View clinical trials related to Pharyngitis.
Filter by:The aim of this multicentre, actively controlled, randomized, open label, parallel group, prospective, comparator study is to collect data on the clinical effectiveness and tolerability of the medical device ERS09 compared to a well-established comparator spray in the symptomatic treatment of sore throat due to acute pharyngitis and dry cough.
How tube size affect patient's experience of postoperative sore throat and hoarseness
Aim of this study is to investigate safety and efficacy of A. Vogel Sore throat lozenges for the treatment of of acute sore throats
Precise description of the technique for intubation or laryngeal mask placement during general anesthesia Research on factors that can influence sore throat due to the placement of an endobuccal or endotracheal device during general anesthesia
This study aims to compare effects of two different agents on complications due to tracheal tube cuff in pediatric patients. Sore throat, hoarseness, laryngospasm, bronchospasm are the main complications.
Sore throat is the second most common cause of antibiotic prescribing in primary care in Sweden. Guidelines for sore throat focus on identifying people with sore throat where there are 3 and 4 specified criteria and where near patient tests identify group A streptococci (GAS). In these cases, phenoxymethylpenicillin is recommended. Studies that have identified microorganisms in sore throat show that there are other bacteria and viruses than GAS, that give similar symptoms and that sometimes no microorganism is trapped despite pronounced symptoms. In recent years, a bacterium F. necrophorum has been identified, which is found in increased incidence of sore throat, but it is also found in healthy individuals. In clinical practice, many patients are treated with penicillin even if GAS is not captured. This may be because the doctor perceives the patient as sick or because other bacteria are not caught with a near patient test which causes the doctor to treat anyway. The specific aims are to in patients with GAS-negative sore throat and 3 and 4 criteria, aged 15 years and older in primary care, study whether phenoxymethylpenicillin treatment shortens the duration of the disease, reduces the symptom intensity and sickness absence, and investigates the importance of other microorganisms than GAS in sore throat. The study is a randomized controlled trial in which patients with sore throat are randomized to phenoxymethylpenicillin 3 times daily for 10 days or to no antibiotic therapy. There will also be and a reference group with severe (Centor score 3-4), GAS-positive acute tonsillitis. Blood samples for inflammatory and immunological response to infections are taken. Throat samples for culture of F. necrophorum and streptococcal groups C and G, as well as polymerase chain reaction (PCR) analysis for bacteria and viruses are also taken at inclusion and at follow-up. The outcome will be followed in a patient diary for 10 days and at a return visit after 18-24 days where the clinical outcome is asked for and where the blood- and throat samples are repeated. Follow-up will also takes place via e-mail after 1 and 3 months.
Background: Acute pharyngitis (AP) is a common presentation to the Emergency Department (ED). Most AP patients' who present to the ED are interested in relief their sore throat (pain). There are different approaches available in the literature to control AP pain. Studies have shown that the use of systemic glucocorticoids significantly decreases patients' sore throat. Up to our knowledge, there are no available trials looking at the role of nebulized glucocorticoids in treating infective AP. Aim: Our aim is to investigate in pediatrics and adults population ≥5 years presenting to ED with AP if the use of a single dose of nebulized glucocorticoids as an adjunct to standard AP treatment, compared with placebo leads to complete resolution or improvement in symptoms. Method: The investigators are planning to conduct a multi-center, double-blind randomized control trial. There will be three arms; first arm: nebulized Budesonide, second arm: nebulized Dexamethasone and third arm: placebo nebulized Normal Saline (NS). The patients will be followed up for 7 days through phone calls to assess the primary and secondary outcomes. Our primary objective is to investigate whether the use of a single dose of nebulized glucocorticoids compared with placebo leads to significant improvement or complete resolution of the sore throat within 24hrs. Our secondary objectives are to assess if a single dose of glucocorticoids will: reduce sore throat at 48 hours, reduce absence from work or school, reduce the incidence of hospital admission, and reduce the rate of re-attendance to ED. Since there is no available data about the effect of nebulized glucocorticoids in AP, the appropriate sample size will be calculated after running a pilot study. The data will be recorded in the EpiData@ software. Then the data will be analyzed using the SPSS@ software. The ethical approval was sought from the ethical committee in each participating hospital and they approved it. Results: The result of this study will be presented in local conferences as well in international conferences. The investigators will aim to publish the study in a well-known international emergency medicine journal. Clinical application: up to our knowledge this study is the first study worldwide looking at the effect of nebulized glucocorticoids in patients with infective acute pharyngitis. As mentioned earlier that there are multiple approaches available in the literature to control sore throat pain and if our hypothesis turned to be correct then another alternative treatment can be added. The investigators believe that the use of topical route to administer glucocorticoids is more convenient for physicians and have less chance to develop adverse effect in comparison to systemic steroids.
This study was performed in children with upper respiratory tract infections (acute ear infection, infection of the tonsils or throat, or bacterial inflammation of the bronchi) who needed treatment with an antibiotic (clarithromycin). The study investigated a new technology which delivers the antibiotic in a straw (dose sipping technology, DST) in comparison to a marketed syrup.
our study aimed to evaluate the effect of nebulized lidocaine to decrease the incidence of cough and sore throat after extubation after surgeries requiring endotracheal intubation.
The primary objective of this study is to assess the effect of preoperative administration of oral Strepsils® with added Lignocaine lozenges on the incidence of postoperative sore throat (POST) after general anaesthesia using a Supraglottic Airway Device (SAD). Patients undergoing surgery with general anaesthesia will require ventilation of their lungs with either a flexible tube placed beyond the voice box called an endotracheal tube (ETT) or a tube placed above the voice box called a Supraglottic Airway Device. This tube helps oxygenate the patient and delivers anaesthetic gas to the lungs. The procedure is invasive and uncomfortable, and one of the most common complaints is a sore and inflamed throat after the tube is taken out. This is termed postoperative sore throat (POST). The incidence of POST after SAD is comparable with the ETT and though many studies have focused on ETT, few have examined the SAD. After written informed consent is received in pre-op, a sealed and coded envelope with either the Strepsils lozenges or the placebo lozenges will be given to the patient to be administered orally, with the instruction to dissolve the lozenge by sucking on it 45 minutes prior to surgery. Upon completion of surgery and emergence from general anaesthesia, the patient will be assessed regarding the incidence and severity of sore throat, difficulty in swallowing and difficulty in speaking by the investigator using an interview format. The severity of these symptoms will be graded on a 4-point scale ranging from 0 to 3; 0 being no symptoms, 1 being mild symptoms, 2 being moderate symptoms, and 3 being severe symptoms. This evaluation will be performed at 30 minutes and 24 hours post removal of SAD.