View clinical trials related to Pediatric Infectious Disease.
Filter by:Tuberculosis (TB) diagnosis in children is challenging in low and middle-income countries where access to TB culture and X-ray is limited. More than half cases of childhood TB remain undiagnosed every year. A delay in TB diagnosis can lead to an increase in preventable morbidity and mortality. This study aims to provide evidence on the diagnostic accuracy of Xpert MTB/RIF Ultra in stools and urine for TB diagnosis in children.
Artificial airways, such as endotracheal tubes and tracheostomies, in the pediatric and neonatal intensive care units (PICU, NICU respectively) are lifesaving for patients in respiratory failure, among other conditions. These devices are not without a risk of infection - ventilator-associated infections (VAIs), namely ventilator associated pneumonia (VAP) and ventilator-associated tracheitis (VAT), are common. Treatment of suspected VAI accounts for nearly half of all Pediatric Intensive Care Unit (PICU) antibiotic use. VAI can represent a continuum from tracheal colonization, progression to tracheobronchial inflammation, and then pneumonia. Colonization of these airways is common and bacterial growth does not necessarily indicate a clinically significant infection. Tracheostomies, which are artificial airways meant for chronic use, are routinely exchanged on a semi-monthly to monthly basis, in part to disrupt bacterial biofilm formation that aids bacterial colonization and perhaps infection. When patients with tracheostomies are admitted for acute on chronic respiratory failure or a concern for an infection, these artificial airways are also routinely exchanged at some institutions. There however remains a critical need to understand how an artificial airway exchange alters the bacterial environment of these patients in sickness and in health. This research hypothesizes that exchanging an artificial airway will alter the microbiome of the artificial airway, by altering the microbial diversity and relative abundance of different bacterial species of the artificial airway. This study will involve the prospective collection of tracheal aspirates from patients with artificial airways. We will screen and enroll all patients admitted to a the NICU or PICU at Cohen Children's Medical Center (CCMC) who have tracheostomies and obtain tracheal aspirates within 72 hours before and after tracheostomy or endotracheal tube exchange. Tracheal aspirates are routinely obtained in the NICU and PICU from suctioning of an artificial airway and is a minimal risk activity. These samples will be brought to the Feinstein Institutes for Medical Research for 16 s ribosomal DNA (16srDNA) sequencing, which allows for accurate and sensitive detection of relative abundance and classification of bacterial flora. Tracheal aspirate sets will be analyzed against each other. Additionally, clinical and epidemiological data from the electronic medical record will be obtained. Antibiotic exposure will be accounted for via previously published means.
Detection of the role of Complete Blood Count (CBC) parameters in early diagnosis of pediatric pneumonia -Testing the ability of Complete Blood Count (CBC) parameters (N/L ratio, PLT /MPV ratio, MPV and other parameters) to differentiate between viral and bacterial pneumonia.
This study aims to improve care and reduce unnecessary antibiotic prescribing for children with ear infections. The study will compare the effectiveness of a "gold standard" to a hybrid intervention combined with this gold standard, in order to identify steps to increase parent satisfaction for child ear infection care. The "gold standard" approach is a Health System Level Intervention. On its own, it involves clinician education, tools in electronic medical records, and audit and feedback reports for clinician prescribing habits. The hybrid intervention includes the elements of the health systems level intervention in addition to a Shared Decision-Making component, which allows for both an increase in the role parents play in their child's care, as well as clinician education for how to use this method. The goals of this work are to increase parent satisfaction, reduce antibiotics taken for childhood ear infections, align medical care with the current national guidelines, and evaluate differences in the two intervention groups. Both groups will be evaluated for implementation outcomes to improve dissemination and scalability for future use of these models in antibiotic prescribing for children with ear infections. This study will recruit a diverse group of patients and clinicians to complete surveys, parents to participate in focus groups, and clinicians and administrators to be interviewed in order to meet study aims and receive sufficient feedback on the interventions performed. There are two hypotheses for this research: 1. The Hybrid Intervention will have higher parent satisfaction and reduced antibiotic use compared to the Health-System Level Intervention and 2. The Hybrid Intervention will be more challenging to implement than the Health-System Level Intervention, but will be preferred by parents, clinicians, and administrators.
The overarching goal of this study is to evaluate the effectiveness and implementation outcomes of two low-cost interventions of different intensities to increase prescribing of recommended short antibiotic durations for acute otitis media (AOM) for children 2 years of age and older. A multi-center cluster randomized controlled trial using a hybrid type 2 implementation effectiveness design will be used to evaluate interventions. The High-Intensity intervention will include clinician education, individualized clinician audit and feedback with peer comparison, and electronic health record (EHR) changes of prescription fields, whereas the Low-Intensity intervention will include clinician education and EHR changes. In total, 46 community-based clinics and/or urgent care centers across two distinct geographic regions in the United States will be randomized to one of the two interventions. The Practical Robust Implementation and Sustainability Model (PRISM) will be used to guide implementation and the Reach Effectiveness Adoption Implementation Maintenance (RE-AIM) framework will be used to evaluate outcomes. A mixed-methods approach will be used in the pre-implementation and evaluation phases and will utilize quantitative analyses, semi-structured interviews, focus groups, surveys, and cost analyses. National stakeholders at the American Academy of Pediatrics and the Centers for Disease Control and Prevention will assist with dissemination of findings and scaling of interventions.
Rationale: Overuse of antibiotics globally is leading to increasing rates of antibiotic resistance and may lead to a 'post-antibiotic' era. Case fatality rates for pneumonia in children remain high in Central Asia and there is a lack of knowledge of which viruses and bacteria cause the disease. Antibiotic resistance patterns of common bacteria remain largely unknown in Central Asia which makes it challenging for clinicians to choose the right antibiotic to treat children with suspected bacterial pneumonia and sometimes healthcare workers overuse an antibacterial therapy even when the child does not need it. Randomised trials of using CRP point of care test (POCT) to guide antibiotic prescription for respiratory tract infections has been successful in lowering unnecessary antibiotic prescriptions in adults in high income countries but left a small concern for safety in the form of possibly slightly increased risk of hospitalisation in the CRP group. Objective: This study seeks to gain evidence on whether use of C-reactive protein point-of-care test can safely decrease prescription of antibiotics for children under 12 with acute respiratory symptoms in primary level healthcare centres in Kyrgyzstan. Study design: Multicentre, open-label, individual randomised controlled clinical trial with 14 days blinded follow-up in rural Chui and Naryn regions of Kyrgyz Republic. Healthcare workers from ten selected healthcare centres will be trained in the CRP POCT and in interpreting the results in the field. Study population: Children aged from 6 month to 12 years attending the primary level healthcare centres during normal business hours with acute respiratory symptoms. Main study parameters: The proportion of patients in the two groups prescribed an antibiotic within 14 days of index consultation; length of disease, antibiotics given at index consultation, admissions and vital status. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: Risks, inconvenience and burden associated with participating in this observational study are low. As part of the inclusion children in the CRP cluster group will have a finger-prick test performed. This may be unpleasant and course transient discomfort but poses no risks to the child. Follow-up will be three short phone calls day 3, 7 and 14 after inclusion. Risks includes possible undertreatment of serious disease, however previous studies have not found safety issues with CRP testing in children. There is no direct benefit to participants, but side effects and non-necessary medications are likely minimised.
Urinary tract infections (UTI) are commonly encountered in children, with 7% diagnosed with at least one UTI by the age of 19 years. The evidence for treatment of uncomplicated UTI is clear; oral antibiotics are as good as intravenous (IV) antibiotics, usually for a total of 7 days. Complicated UTIs (cUTIs) on the other hand, are common reasons for hospital admissions for IV antibiotics and constitute a major burden for healthcare systems. There is considerable variation in care for children who present with UTI and have complicating features such as vomiting, dehydration, urological abnormalities or have a previous history of UTI. Australian and international guidelines lack clear, evidence-based recommendations to guide treatment in this group. Without gold standard evidence, these children will continue to receive unnecessary IV antibiotics, longer hospital stays and poorer health outcomes. This multicentre, non-inferiority randomised trial will investigate if One dose - single dose of IV followed by 2 days oral antibiotics is as non-inferior to Three doses for children with UTI and co-existing complicating factors presenting to the Emergency Department (ED). In other words, this study will compare if a single dose of IV antibiotics plus two days oral antibiotics is as clinically effective as 3 doses antibiotics in resolving UTI symptoms at 72 hours after the first dose of IV antibiotics, for complicated UTIs in children presenting to the ED. All participants will receive a total of 7 days of antibiotics for the complicated urinary tract infection. If 1 dose IV and 2 days oral antibiotics is found to be as good as 3 days, the duration of IV antibiotics for complicated UTI can be reduced along with avoidance of the inherent risks of unnecessary hospital admission by administering a single IV dose in an outpatient/ED setting. On the other hand if a single IV dose results in prolonged symptoms or treatment failure, this will inform practice for the proportion of children who have a single dose of IV antibiotics in the ED and are sent home on oral antibiotics. Regardless of the outcome, this trial will inform clinical practice for complicated UTI to improve health outcomes for this group.
Next Generation Sequencing is capable of sequencing millions of small strands of DNA from a single blood sample, potentially improving its sensitivity compared to PCR testing, which only detects predetermined larger strands of DNA. We will test the ability of NGS to detect Borrelia burgdorferi DNA in the blood of pediatric patients with Lyme disease. We will conduct an observational study of NGS testing on pediatric patients at all stages of Lyme disease. Study involvement will require a single study visit for clinical data collection and blood draw. We will enroll patients at all phases of suspected Lyme disease, collect clinically relevant information, and test for Lyme disease using Next Generation Sequencing and standard Lyme serologic testing. If the patient has multiple erythema migrans, Lyme meningitis, facial nerve palsy, arthritis, or carditis, a B. burgdorferi serum PCR will also be sent. Enrollment and Next Generation Sequencing blood draw will occur before or up to 24 hours after the first dose of antibiotics is administered. We will also study the impact of antibiotics on NGS testing by running the test 6-24 hours after antibiotics are started among a small subset of patients with a multiple erythema migrans rash. Collected data will be analyzed with basic descriptive statistics.