation of continuous pulse oximetry monitoring in children hospitalized with bronchiolitis: study protocol for the Eliminating Monitor Overuse (EMO) type III effectiveness-deimplementation cluster-randomized trial

Background

Methods of sustaining the deimplementation of overused medical practices (i.e., practices not supported by evidence) are understudied. In pediatric hospital medicine, continuous pulse oximetry monitoring of children with the common viral respiratory illness bronchiolitis is recommended only under specific circumstances. Three national guidelines discourage its use for children who are not receiving supplemental oxygen, but guideline-discordant practice (i.e., overuse) remains prevalent. A 6-hospital pilot of educational outreach with audit and feedback resulted in immediate reductions in overuse; however, the best strategies to optimize sustainment of deimplementation success are unknown.

Methods

The Eliminating Monitor Overuse (EMO) trial will compare two deimplementation strategies in a hybrid type III effectiveness-deimplementation trial. This longitudinal cluster-randomized design will be conducted in Pediatric Research in Inpatient Settings (PRIS) Network hospitals and will include baseline measurement, active deimplementation, and sustainment phases. After a baseline measurement period, 16–19 hospitals will be randomized to a deimplementation strategy that targets unlearning (educational outreach with audit and feedback), and the other 16–19 will be randomized to a strategy that targets unlearning and substitution (adding an EHR-integrated clinical pathway decision support tool). The primary outcome is the sustainment of deimplementation in bronchiolitis patients who are not receiving any supplemental oxygen, analyzed as a longitudinal difference-in-differences comparison of overuse rates across study arms. Secondary outcomes include equity of deimplementation and the fidelity to, and cost of, each deimplementation strategy. To understand how the deimplementation strategies work, we will test hypothesized mechanisms of routinization (clinicians developing new routines supporting practice change) and institutionalization (embedding of practice change into existing organizational systems).

Discussion

The EMO trial will advance the science of deimplementation by providing new insights into the processes, mechanisms, costs, and likelihood of sustained practice change using rigorously designed deimplementation strategies. The trial will also advance care for a high-incidence, costly pediatric lung disease.

Trial registration

ClinicalTrials.gov,NCT05132322. Registered on November 10, 2021.

Supplementary Information

The online version contains supplementary material available at 10.1186/s13012-022-01246-z.

How to Perform Quality Improvement Projects

Safety and efficiency remain salient concerns for the US health-care system, especially in the face of growing health-care costs and morbidity from low-quality care. Current estimates suggest that more than 20% of health-care costs in the United States represent waste and low-value care, presenting numerous improvement opportunities. Although current guidelines and standards aim to address these problems, system processes and clinician behavior must also change to fill care gaps in the health-care system. Quality improvement (QI) is a systematic approach to safety or value gaps in care that uses data measured over time and then makes sequential, small changes to achieve a measurable aim. The Model for Improvement provides a general framework for approaching QI. In this review article, we describe the general approach to conducting QI studies in the health-care setting using the Model for Improvement as a guide, including identifying a problem, performing testing, measuring change, and implementing successful ideas. We also summarize common issues that QI teams face and should consider if sharing their QI work through publication. By following a systematic approach, QI teams can develop and implement interventions aimed at addressing gaps in care, thereby improving overall health-care value and safety for their patients.

Family Perspectives on Continuous Monitor Use in a Children's Hospital: A Qualitative Study

OBJECTIVES

Alarms from continuous cardiorespiratory and pulse oximetry monitors may contribute to parental anxiety and poor sleep during hospitalization, yet families also may find monitoring reassuring. Our objective was to understand how families perceive the utility, benefits, and harms of continuous monitoring.

METHODS

In this single-center qualitative study, we used semistructured interviews and direct observation. We enrolled families of patients of a variety of ages and clinical diagnoses. We extracted patient demographic information (age, diagnosis) from the health record. Semistructured interviews were recorded and transcribed. Detailed field notes were taken during observations. We used an inductive thematic approach to develop and refine codes that informed the development of themes.

RESULTS

We recruited 24 families and conducted 23 interviews and 9 observation sessions. Respiratory conditions (eg, bronchiolitis, asthma) were the most common reason for hospitalization. The hospitalized children covered a range of ages: <4 weeks (16%), 4 weeks to 6 months (20%), 7 months to 5 years (44%), and >5 years (20%); 55% had previously been hospitalized. Families expressed varying degrees of understanding the utility of monitors and often conducted their own assessments before notifying staff about alarms. Families expected monitoring, including negative effects like sleep disruption, as part of hospitalization. Families perceived the benefit of monitoring in context of previous hospital experiences, often seeing less benefit and worrying less about alarms in subsequent hospitalizations.

CONCLUSIONS

Family members continue to find reassurance from cardiorespiratory monitoring despite evidence that it offers limited benefit outside of the ICU setting. Parental perspectives should be addressed in future deimplementation efforts.

Choosing Wisely in Pediatric Hospital Medicine: 5 New Recommendations to Improve Value

OBJECTIVES

The health care system faces ongoing challenges due to low-value care. Building on the first pediatric hospital medicine contribution to the American Board of Internal Medicine Foundation Choosing Wisely Campaign, a working group was convened to identify additional priorities for improving health care value for hospitalized children.

METHODS

A study team composed of nominees from national pediatric medical professional societies was convened, including pediatric hospitalists with expertise in clinical care, hospital leadership, and research. The study team surveyed national pediatric hospitalist LISTSERVs for suggestions, condensed similar responses, and performed a literature search of articles published in the previous 10 years. Using a modified Delphi process, the team completed a series of structured ratings of feasibility and validity and facilitated group discussion. The sum of final mean validity and feasibility scores was used to identify the 5 highest priority recommendations.

RESULTS

Two hundred seven respondents suggested 397 preliminary recommendations, yielding 74 unique recommendations that underwent evidence review and rating. The 5 highest-scoring recommendations had a focus on the following aspects of hospital care: (1) length of intravenous antibiotic therapy before transition to oral antibiotics, (2) length of stay for febrile infants evaluated for serious bacterial infection, (3) phototherapy for neonatal hyperbilirubinemia, (4) antibiotic therapy for community-acquired pneumonia, and (5) initiation of intravenous antibiotics in infants with maternal risk factors for sepsis.

CONCLUSIONS

We propose that pediatric hospitalists can use this list to prioritize quality improvement and scholarly work focused on improving the value and quality of patient care for hospitalized children.

Improving Discharge Instructions for Hospitalized Children With Limited English Proficiency

BACKGROUND AND OBJECTIVES

Patients with limited English proficiency (LEP) have increased risk of adverse events after hospitalization. At our institution, LEP families did not routinely receive translated discharge instructions in their preferred language. Our objective for this study was to increase the percentage of patients with LEP on the hospital medicine (HM) service receiving translated discharge instructions from 12% to 80%.

METHODS

Following the Model for Improvement, we convened an interdisciplinary team that included HM providers, pediatric residents, language access services staff, and nurses to design and test interventions aimed at key drivers through multiple plan-do-study-act cycles. Interventions addressed the translation request process, care team education, standardizing discharge instructions for common conditions, and identification and mitigation of failures. We used established rules for analyzing statistical process control charts to evaluate the percentage of patients with translated discharge instructions for all languages and for Spanish.

RESULTS

During the study period, 540 patients with LEP were discharged from the HM service. Spanish was the preferred language for 66% of patients with LEP. The percentage of patients with LEP who received translated discharge instructions increased from 12% to 50% in 3 months and to 77% in 18 months. For patients whose preferred language was Spanish, the percentage increased from 16% to 69% in 4 months and to 96% in 18 months.

CONCLUSIONS

Interventions targeting knowledge of the translation process and standardized Spanish discharge instructions were associated with an increased percentage of families receiving translated discharge instructions. Future work will be used to assess the impact of these interventions on postdischarge disparities, including emergency department revisits and readmissions.

Variation in Diagnostic Testing and Empiric Acyclovir Use for HSV Infection in Febrile Infants

BACKGROUND AND OBJECTIVES

Clinicians evaluating for herpes simplex virus (HSV) in febrile infants must balance detection with overtesting, and there is no universally accepted approach to risk stratification. We aimed to describe variation in diagnostic evaluation and empirical acyclovir treatment of infants aged 0 to 60 days presenting with fever and determine the association between testing and length of stay (LOS).

METHODS

In this retrospective 44-hospital observational study, we used the Pediatric Health Information System database to identify infants aged ≤60 days evaluated for fever in emergency departments from January 2016 through December 2017. We described hospital-level variation in laboratory testing, including HSV, imaging and other diagnostic evaluations, acyclovir use, and LOS. We assessed the relationship between HSV testing and LOS using generalized linear mixed effects models adjusted for age and illness severity.

RESULTS

In 24 535 encounters for fever, the median HSV testing frequency across hospitals was 35.6% (interquartile range [IQR]: 28.5%-53.5%) for infants aged 0 to 21 days and 12% (IQR: 8.6%-15.7%) for infants aged 22 to 60 days. Among HSV-tested patients, median acyclovir use across hospitals was 79.2% (IQR: 68.1%-89.7%) for those aged 0 to 21 days and 63.6% (IQR: 44.1%-73%) for those aged 22 to 60 days. The prevalence of additional testing varied substantially by hospital and age group. Risk-adjusted LOS for HSV-tested infants was significantly longer than risk-adjusted LOS for those not tested (2.6 vs 1.9 days, P < .001).

CONCLUSIONS

Substantial variation exists in diagnostic evaluation and acyclovir use, and infants who received HSV testing had a longer LOS than infants who did not. This variability supports the need for further studies to help clinicians better risk-stratify febrile infants and to guide HSV testing and treatment decisions.

Evaluation of an Educational Outreach and Audit and Feedback Program to Reduce Continuous Pulse Oximetry Use in Hospitalized Infants With Stable Bronchiolitis: A Nonrandomized Clinical Trial

IMPORTANCE

National guidelines recommend against continuous pulse oximetry use for hospitalized children with bronchiolitis who are not receiving supplemental oxygen, yet guideline-discordant use remains high.

OBJECTIVES

To evaluate deimplementation outcomes of educational outreach and audit and feedback strategies aiming to reduce guideline-discordant continuous pulse oximetry use in children hospitalized with bronchiolitis who are not receiving supplemental oxygen.

DESIGN, SETTING, AND PARTICIPANTS

A nonrandomized clinical single-group deimplementation trial was conducted in 14 non-intensive care units in 5 freestanding children's hospitals and 1 community hospital from December 1, 2019, through March 14, 2020, among 847 nurses and physicians caring for hospitalized children with bronchiolitis who were not receiving supplemental oxygen.

INTERVENTIONS

Educational outreach focused on communicating details of the existing guidelines and evidence. Audit and feedback strategies included 2 formats: (1) weekly aggregate data feedback to multidisciplinary teams with review of unit-level and hospital-level use of continuous pulse oximetry, and (2) real-time 1:1 feedback to clinicians when guideline-discordant continuous pulse oximetry use was discovered during in-person data audits.

MAIN OUTCOMES AND MEASURES

Clinician ratings of acceptability, appropriateness, feasibility, and perceived safety were assessed using a questionnaire. Guideline-discordant continuous pulse oximetry use in hospitalized children was measured using direct observation of a convenience sample of patients with bronchiolitis who were not receiving supplemental oxygen.

RESULTS

A total of 847 of 1193 eligible clinicians (695 women [82.1%]) responded to a Likert scale-based questionnaire (71% response rate). Most respondents rated the deimplementation strategies of education and audit and feedback as acceptable (education, 435 of 474 [92%]; audit and feedback, 615 of 664 [93%]), appropriate (education, 457 of 474 [96%]; audit and feedback, 622 of 664 [94%]), feasible (education, 424 of 474 [89%]; audit and feedback, 557 of 664 [84%]), and safe (803 of 847 [95%]). Sites collected 1051 audit observations (range, 47-403 per site) on 709 unique patient admissions (range, 31-251 per site) during a 3.5-month period of continuous pulse oximetry use in children with bronchiolitis not receiving supplemental oxygen, which were compared with 579 observations (range, 57-154 per site) from the same hospitals during the baseline 4-month period (prior season) to determine whether the strategies were associated with a reduction in use. Sites conducted 148 in-person educational outreach and aggregate data feedback sessions and provided real-time 1:1 feedback 171 of 236 times (72% of the time when guideline-discordant monitoring was identified). Adjusted for age, gestational age, time since weaning from supplemental oxygen, and other characteristics, guideline-discordant continuous pulse oximetry use decreased from 53% (95% CI, 49%-57%) to 23% (95% CI, 20%-25%) (P < .001) during the intervention period. There were no adverse events attributable to reduced monitoring.

CONCLUSIONS AND RELEVANCE

In this nonrandomized clinical trial, educational outreach and audit and feedback deimplementation strategies for guideline-discordant continuous pulse oximetry use among hospitalized children with bronchiolitis who were not receiving supplemental oxygen were positively associated with clinician perceptions of feasibility, acceptability, appropriateness, and safety. Evaluating the sustainability of deimplementation beyond the intervention period is an essential next step.

TRIAL REGISTRATION

ClinicalTrials.gov Identifier: NCT04178941.

Disparity in Nurse Discharge Communication for Hospitalized Families Based on English Proficiency

OBJECTIVES

Effective communication is critical for safely discharging hospitalized children, including those with limited English proficiency (LEP), who are at high risk of reuse. Our objective was to describe and compare the safety and family centeredness of nurse communication at hospital discharge for English-proficient (EP) and LEP families.

METHODS

In this single-center, cross-sectional study, we used direct observation of hospital discharges for EP and LEP children. Observers recorded quantitative and qualitative details of nurse-family communication, focusing on 3 domains: safe discharge, family centeredness, and family engagement. Patient characteristics and percentages of encounters in which all components were discussed within each domain were compared between EP and LEP encounters by using Fisher's exact tests. We used field notes to supplement quantitative findings.

RESULTS

We observed 140 discharge encounters; 49% were with LEP families. Nurses discussed all safe discharge components in 31% of all encounters, most frequently omitting emergency department return precautions. Nurses used all family-centered communication components in 11% and family-engagement components in 89% of all encounters. Nurses were more likely to discuss all components of safe discharge in EP encounters when compared with LEP encounters (53% vs 9%; P < .001; odds ratio: 11.5 [95% confidence interval 4.4-30.1]). There were no differences in family centeredness or family engagement between LEP and EP encounters.

CONCLUSIONS

Discharge encounters of LEP patients were less likely to include all safe discharge communication components, compared with EP encounters. Opportunities to improve nurse-family discharge communication include providing written discharge instructions in families' primary language, ensuring discussion of return precautions, and using teach-back to optimize family engagement and understanding.

Barriers and Facilitators to Guideline-Adherent Pulse Oximetry Use in Bronchiolitis

OBJECTIVE

Continuous pulse oximetry monitoring (cSpO2) in children with bronchiolitis does not improve clinical outcomes and has been associated with increased resource use and alarm fatigue. It is critical to understand the factors that contribute to cSpO2 overuse in order to reduce overuse and its associated harms.

METHODS

This multicenter qualitative study took place in the context of the Eliminating Monitor Overuse (EMO) SpO2 study, a cross-sectional study to establish rates of cSpO2 in bronchiolitis. We conducted semistructured interviews, informed by the Consolidated Framework for Implementation Research, with a purposive sample of stakeholders at sites with high and low cSpO2 use rates to identify barriers and facilitators to addressing cSpO2 overuse. Interviews were audio recorded and transcribed. Analyses were conducted using an integrated approach.

RESULTS

Participants (n = 56) included EMO study site principal investigators (n = 12), hospital administrators (n = 8), physicians (n = 15), nurses (n = 12), and respiratory therapists (n = 9) from 12 hospitals. Results suggest that leadership buy-in, clear authoritative guidelines for SpO2 use incorporated into electronic order sets, regular education about cSpO2 in bronchiolitis, and visual reminders may be needed to reduce cSpO2 utilization. Parental perceptions and individual clinician comfort affect cSpO2 practice.

CONCLUSION

We identified barriers and facilitators to deimplementation of cSpO2 for stable patients with bronchiolitis across children's hospitals with high- and low-cSpO2 use. Based on these data, future deimplementation efforts should focus on clear protocols for cSpO2, EHR changes, and education for hospital staff on bronchiolitis features and rationale for reducing cSpO2.

Validity of Continuous Pulse Oximetry Orders for Identification of Actual Monitoring Status in Bronchiolitis

The accuracy of pulse oximetry monitor orders for identifying infants with bronchiolitis who are being continuously monitored is unknown. In this 56-hospital repeated cross-sectional study, investigators used direct bedside observation to determine continuous pulse oximetry monitor use and then assessed if an active continuous monitoring order was present in the electronic health record. Investigators completed 3,612 observations of infants aged 8 weeks to 23 months hospitalized with bronchiolitis and on room air. Most monitored infants did not have an active monitoring order (sensitivity 49% [95% CI, 41-57]). The positive predictive value of a monitoring order was 77% (95% CI, 72-82), and the negative predictive value was 69% (95% CI, 61-77). Teams intending to measure continuous pulse oximetry use should understand the limitations of using electronic health record orders as a stand-alone measure.

Association Between Statewide School Closure and COVID-19 Incidence and Mortality in the US

Importance

In the US, states enacted nonpharmaceutical interventions, including school closure, to reduce the spread of coronavirus disease 2019 (COVID-19). All 50 states closed schools in March 2020 despite uncertainty if school closure would be effective.

Objective

To determine if school closure and its timing were associated with decreased COVID-19 incidence and mortality.

Design, Setting, and Participants

US population-based observational study conducted between March 9, 2020, and May 7, 2020, using interrupted time series analyses incorporating a lag period to allow for potential policy-associated changes to occur. To isolate the association of school closure with outcomes, state-level nonpharmaceutical interventions and attributes were included in negative binomial regression models. States were examined in quartiles based on state-level COVID-19 cumulative incidence per 100 000 residents at the time of school closure. Models were used to derive the estimated absolute differences between schools that closed and schools that remained open as well as the number of cases and deaths if states had closed schools when the cumulative incidence of COVID-19 was in the lowest quartile compared with the highest quartile.

Exposures

Closure of primary and secondary schools.

Main Outcomes and Measures

COVID-19 daily incidence and mortality per 100 000 residents.

Results

COVID-19 cumulative incidence in states at the time of school closure ranged from 0 to 14.75 cases per 100 000 population. School closure was associated with a significant decline in the incidence of COVID-19 (adjusted relative change per week, -62% [95% CI, -71% to -49%]) and mortality (adjusted relative change per week, -58% [95% CI, -68% to -46%]). Both of these associations were largest in states with low cumulative incidence of COVID-19 at the time of school closure. For example, states with the lowest incidence of COVID-19 had a -72% (95% CI, -79% to -62%) relative change in incidence compared with -49% (95% CI, -62% to -33%) for those states with the highest cumulative incidence. In a model derived from this analysis, it was estimated that closing schools when the cumulative incidence of COVID-19 was in the lowest quartile compared with the highest quartile was associated with 128.7 fewer cases per 100 000 population over 26 days and with 1.5 fewer deaths per 100 000 population over 16 days.

Conclusions and Relevance

Between March 9, 2020, and May 7, 2020, school closure in the US was temporally associated with decreased COVID-19 incidence and mortality; states that closed schools earlier, when cumulative incidence of COVID-19 was low, had the largest relative reduction in incidence and mortality. However, it remains possible that some of the reduction may have been related to other concurrent nonpharmaceutical interventions.

Cardiorespiratory and Pulse Oximetry Monitoring in Hospitalized Children: A Delphi Process

OBJECTIVES

Cardiorespiratory and pulse oximetry monitoring in children who are hospitalized should balance benefits of detecting deterioration with potential harms of alarm fatigue. We developed recommendations for monitoring outside the ICU on the basis of available evidence and expert opinion.

METHODS

We conducted a comprehensive literature search for studies addressing the utility of cardiorespiratory and pulse oximetry monitoring in common pediatric conditions and drafted candidate monitoring recommendations based on our findings. We convened a panel of nominees from national professional organizations with diverse expertise: nursing, medicine, respiratory therapy, biomedical engineering, and family advocacy. Using the RAND/University of California, Los Angeles Appropriateness Method, panelists rated recommendations for appropriateness and necessity in 3 sequential rating sessions and a moderated meeting.

RESULTS

The panel evaluated 56 recommendations for intermittent and continuous monitoring for children hospitalized outside the ICU with 7 common conditions (eg, asthma, croup) and/or receiving common therapies (eg, supplemental oxygen, intravenous opioids). The panel reached agreement on the appropriateness of monitoring recommendations for 55 of 56 indications and on necessity of monitoring for 52. For mild or moderate asthma, croup, pneumonia, and bronchiolitis, the panel recommended intermittent vital sign or oximetry measurement only. The panel recommended continuous monitoring for severe disease in each respiratory condition as well as for a new or increased dose of intravenous opiate or benzodiazepine.

CONCLUSIONS

Expert panel members agreed that intermittent vital sign assessment, rather than continuous monitoring, is appropriate management for a set of specific conditions of mild or moderate severity that require hospitalization.

Evaluation for Neonatal HSV in Infants Undergoing Workup for Serious Bacterial Infection: A 5-Year Retrospective Review

OBJECTIVES

To describe the characteristics of infants evaluated for serious bacterial infection, focusing on empirical testing and treatment of herpes simplex virus (HSV) and describe the characteristics of HSV-positive patients.

METHODS

We included infants aged 0 to 60 days undergoing evaluation for serious bacterial infection in the emergency department. This descriptive study was conducted between July 2010 and June 2014 at a tertiary-care children's hospital. Eligible patients were identified on the basis of age at presentation to the hospital and laboratory specimens. Infant characteristics, symptoms on presentation, and laboratory workup were compared between HSV-positive and HSV-negative patients by using the 2-sample t test or the Wilcoxon rank test.

RESULTS

A total of 1633 infants were eligible for inclusion, and 934 (57.2%) were 0 to 28 days of age. HSV was diagnosed in 19 infants, 11 of whom had disseminated disease. Compared with those without HSV, HSV-positive infants were younger, less likely to be febrile and to present with nonspecific symptoms, and more likely to have a mother with HSV symptoms (P < .05). Testing from all recommended locations was only performed in 22% of infants. Infants tested or empirically treated with acyclovir had a longer median length of stay compared with children who were not tested or treated (P < .01).

CONCLUSIONS

The absence of fever should not preclude a workup for HSV in neonates, and when a workup is initiated, emphasis should be placed on obtaining samples from serum, cerebrospinal fluid, and surface specimens. Physicians may benefit from a guideline for evaluation of HSV with specific guidance on high-risk features of presentation and recommended testing.

Time series evaluation of improvement interventions to reduce alarm notifications in a paediatric hospital

BACKGROUND10: The Joint Commission identified inpatient alarm reduction as an opportunity to improve patient safety; enhance patient, family and nursing satisfaction; and optimise workflow. We used quality improvement (QI) methods to safely decrease non-actionable alarm notifications to bedside providers.

METHODS

In a paediatric tertiary care centre, we convened a multidisciplinary team to address alarm notifications in our acute care cardiology unit. Alarm notification was defined as any alert to bedside providers for each patient-triggered monitor alarm. Our aim was to decrease alarm notifications per monitored bed per day by 60%. Plan-Do-Study-Act testing cycles included updating notification technology, establishing alarm logic and modifying bedside workflow processes, including silencing the volume on all bedside monitors. Our secondary outcome measure was nursing satisfaction. Balancing safety measures included floor to intensive care unit transfers and patient acuity level.

RESULTS

At baseline, there was an average of 71 initial alarm notifications per monitored bed per day. Over a 3.5-year improvement period (2014-2017), the rate decreased by 68% to 22 initial alarm notifications per monitored bed per day. The proportion of initial to total alarm notifications remained stable, decreasing slightly from 51% to 40%. There was a significant improvement in subjective nursing satisfaction. At baseline, 32% of nurses agreed they were able to respond to alarms appropriately and quickly. Following interventions, agreement increased to 76% (p<0.001). We sustained these improvements over a year without a change in monitored balancing measures.

CONCLUSION

We successfully reduced alarm notifications while preserving patient safety over a 4-year period in a complex paediatric patient population using technological advances and QI methodology. Continued efforts are needed to further optimise monitor use across paediatric hospital units.

Inpatient Communication Barriers and Drivers When Caring for Limited English Proficiency Children

BACKGROUND

Achieving effective communication between medical providers and families with limited English proficiency (LEP) in the hospital is difficult.

OBJECTIVE

Our objective was to identify barriers to and drivers of effective interpreter service use when caring for hospitalized LEP children from the perspectives of pediatric medical providers and interpreters.

DESIGN/PARTICIPANTS/SETTING

We used Group Level Assessment (GLA), a structured qualitative participatory method that allows participants to directly produce and analyze data in an interactive group session. Participants from a single academic children's hospital generated individual responses to prompts and identified themes and relevant action items. Themes were further consolidated by our research team and verified by stakeholder groups.

RESULTS

Four GLA sessions were conducted including 64 participants: hospital medicine physicians and pediatric residents (56%), inpatient nursing staff (16%), and interpreter services staff (28%). Barriers identified included: (1) difficulties accessing interpreter services; (2) uncertainty in communication with LEP families; (3) unclear and inconsistent expectations and roles of team members; and (4) unmet family engagement expectations. Drivers of effective communication were: (1) utilizing a team-based approach between medical providers and interpreters; (2) understanding the role of cultural context in providing culturally effective care; (3) practicing empathy for patients and families; and (4) using effective family-centered communication strategies.

CONCLUSIONS

Participants identified unique barriers and drivers that impact communication with LEP patients and their families during hospitalization. Future directions include exploring the perspective of LEP families and utilizing team-based and family-centered communication strategies to standardize and improve communication practices.

Nurse Responses to Physiologic Monitor Alarms on a General Pediatric Unit

BACKGROUND

Hospitalized children generate up to 152 alarms per patient per day outside of the intensive care unit. In that setting, as few as 1% of alarms are clinically important. How nurses make decisions about responding to alarms, given an alarm's low specificity for detecting clinical deterioration, remains unclear.

OBJECTIVE

Our objective was to describe how bedside nurses think about and act upon monitor alarms for hospitalized children.

DESIGN, SETTING, PARTICIPANTS

This was a qualitative study that involved the direct observation of nurses working on a general pediatric unit at a large children's hospital.

MEASUREMENTS

We used a structured tool that included predetermined categories to assess nurse responses to monitor alarms. Data on alarm frequency and type were pulled from bedside monitors.

RESULTS

We conducted 61.3 patient-hours of observation with nine nurses, in which we documented 207 nurse responses to patient alarms. For 67% of alarms heard outside of the room, the nurse decided not to respond without further assessment. Nurses most commonly cited reassuring clinical context (eg, medical team in room), as the rationale for alarm nonresponse. The nurse deemed clinical intervention necessary in only 14 (7%) of the observed responses.

CONCLUSION

Nurses rely on clinical and contextual details to determine how to respond to alarms. Few of the alarm responses in our study resulted in a clinical intervention. These findings suggest that multiple system-level and educational interventions may be necessary to improve the efficacy and safety of continuous monitoring.

Factors Influencing Use of Continuous Physiologic Monitors for Hospitalized Pediatric Patients

OBJECTIVES

Continuous physiologic monitors (CPMs) generate frequent alarms and are used for up to 50% of children who are hospitalized outside of the ICU. Our objective was to assess factors that influence the decision to use CPMs.

METHODS

In this qualitative study, we used group-level assessment, a structured method designed to engage diverse stakeholder groups. We recruited clinicians and other staff who work on a 48-bed hospital medicine unit at a freestanding children's hospital. We developed a list of open-ended prompts used to address CPM use on inpatient units. Demographic data were collected from each participant. We conducted 6 sessions to permit maximum participation among all groups, and themes from all sessions were merged and distilled.

RESULTS

Participants (n = 78) included nurses (37%), attending physicians (17%), pediatric residents (32%), and unit staff (eg, unit coordinator; 14%). Participants identified several themes. First, there are patient factors (eg, complexity and instability) for which CPMs are useful. Second, participants perceived that alarms have negative effects on families (eg, anxiety and sleep deprivation). Third, CPMs are often used as surrogates for clinical assessments. Fourth, CPM alarms cause anxiety and fatigue for frontline staff. Fifth, the decision to use CPMs should be, but is not often, a team decision. Sixth, and finally, there are issues related to the monitor system's setup that reduces its utility.

CONCLUSIONS

Hospital medicine staff identified patient-, staff-, and system-level factors relevant to CPM use for children who were hospitalized. These data will inform the development of system-level interventions to improve CPM use and address high alarm rates.

Neonatal Herpes Simplex Virus Infection Among Medicaid-Enrolled Children: 2009-2015

OBJECTIVES

To examine the incidence, mortality, and health care use related to neonatal herpes simplex virus (HSV) infection.

METHODS

A retrospective longitudinal cohort study using a multistate Medicaid claims database. We identified neonates hospitalized with HSV infection from 2009 to 2015 by using discharge diagnosis codes and managed them for 6 months after discharge. Incidence rates were corrected for the imperfect sensitivity and specificity of thediagnosis codes for identifying HSV infection.

RESULTS

Of 2 107 124 births from 2009 to 2015, 900 neonates were identified with HSV infection, with a corrected incidence rate of 4.5 (95% confidence interval [CI]: 4.2-4.8) per 10 000 births. The yearly disease incidence increased by 56%, from 3.4 (95% CI: 2.8-4.2) per 10 000 births (or 1 in 2941 births) in 2009 to 5.3 (95% CI: 4.6-6.1) per 10 000 births (or 1 in 1886 births) in 2015 (P < .001). Of the 900 neonates with HSV infection, 54 (6.0% [95% CI: 4.4%-7.6%]) died during the index hospitalization; there was no increase in the yearly mortality rate. Of the 692 (81.2%) infants with follow-up data, 316 (45.7%) had an emergency department visit, and 112 (16.2%) had a hospital readmission. Total payments at 6 months amounted to $60 620 431, a median of $87 602 per case of neonatal HSV infection.

CONCLUSIONS

We observed an increase in neonatal HSV infection incidence over a recent 7-year period in a Medicaid population. Associated health care use and payments were substantial. Public health interventions targeting disease prevention and early diagnosis are needed.

Quality Improvement Feature Series Article 3: Writing and Reviewing Quality Improvement Manuscripts

Achieving rapid and meaningful improvement in healthcare requires the dissemination of quality improvement project results via publication. Doing this well requires detailed descriptions of the complex interventions and of the context in which the improvement took place. This report builds on the first 2 articles in the series to cover important considerations in writing quality improvement manuscripts with a focus on how it differs from writing traditional clinical research reports. The recommendations we outline here also apply to reviewing quality improvement manuscripts.

Physiologic Monitor Alarm Rates at 5 Children's Hospitals

Alarm fatigue has been linked to patient morbidity and mortality in hospitals due to delayed or absent responses to monitor alarms. We sought to describe alarm rates at 5 freestanding children's hospitals during a single day and the types of alarms and proportions of patients monitored by using a point-prevalence, cross-sectional study design. We collected audible alarms on all inpatient units and calculated overall alarm rates and rates by alarm type per monitored patient per day. We found a total of 147,213 alarms during the study period, with 3-fold variation in alarm rates across hospitals among similar unit types. Across hospitals, onequarter of monitored beds were responsible for 71%, 61%, and 63% of alarms in medical-surgical, neonatal intensive care, and pediatric intensive care units, respectively. Future work focused on addressing nonactionable alarms in patients with the highest alarm counts may decrease alarm rates.

Quality Improvement Feature Series Article 2: Displaying and Analyzing Quality Improvement Data

In this second article in the quality improvement (QI) methods series, we discuss how data are best displayed and analyzed in QI projects while focusing on some similarities with and differences from traditional clinical research. We demonstrate why displaying data over time on a run or control chart is superior to using pre-post analysis for QI studies. We introduce several types of statistical process control charts for data commonly collected during QI programs and provide guidance on how to use the proper chart. Last, we present solutions to several common data challenges in QI projects.

Improving Discharge Efficiency in Medically Complex Pediatric Patients

BACKGROUND AND OBJECTIVE

Children with medical complexity have unique needs when facilitating transitions from hospital to home. Defining readiness for discharge is challenging, and preparation requires coordination of family, education, equipment, and medications. Our multidisciplinary team aimed to increase the percentage of medically complex hospital medicine patients discharged within 2 hours of meeting medical discharge goals from 50% to 80%.

METHODS

We used quality improvement methods to identify key drivers and inform interventions. Medical discharge goals were defined on admission for each patient. Interventions included implementation of a complex care inpatient team with electronic admission order set, weekly care coordination rounds, needs assessment tool, and medication pathway. The primary measure, percentage of patients discharged within 2 hours of meeting medical discharge goals, was followed on a run chart. The secondary measures, pre- and post-intervention length of stay and 30-day readmission rate, were compared by using Wilcoxon rank-sum and χ(2) tests, respectively.

RESULTS

The percentage of medically complex patients discharged within 2 hours of meeting medical discharge goals improved from 50% to 88% over 17 months and sustained for 6 months. In preintervention-postintervention comparison, median length of stay did not change (3.1 days [interquartile range, 1.8-7.0] vs 2.9 days [interquartile range, 1.7-6.1]; P = .67) and 30-day readmission rate was not impacted (30.7% vs 26.4%; P = .51).

CONCLUSIONS

Efficient discharge for medically complex patients requires support of a multidisciplinary team to proactively address discharge needs, ensuring patients are ready for discharge when medical goals are met.

The Impact of Reduced Pulse Oximetry Use on Alarm Frequency

BACKGROUND

Concerns about alarm fatigue prompted The Joint Commission to issue a Sentinel Event Alert urging hospitals to minimize alarms. We previously conducted a quality improvement project on a single unit that reduced time on continuous pulse oximetry, a common source of physiologic monitor alarms, for patients with wheezing (ie, asthma and bronchiolitis, wheezing-associated respiratory infections).

OBJECTIVE

To study the impact of our improvement work on overall physiologic monitor alarm frequency for these patients.

METHODS

This was a retrospective cohort study at a freestanding children's hospital over an 8-week period. We compared alarm count, including respiratory, cardiac, and pulse oximetry alarms, for patients admitted to the intervention unit with the alarm count for similar patients on a control unit by using the Wilcoxon rank sum test. We used negative binomial regression to evaluate differences in alarm count between the units, adjusting for age, medical comorbidity, and length of stay.

RESULTS

There were 101 patients on the intervention unit and 46 patients on the control unit. The percentage of patients with medical comorbidities was significantly higher on the intervention unit (P=.01). Median alarm count per day for patients on the intervention unit was lower; however, this difference was not statistically significant (71 vs 76 alarms per patient-day, P=.29). The multivariable model estimated a nonsignificant 6.4-count decrease in alarms for patients on the intervention unit.

CONCLUSIONS

Reducing continuous pulse oximetry use alone may not make substantial reductions in overall alarm counts. Even on our intervention unit, alarm burden remained quite high.

Accuracy of diagnosis codes to identify febrile young infants using administrative data

BACKGROUND

Administrative data can be used to determine optimal management of febrile infants and aid clinical practice guideline development.

OBJECTIVE

Determine the most accurate International Classification of Diseases, Ninth Revision (ICD-9) diagnosis coding strategies for identification of febrile infants.

DESIGN

Retrospective cross-sectional study.

SETTING

Eight emergency departments in the Pediatric Health Information System.

PATIENTS

Infants aged <90 days evaluated between July 1, 2012 and June 30, 2013 were randomly selected for medical record review from 1 of 4 ICD-9 diagnosis code groups: (1) discharge diagnosis of fever, (2) admission diagnosis of fever without discharge diagnosis of fever, (3) discharge diagnosis of serious infection without diagnosis of fever, and (4) no diagnosis of fever or serious infection.

EXPOSURE

The ICD-9 diagnosis code groups were compared in 4 case-identification algorithms to a reference standard of fever ≥100.4°F documented in the medical record.

MEASUREMENTS

Algorithm predictive accuracy was measured using sensitivity, specificity, and negative and positive predictive values.

RESULTS

Among 1790 medical records reviewed, 766 (42.8%) infants had fever. Discharge diagnosis of fever demonstrated high specificity (98.2%, 95% confidence interval [CI]: 97.8-98.6) but low sensitivity (53.2%, 95% CI: 50.0-56.4). A case-identification algorithm of admission or discharge diagnosis of fever exhibited higher sensitivity (71.1%, 95% CI: 68.2-74.0), similar specificity (97.7%, 95% CI: 97.3-98.1), and the highest positive predictive value (86.9%, 95% CI: 84.5-89.3).

CONCLUSIONS

A case-identification strategy that includes admission or discharge diagnosis of fever should be considered for febrile infant studies using administrative data, though underclassification of patients is a potential limitation.

Association of clinical practice guidelines with emergency department management of febrile infants ≤56 days of age

BACKGROUND

Differences among febrile infant institutional clinical practice guidelines (CPGs) may contribute to practice variation and increased healthcare costs.

OBJECTIVE

Determine the association between pediatric emergency department (ED) CPGs and laboratory testing, hospitalization, ceftriaxone use, and costs in febrile infants.

DESIGN

Retrospective cross-sectional study in 2013.

SETTING

Thirty-three hospitals in the Pediatric Health Information System.

PATIENTS

Infants aged ≤56 days with a diagnosis of fever.

EXPOSURES

The presence and content of ED-based febrile infant CPGs assessed by electronic survey.

MEASUREMENTS

Using generalized estimating equations, we evaluated the association between CPG recommendations and rates of urine, blood, cerebrospinal fluid (CSF) testing, hospitalization, and ceftriaxone use at ED discharge in 2 age groups: ≤28 days and 29 to 56 days. We also assessed CPG impact on healthcare costs.

RESULTS

We included 9377 ED visits; 21 of 33 EDs (63.6%) had a CPG. For neonates ≤28 days, CPG recommendations did not vary and were not associated with differences in testing, hospitalization, or costs. Among infants 29 to 56 days, CPG recommendations for CSF testing and ceftriaxone use varied. CSF testing occurred less often at EDs with CPGs recommending limited testing compared to hospitals without CPGs (adjusted odds ratio: 0.5, 95% confidence interval: 0.3-0.8). Ceftriaxone use at ED discharge varied significantly based on CPG recommendations. Costs were higher for admitted and discharged infants 29 to 56 days old at hospitals with CPGs.

CONCLUSIONS

CPG recommendations for febrile infants 29 to 56 days old vary across institutions for CSF testing and ceftriaxone use, correlating with observed practice variation. CPGs were not associated with lower healthcare costs.

Using quality improvement to reduce continuous pulse oximetry use in children with wheezing

BACKGROUND AND OBJECTIVES

Clinicians commonly use continuous pulse oximetry (CPOx) for hospitalized children with respiratory illnesses. The Choosing Wisely initiative recommended discontinuing CPOx for children on room air. We used quality improvement methods to reduce time on CPOx in patients with wheezing.

METHODS

Our project took place on 1 unit of a children's hospital. We developed consensus-based criteria for CPOx discontinuation. Interventions included education, a checklist used during nurse handoff, and discontinuation criteria incorporated into order sets. We collected data on a second unit where we did not actively intervene to assess for secular trends and negative consequences of shorter monitoring. We followed time until medically ready, ICU transfers, hospital revisits, and medical emergency team calls on both units. We tracked the impact of interventions by using run charts and statistical process control charts.

RESULTS

Median time per week on CPOx after meeting goals decreased from 10.7 hours to 3.1 hours on the intervention unit. Median time per week on CPOx on the control unit decreased from 11.5 hours to 6.9 hours. There was no decrease in time until medically ready on either unit. The percentage of patients needing transfer, revisit, or medical emergency team call was similar on both units.

CONCLUSIONS

With interventions focused on clarity and awareness of CPOx discontinuation criteria, we decreased time on CPOx; however, we saw no impact on time until medically ready. We expect that other centers could use analogous methods to standardize and reduce oxygen monitoring to meet Choosing Wisely recommendations.

Caustic ingestions mimicking anaphylaxis: case studies and literature review

Anaphylaxis presents in children with rapid involvement of typically 2 or more organ systems including cutaneous, gastrointestinal, and respiratory. Caustic ingestions (CI) may also present with acute involvement of cutaneous, gastrointestinal, and respiratory systems. We present 2 cases of "missed diagnosis" that illustrate how CI presenting with respiratory symptoms can be mistaken for anaphylaxis owing to these similarities. Both of these patients had delay in appropriate care for CI as a result. These cases demonstrate the importance of considering CI in children who have gastrointestinal symptoms, respiratory distress, and oropharyngeal edema.