Acute hematogenous osteomyelitis (AHO) causes significant morbidity in children 1 -3 and often requires prolonged and costly treatment. 1, 3 -6 A recent large study from Spain revealed that children with osteomyelitis were hospitalized for an average of 13.5 days, that 20% required surgery, and that 2.3% developed longterm sequelae, such as leg-length discrepancy. 3 Early transition to oral therapy has been shown to be an effective and less costly approach compared with prolonged parenteral therapy. 5 -13 Despite efforts at our institution to reduce costs through early transition to oral therapy, 14 our inpatient costs remained high. In preliminary discussions among specialties involved in caring for children with AHO at our institution, substantial variation in practices from 1 patient to another was identified. We hypothesized that standardizing our practice in all areas would lead to an overall cost reduction and improved care. on behalf of the AHO Care Algorithm Team BACKGROUND AND OBJECTIVES: Acute hematogenous osteomyelitis (AHO) causes significant morbidity in children. Quality improvement (QI) methods have been used to successfully improve care and decrease costs through standardization for numerous conditions, including pediatric AHO. We embarked on a QI initiative to standardize our approach to the inpatient management of AHO, with a global aim of reducing inpatient costs. METHODS:We used existing literature and local consensus to develop a care algorithm for the inpatient management of AHO. We used the Model for Improvement as the framework for the project, which included process mapping, failure mode analysis, and key driver identification. We engaged with institutional providers to achieve at least 80% consensus regarding specific key drivers and tested various interventions to support uptake of the care algorithm. RESULTS:Fifty-seven patients were included. There were 31 patients in the preintervention cohort and 26 in the postintervention cohort, of whom 19 were managed per the algorithm. Mean inpatient charges decreased from $45 718 in the preintervention cohort to $32 895 in the postintervention cohort; length of stay did not change. Adherence to recommended empirical antimicrobial agents trended upward. CONCLUSIONS: A simple and low-cost QI project was used to safely decrease the cost of inpatient care for pediatric AHO at a tertiary care children's hospital. A robust local consensus process proved to be a key component in the uptake of standardization. abstract To cite: Robinette ED, Brower L, Schaffzin JK, et al. Use of a Clinical Care Algorithm to Improve Care for Children With Hematogenous Osteomyelitis.
Chemorepellents are compounds that cause ciliated protozoans to reorient their swimming direction. A number of chemorepellents have been studied in the ciliated protozoans, Paramecium and Tetrahymena. Chemorepellents, such as polycations, cause the organism to exhibit "avoidance behavior," a swimming behavior characterized by jerky movements and other deviations from normal forward swimming, which result from ciliary reversal. One well-characterized chemorepellent pathway in Tetrahymena is that of the proposed polycation receptor that is activated by lysozyme and pituitary adenylate cyclase activating polypeptide (PACAP). In this study, we compare the response of Paramecium to the chemorepellents lysozyme, vasoactive intestinal peptide (VIP), and PACAP to the previously studied polycation response in Tetrahymena. Our results indicate that lysozyme, VIP, and PACAP are all chemorepellents in Paramecium, just as they are in Tetrahymena. However, the signaling pathways involved appear to be different. While previous pharmacological characterization indicates that G-proteins are involved in polycation signaling in Tetrahymena, we present evidence that similar reception in Paramecium involves activation of a tyrosine kinase pathway in order for lysozyme avoidance to occur. Polycation responses of both organisms are inhibited by neomycin sulfate. While PACAP is the most effective of the three chemorepellents in Tetrahymena, lysozyme is the most effective chemorepellent in Paramecium.
Introduction: Bloodstream infections (BSI) represent a common cause of sepsis and mortality in children. Early and adequate empirical antimicrobial therapy is a critical component of successful treatment of BSI. Rapid PCR-based diagnostic technologies, such as nucleic acid microarrays, can decrease the time needed to identify pathogens and antimicrobial resistance and have the potential to ensure patients are started on adequate antibiotics as early as possible. However, without appropriate processes to support timely and targeted interpretation of these results, these advantages may not be realized in practice. Methods: Our Antimicrobial Stewardship Program (ASP) implemented a quality improvement initiative using the Institute for Healthcare Improvement’s Model for Improvement to decrease the time between a nucleic acid microarray result for Gram-positive bacteremia and the time a patient was placed on adequate antimicrobial therapy. The primary effective intervention was a near real-time notification system to the managing physicians of inadequate antimicrobial therapy via a call from the ASP team. Results: Following the intervention, the average time to adequate antimicrobial therapy in patients with Gram-positive BSI and inadequate coverage decreased from 38 hours with the nucleic acid microarray result alone to 4.7 hours when results were combined with an ASP clinical decision support intervention, an 87% reduction. Conclusions: The positive effects of rapid-detection technologies to improve patient care are enhanced when combined with clinical decision support tools that can target inadequate antimicrobial treatments in near real time.
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