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Objective: The goal of this study was to evaluate the current use of polyethylene glycol (PEG) in a pediatric gastroenterology outpatient clinic. The primary endpoint was to determine the current weight-based PEG dosing schedules used for home cleanouts and maintenance treatment for functional constipation. The secondary endpoint was to assess the dosing efficacy for home cleanouts. Methods: This study was a retrospective cohort analysis of electronic medical records documenting new patient visits at our pediatric gastroenterology clinic between September 2017 and October 2018. Patients included in the study were 13 months to 18 years of age and prescribed PEG for an at-home cleanout and/or maintenance therapy for functional or slow transit constipation. Study participants given a clean-out regimen were divided into those who received treatment for less than 2 days or more. Cleanouts were considered successful if documented as such by the prescriber in the follow-up note or if there was documentation of clear flow. Results: Of the 201 new patients included, 112 (55.7%) received a recommendation for a home cleanout. Of these, 111 patients (99%) underwent PEG-based therapy with or without additional agents. The median weight-based PEG dose was 5.3 ± 2.4 and 4.6 ± 1.9 g/kg/day for 1- and 2-day cleanouts, respectively (P = 0.124). Of the 38 patients with documented outcomes, 28 (73.7%) were successful. We observed no statistically significant differences in the number of successful versus unsuccessful outcomes based on PEG dosing (P = 0.3) or cumulative dose exposures (P = 0.388). Similarly, we observed no significant differences when comparing those on 1-day versus 2-or-more-day cleanouts, (P = 0.17). The median weight-based maintenance PEG dose was 0.74 g/kg/day (interquartile range [IQR], 0.55, 0.96). Conclusions: While the PEG doses used by this clinic for 1-day bowel cleanouts align with the NASPGHAN best practices for colonoscopy report, patients who underwent a 2-day cleanout were provided more than double the weight-based doses. The doses were nearly 3-fold higher than the recommended doses for functional constipation home cleanouts. More information will be needed to determine if these higher doses for home cleanouts are needed for the successful management of patients with functional constipation.
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OBJECTIVE: Patient acceptance of pediatric formulations is critical to compliance and consequently therapeutic outcomes; thus, having an in vitro method to evaluate sensory perception of pharmaceutical products would be beneficial. The objective of this research is to develop a sensitive and reproducible tribological method to characterize pharmaceutical suspensions at low force and sliding speeds. METHODS: The discriminating potential of the method was examined using tribology profiles (coefficient of friction (COF) vs. sliding speed) for commercially available products and products made for this study with widely varying sweetness, thickness, and grittiness; these formulations were used to judge the sensitivity of the method. Samples were measured using 3M Transpore™ surgical tape to simulate the tongue surface, steel half ring geometry, constant gap setting, target axial force of 2 N in a 600 s exponential ramp for rotation speed. RESULTS: The COF ranged from 0.1 to 0.6. For the speeds studied, the high viscosity commercial suspension ibuprofen drops and acetaminophen suspension show a classic Stribeck curve with an increasing COF at the higher rotation speeds, which indicates these formulations entered the hydrodynamic lubrication phase, while the lower viscosity suspensions only reached the mixed lubrication phase. CONCLUSION: The contribution of particles affects the COF in a dynamic tribologic pattern compared to products that are categorized as either low gritty or high viscosity. These results are important as they provide a potentially rapid in vitro method for screening pediatric medications and help to identify the factors that affect the palatability of pediatric formulations.
Assuntos
Composição de Medicamentos , Suspensões , Criança , Fricção , Humanos , Lubrificação , ViscosidadeRESUMO
OBJECTIVES: Blood culture rapid diagnostic testing (RDT) aids in early organism identification and resistance gene detection. This information allows quicker transition to tailored antimicrobial therapy, improved patient outcomes and prevention of antimicrobial resistance. An antimicrobial treatment algorithm based on RDT results and local antibiograms can serve as a valuable clinical decision-support tool. This study assessed the proportion of appropriate antibiotic therapy recommendations using a novel paediatric RDT-guided treatment algorithm compared with standard care (SC) in paediatric bacteraemia. METHODS: This was a retrospective, observational study of admitted paediatric patients who received antibiotics for RDT-confirmed bacteraemia. Appropriateness of SC was compared with algorithm-recommended treatment. Antimicrobial appropriateness was defined as in vitro susceptibility to the organism identified through traditional microbiology. Clinical appropriateness took into consideration the ability to tailor therapy within 12 h of RDT results. Appropriateness was evaluated by two blinded, independent reviewers. KEY FINDINGS: Eighty-six blood cultures were included with 15 unique Gram-positive and Gram-negative species or genus identified. Comparative antimicrobial appropriateness of SC and algorithm-recommended treatment was 94.2% (81/86) and 100% (86/86), respectively (P = 0.06). Clinical assessment determined 39.5% (34/86) of SC patients were on appropriate therapy within 12 h of RDT result. Algorithm-recommended therapy was clinically appropriate in 97.7% (84/86) of patients (P < 0.001). There was a median time savings of 42.7 h (IQR 40.6, 49.4) for the patients able to be de-escalated as compared with waiting on final sensitivities. CONCLUSIONS: Algorithm-guided treatment may allow most patients to be de-escalated to organism-tailored therapy earlier in their therapeutic course.