View clinical trials related to Otitis Media.
Filter by:The objective of this study was continued commercial evaluation of the intraoperative safety and performance of the H-TTS for the placement of ventilation tubes in pediatric patients undergoing a tympanostomy procedure under moderate sedation and local anesthetic.
A prospective, single-arm, multicenter study to evaluate effectiveness and safety of Tymbion iontophoresis and tympanostomy tube placement using the Tula Iontophoresis and Tube Delivery Systems for children in an office setting.
The aim of this study is to investigate whether the microbiota in the upper respiratory tract (nasopharynx, adenoids and middle ear fluid) of otitis media with effusion (OME) patients is changed after 4 weeks of probiotic product intake. Therefore, bacterial DNA from swabs, fluid and tissue will be isolated via commercially available DNA extraction kits, followed by Illumina MiSeq sequencing in order to identify the bacterial species present in these samples. Furthermore, the concentration of specific pathogens will be monitored via qPCR.
A prospective, multicenter study to evaluate effectiveness and safety of Tymbion iontophoresis and tympanostomy tube placement using the Tula iontophoresis and tube delivery systems for adults in an office setting. This study cohort is called Group B and includes tube placement. Protocol CPR007003 also included a first study group ('A', without tube placement) that was completed and described in a separate registration (NCT03119181).
The Phase III study is designed to assess the safety, tolerability, and efficacy of Topical Benzocaine in children, ages 5 to 12 years, presenting with Acute Otitis Media-associated ear pain.
This study analyses which bacteria are present in the middle ear space and adjacent upper respiratory tract niches in healthy people and in patients suffering from chronic otitis media with effusion (OME; glue ear). The aim is to identify and isolate bacteria that are more common and more abundant in healthy people and to evaluate their potential to protect against bacteria commonly involved in OME and other upper respiratory tract infections. To this end, samples will be collected from both groups (healthy vs OME) and analysed through sequencing of the bacterial 16S gene. In addition, samples obtained from healthy participants will be cultivated to isolate bacteria of interest.
An e-learning module to teach how to evaluate ears in children was recently designed. The aim of this study is to measure the impact of this e-learning module on the trainees' ability to appropriately diagnose ear infection in clinical setting.
The purpose of this study was to determine whether moderate-severe endpoints (including high fever, lower respiratory tract disease, acute otitis media, or serious extra-pulmonary complications) were predictive of hospitalization, intensive care admission, antibiotic use and other complications in children under 8 years of age.
This is a randomized, controlled trial studying the effects of various antimicrobial treatments on the intestinal microbiome of small children. The participating children with acute otitis media are treated wither with amoxicillin, amoxicillin-clavulanate or without antibiotics. The children with allergy to amoxicillin receive a course of macrolide and they will be monitored as a separate group. The main outcomes of this trial are the changes in the intestinal microbiome after the treatment.
Acute otitis media (AOM), defined as acute inflammation in the middle ear, is a leading cause of health encounters and antimicrobial prescriptions in children worldwide. Diagnosis of AOM is often dependent on a brief view of the tympanic membrane in an uncooperative child's ear canal. As a consequence, AOM may be inappropriately diagnosed when visualization of the tympanic membrane (ear drum) is not optimal. Improved methods for visualizing the tympanic membrane including capturing still images and recording video of the ear exam would be beneficial in the diagnosis and management of otic complaints, including acute and chronic otitis media. Use of a smartphone otoscope has the potential to optimize clinician ability to manage otic complaints, visualize the tympanic membrane, and support antimicrobial stewardship. This study will be conducted as a randomized control study in two affiliated children's hospital emergency departments. Twenty volunteer clinicians will be randomly assigned to use either a smartphone otoscope or a conventional otoscope for all otic examinations for a 6-month period.