Abuse and misuse of these dietary supplements was uncommon, and outcomes were mild. Further research should be performed to determine use and outcomes of abuse/misuse of other dietary supplements in this population.
Background:Pain control is an important element of care for patients after surgery, leading to better outcomes, quicker transitions to recovery, and improvement in quality of life. The purpose of this study was to evaluate the safety and efficacy of non-steroidal anti-inflammatory drugs in children after cardiac surgeryMaterials and Methods:Patients between the ages of 1 month and 18 years of age, who received intravenous or oral non-steroidal anti-inflammataory drugs after cardiac surgery, from November 2015 until September 2017 were included in this study. The primary endpoints were non-steroidal anti-inflammataory drug-associated renal dysfunction and post-operative bleeding. Secondary endpoints examined the effect of non-steroidal anti-inflammataory drug use on total daily dose of narcotics, number of intravenous PRN narcotic doses received, and pain assessment score. Data were analysed using descriptive statistics for frequencies and ranges. Multivariate analysis was performed to measure the association of all predictors and outcomes. Wilcoxon singed-rank test was performed for secondary outcomes.Results:There was no association between the incidence of renal dysfunction and the use of or duration of non-steroidal anti-inflammataory drugs; in addition no association was found with increased chest tube output. There was a statistically significant reduction of patients’ median Face, Legs, Activity, Cry, Consolability (FLACC) scores (2–0; p = 0.003), seen within first 24 hours after initiation of ketorolac, and a significant reduction of morphine requirements seen from day 1 to day 2 (0.3 mg/kg versus 0.1 mg/kg; p < 0.001) and number of as-needed doses.Conclusion:Non-steroidal anti-inflammataory drugs in paediatric cardiac surgery patients are safe and effective for post-operative pain management.
At least 60% of the neonates with opioid withdrawal syndrome (NOWS) require morphine to control withdrawal symptoms. Currently, the morphine dosing strategies are empiric, not optimal and associated with longer hospital stay. The aim of the study was to develop a quantitative, model-based, real-world data-driven approach to morphine dosing to improve clinical outcomes, such as reducing time on treatment. Longitudinal morphine dose, clinical response (Modified Finnegan Score (MFS)), and baseline risk factors were collected using a retrospective cohort design from the electronic medical records of neonates with NOWS (N = 177) admitted to the University of Maryland Medical Center. A dynamic linear mixed effects model was developed to describe the relationship between MFS and morphine dose adjusting for baseline risk factors using a split-sample data approach (70% training: 30% test). The training model was evaluated in the test dataset using a simulation based approach. Maternal methadone and benzodiazepine use, and race were significant predictors of the MFS response. Positive autocorrelations of 0.56 and 0.12 were estimated between consecutive MFS responses. On an average, for a 1,000 μg increase in the morphine dose, the MFS decreased by 0.3 units. The model evaluation showed that observed and predicted median time on treatment were similar (13.0 vs. 13.8 days). A model-based framework was developed to describe the MFSmorphine dose relationship using real-world data that could potentially be used to develop an adaptive, individualized morphine dosing strategy to improve clinical outcomes in infants with NOWS. Neonatal opioid withdrawal syndrome (NOWS), also known as neonatal abstinence syndrome, is a drug withdrawal syndrome experienced by 55-94% of in utero opioid-exposed neonates shortly after birth. 1 The dramatic increase of opioid use in pregnancy has led to a 5-fold increase in NOWS with an incidence of 1.5-8.0 per 1,000 hospital births from 2004 to 2014. 2-4 On average in the United States, 1 infant is born every
OBJECTIVES The objective of this study was to determine if education material targeting children would improve understanding of medication indication, administration, and common side effects in pediatric subjects. METHODS This cross-sectional pilot study included students 7 to 11 years old from a suburban elementary school. Study participants were read either the US Food and Drug Administration–approved adult medication leaflet or a pediatric medication leaflet created at a first-grade reading level for levetiracetam (Keppra, UCB, Inc, Atlanta, GA). Students were asked a set of standardized survey questions to evaluate comprehension of side effects, medication indication, dosing frequency, administration, and overall impression of the leaflet. RESULTS Fifty-eight children were included. Fifty percent of the children were male, 79% were Caucasian, and the average age was 9 years. There was no statistical difference for demographics in the adult leaflet versus the pediatric leaflet group. Children correctly stated the indication for the medication in 30% of participants (9/30) in the adult leaflet group and 79% of participants (22/28) in the pediatric leaflet group, p = 0.002. The administration frequency question was answered correctly in 93% of the pediatric leaflet group (26/28) as compared to 73% in the adult leaflet group (22/30), p = 0.05. For questions about side effects and how to administer the medication, there was no difference between the groups. The responses regarding readability and understanding of the leaflets were significantly different in the pediatric leaflet group compared to the adult leaflet group, p = 0.001 and p = 0.001, respectively. CONCLUSIONS Leaflets designed for pediatric patients resulted in an improvement in the understanding of the indication for levetiracetam.
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.
Background: A consensus guideline on salicylate poisoning recommends referring patients to the emergency department if they ingested 150 mg/kg of aspirin. The dose of aspirin associated with severe poisoning in pediatric patients has not been investigated. Objective: This study aims to associate medical outcomes with aspirin overdoses in patients 5 years old and younger. Methods: A retrospective review of data on pediatric patients with single substance aspirin exposures reported from poison centers across the country was conducted. The primary endpoint was to associate aspirin doses with medical outcomes. Secondary endpoints included evaluation of the signs, symptoms, and treatments of ingestion and their association with medical outcomes. Results: There were 26 488 included exposures with aspirin exposures resulting in no effect (92.5%), minor effect (6.0%), moderate effect (1.4%), major effect (0.2%), and death (0.02%). There were 8921 cases with available weight-based dosing information. Median doses associated with no effect, minor effects, moderate effects, major effects, and death ranged between 28.4 and 40.9 mg/kg, 52.5 and 82.3 mg/kg, 132.1 and 182.3 mg/kg, 132.3 and 172.8 mg/kg, and 142.2 and 284.4 mg/kg, respectively. Minor effect and moderate effect exposures were more likely to have alkalinization documented compared to no effect exposures (odds ratio [OR] = 1.75, 95% confidence interval [CI] = 1.41-2.17; OR = 1.79, 95% CI = 1.12-2.86). There was no difference in rates of alkalinization between minor and moderate exposures (OR = 1.02, 95% CI: 0.61-1.7). Conclusions and relevance: Reevaluation of the current recommendation of 150 mg/kg for referral to a healthcare facility is necessary for pediatric acute salicylate overdoses.
OBJECTIVE Verigene blood culture panels comprise rapid diagnostic testing, which aids in early bacteremia species identification. This study determined the concordance of Verigene rapid diagnostic results compared with the Vitek reference standard in patients admitted to a children's hospital. METHODS This was a 3-year retrospective observational study of neonatal and pediatric patients ≤18 years admitted to a children's hospital with confirmed bacteremia for whom Verigene testing was performed. Verigene testing was conducted on cultures with reported growth on Gram stain and final organism speciation confirmed via Vitek. Percent concordance and positive percent agreement with 95% CIs were calculated for Verigene panel-identifiable organisms. Negative percent agreement with 95% CIs was calculated for non-panel organisms. Time-to-result was calculated from Gram stain reporting to both Verigene and Vitek final organism susceptibility. RESULTS One hundred thirty-five Gram-positive (GP) and 51 Gram-negative (GN) isolates were identified through Vitek. Verigene GP panel-detectable organisms were correctly identified 96.9% (125/129) at the genus level and 95.3% (123/129) at the species level. Overall positive percent agreement was 95.3 (CI: 90.2–98.3). Negative percent agreement was 83.3 (CI: 35.9–99.6) for the 6 non-panel GP organisms. All GN isolates were correctly identified on Verigene. Median time-to-result was 2.9 hours (IQR 2.6, 3.2) and 44.4 hours (IQR: 35.4, 52.5) for Verigene and final susceptibilities, respectively. There was a statistically significant time savings of 41.5 hours (CI: 29.8–53.2) for identification and detection of resistance markers (p < 0.0001). CONCLUSION Verigene concordance at our institution aligns with results from previously published studies and can be considered a reliable clinical decision-support tool.
INTRODUCTION Medication palatability is one of many factors influencing medication adherence in the pediatric population, but there is limited research into medical students' knowledge of this relationship. The purpose of this study was to assess the knowledge and beliefs of medical students regarding pediatric medication characteristics, administration, taste, and effect of palatability on adherence before and after an interprofessional education session.METHODS Pharmacy colleagues taught a lecture addressing pediatric pharmacology, patient cases, medication administration strategies, and methods to enhance adherence. Participants had the opportunity to taste amoxicillin, cefdinir, clindamycin, prednisolone, and ranitidine. Students completed a survey before and after the education session, and a poll during the taste test. RESULTSPrior to the session, students had very few lecture hours devoted to these topics and the majority were unfamiliar with medication flavoring and administration to children. After the session, 94% of students stated their opinion on the importance of medication palatability had changed. There was a significant improvement in students' beliefs about their pharmacology knowledge (p < 0.0001). Additionally, 40% changed their patient counseling habits after the session. DISCUSSION Taste heavily influences pediatric medication adherence, and studies show physicians who taste the medications they prescribe have altered their practices based on that experience. Additionally, interprofessional collaboration between pharmacists and providers is beneficial for both parties as well as patients and the healthcare system. CONCLUSIONThis study shows an interprofessional education session effectively teaches medical students about pediatric medication taste, adherence, and pharmacology.
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