599 research outputs found
Variability in antifungal and antiviral use in hospitalized children
We analyzed antifungal and antiviral prescribing among high-risk children across freestanding children’s hospitals. Antifungal and antiviral days of therapy varied across hospitals. Benchmarking antifungal and antiviral use and developing antimicrobial stewardship strategies to optimize use of these high cost agents is needed.Infect Control Hosp Epidemiol2017;38:743–746</jats:p
Open Educational resource (OER) Adoption in Higher education: Examining institutional perspectives
This presentation focuses on institutional stakeholders’ perspectives of OER adoption and integration at a state college in east Florida. This session will provide recommendations for an institutional adoption of OERs at Nova Southeastern University and demonstrate how NSU’s librarians and library resources can be leveraged to ensure a successful OER implementation. This session will also discuss the ways in which librarian advocacy helps in the OER adoption process and how building relationships with librarians may help drive a wide-scale OER implementation
Evaluating and Mitigating Risk of Acute Kidney Injury with the Combination of Vancomycin and Piperacillin-Tazobactam in Children
The antibiotic combination of vancomycin (VAN) and piperacillin-tazobactam (PTZ) has been associated with an increased risk of acute kidney injury (AKI) in both adult and pediatric patients. In this review, we highlight some of the limitations of existing pediatric studies evaluating the combination of VAN/PTZ, focusing on AKI risk in specific pediatric patient populations. We also review the variability in defining AKI in children and provide guidance to clinicians for use of prospective surveillance and stewardship in mitigating the risk of AKI in pediatric patients treated with combination of VAN/PTZ. Based on review of available pediatric studies, if the combination of VAN/PTZ is selected as an empirical antibiotic combination, it should be used in those at low risk for AKI and should be used with extreme caution in patients with additional nephrotoxic risks. Systems should be in place to monitor the use of VAN/PTZ and associated renal function in those receiving this antibiotic combination
Bioactivation of Trimethoprim to Protein-Reactive Metabolites in Human Liver Microsomes
The formation of drug-protein adducts via metabolic activation and covalent binding may stimulate an immune response or may result in direct cell toxicity. Protein covalent binding is a potentially pivotal step in the development of idiosyncratic adverse drug reactions (IADRs). Trimethoprim (TMP)-sulfamethoxazole (SMX) is a combination antibiotic that commonly causes IADRs. Recent data suggest that the contribution of the TMP component of TMP-SMX to IADRs may be underappreciated. We previously demonstrated that TMP is bioactivated to chemically reactive intermediates that can be trapped in vitro by N-acetyl cysteine (NAC), and we have detected TMP-NAC adducts (i.e., mercapturic acids) in the urine of patients taking TMP-SMX. However, the occurrence and extent of TMP covalent binding to proteins was unknown. To determine the ability of TMP to form protein adducts, we incubated [14C]TMP with human liver microsomes in the presence and absence of NADPH. We observed protein covalent binding that was NADPH dependent and increased with incubation time and concentration of both protein and TMP. The estimated covalent binding was 0.8 nmol Eq TMP/mg protein, which is comparable to the level of covalent binding for several other drugs that have been associated with covalent binding–induced toxicity and/or IADRs. NAC and selective inhibitors of CYP2B6 and CYP3A4 significantly reduced TMP covalent binding. These results demonstrate for the first time that TMP bioactivation can lead directly to protein adduct formation, suggesting that TMP has been overlooked as a potential contributor of TMP-SMX IADRs
Geometric phase and dimensionality reduction in locomoting living systems
The apparent ease with which animals move requires the coordination of their
many degrees of freedom to manage and properly utilize environmental
interactions. Identifying effective strategies for locomotion has proven
challenging, often requiring detailed models that generalize poorly across
modes of locomotion, body morphologies, and environments. We present the first
biological application of a gauge-theory-based geometric framework for
movement, originally proposed by Wilczek and Shapere nearly years ago, to
describe self-deformation-driven movements through dissipative environments.
Using granular resistive force theory to model environmental forces and
principal components analysis to identify a low-dimensional space of animal
postures and dynamics, we show that our approach captures key features of how a
variety of animals, from undulatory swimmers and slitherers to sidewinding
rattlesnakes, coordinate body movements and leverage environmental interactions
to generate locomotion. Our results demonstrate that this geometric approach is
a powerful and general framework that enables the discovery of effective
control strategies, which could be further augmented by
physiologically-relevant parameters and constraints to provide a deeper
understanding of locomotion in a wide variety of biological systems and
environments
Enhancing Pediatric Adverse Drug Reaction Documentation in the Electronic Medical Record
Adverse drug reactions (ADRs) often go unreported or are inaccurately documented in the electronic medical recorded (EMR), even when they are severe and life-threatening. Incomplete reporting can lead to future prescribing challenges and ADR reoccurrence. The aim of this study was to evaluate the documentation of ADRs within the EMR and determine specific factors associated with appropriate and timely ADR documentation. Retrospective data were collected from a pediatric hospital system ADR reports from October 2010 to November 2018. Data included implicated medication, type, and severity of reaction, treatment location, the presence or absence of ADR documentation in the EMR alert profile within 24 hours of the ADR hospital or clinic encounter discharge, ADR identification method, and the presence or absence of pharmacovigilance oversight at the facility where the ADR was treated. A linear regression model was applied to identify factors contributing to optimal ADR documentation. A total of 3065 ADRs requiring medical care were identified. Of these, 961 ADRs (31%) did not have appropriate documentation added to the EMR alert profile prior to discharge. ADRs were documented in the EMR 87% of the time with the presence of pharmacovigilance oversight and only 61% without prospective pharmacovigilance (P < .01). Severity of ADR was not a predictor of ADR documentation in the EMR, yet the implicated medication and location of treatment did impact reporting. An active pharmacovigilance service significantly improved pediatric ADR documentation. Further work is needed to assure timely, accurate ADR documentation
Risks and mitigation strategies to prevent etoposide infusion-related reactions in children
Etoposide is an antineoplastic agent widely used for treatment of many pediatric cancers. Etoposide has been associated with infusion-related reactions. In this brief report, we compare etoposide infusion-related reactions that occurred over a 10-year period at two freestanding pediatric hospitals. Infusion reactions occurred in 1% of patients at two hospitals across the study period. Rates of 4.8%, 3.4%, and 7.9% were observed at Children's Mercy Hospital during 2018, 2019, and 2020, respectively, after the implementation of in-line filters during etoposide infusions in late 2017. Of the 32 patients who experienced adverse reactions, 41% were rechallenged after the reaction and all were able to tolerate at least one future dose with either pre-treatment or extending infusion duration. This work highlights the importance of a multicenter approach to investigating adverse drug reactions (ADRs) as variation in practice can provide key information about ADRs and potential risk factors
Llama-Derived Single Domain Antibodies Specific for Abrus Agglutinin
Llama derived single domain antibodies (sdAb), the recombinantly expressed variable heavy domains from the unique heavy-chain only antibodies of camelids, were isolated from a library derived from llamas immunized with a commercial abrin toxoid preparation. Abrin is a potent toxin similar to ricin in structure, sequence and mechanism of action. The selected sdAb were evaluated for their ability to bind to commercial abrin as well as abrax (a recombinant abrin A-chain), purified abrin fractions, Abrus agglutinin (a protein related to abrin but with lower toxicity), ricin, and unrelated proteins. Isolated sdAb were also evaluated for their ability to refold after heat denaturation and ability to be used in sandwich assays as both capture and reporter elements. The best binders were specific for the Abrus agglutinin, showing minimal binding to purified abrin fractions or unrelated proteins. These binders had sub nM affinities and regained most of their secondary structure after heating to 95 °C. They functioned well in sandwich assays. Through gel analysis and the behavior of anti-abrin monoclonal antibodies, we determined that the commercial toxoid preparation used for the original immunizations contained a high percentage of Abrus agglutinin, explaining the selection of Abrus agglutinin binders. Used in conjunction with anti-abrin monoclonal and polyclonal antibodies, these reagents can fill a role to discriminate between the highly toxic abrin and the related, but much less toxic, Abrus agglutinin and distinguish between different crude preparations
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