View clinical trials related to Nasal Congestion.
Filter by:Allergic rhinitis (AR) is a global health problem affecting approximately 10% to 40% of the population worldwide, with an increasing trend. It significantly impacts health and quality of life. Current treatments for AR include allergen avoidance, symptom-relieving medications, anti-inflammatory therapy, and allergen-specific immunotherapy. However, many patients still experience uncontrolled symptoms despite these approaches, either as monotherapy or in combination, along with medication side effects such as drowsiness, dry eyes, nasal mucosal damage, and immunosuppression. Auricular acupressure therapy (AAT) utilizes ear acupoints by applying pressure with ear seeds. The neurobiological mechanisms of AAT on the human body have gained increasing attention in clinical and experimental studies, involving anti-inflammatory, antioxidant, and immunomodulatory effects. Its efficacy has been recognized, becoming a potential alternative therapy for various conditions such as sleep disorders, obesity, and chronic pain. Previous clinical studies have reported the efficacy and safety of AAT in treating AR. However, the primary outcomes of these studies remain inconsistent and lack specific criteria for evaluating AR treatment efficacy. This study aims to investigate the efficacy and safety of AAT in treating AR based on the ARIA guideline 2019 treatment efficacy criteria. It will provide a basis for applying AAT as a complementary approach in the multimodal treatment of AR.
Real world utilization of Acoustic Resonance Therapy for symptoms of Nasal Congestion
Acute viral upper respiratory tract infection, also known as common cold, is the most frequently observed infectious disease in human beings. Although common cold is a self-limiting disease, symptoms such as runny nose, nasal congestion, sneezing, cough, sore throat, are troublesome. Dry nose is characterized by nasal mucosa dryness, itching, mild burning, crusting, and dehydrated mucus. Causes of dry nose sensation include climatic factors, dry room air, workplace conditions, allergic rhinitis, endonasal sinus surgery. Dry nose symptoms occur concurrently and may be the first signs of a common cold infection and rhinitis sicca (also known atrophic rhinitis). Saline nasal sprays are broadly used as first-line treatment to relieve nasal congestion or nasal dryness. Isotonic saline solutions preferentially aim at cleansing and moistening of the nasal mucosa and thus are suitable for treatment of dry nose symptoms. Hypertonic saline solutions are generally used for decongestion of the nasal mucosa. For these reasons, an interventional, non-comparative, single-center Post Marketing Clinical Follow-up (PMCF) study was planned to evaluate the performance and safety of "NASAL SPRAYS" used to relieve nasal congestion and dryness. The objectives of the PMCF study are confirmation of the performance, collection of additional safety data regarding expected adverse events and detection of potential unexpected adverse events associated with the use of "NASAL SPRAYS" according to the instruction for use (IFU). Each pediatric subject whose parent(s)/legal guardian signed an Informed Consent Form (ICF), and each adult subject after signing the ICF, will enter the screening and baseline phase (the 2 visits will coincide) during which baseline procedures will be completed. At baseline visit (V0), one of the "NASAL SPRAYS" will be administered to the enrolled subject. The patient will perform 2 on-site visits: V0 and V2/EOS. To monitor the safety, 1 phone contact is planned (V1) to check for potential adverse events and concomitant medications intake. The first administration and the intervals at which the treatment should be repeated, to be done as per Investigator judgment and according to the IFU, depend on various factors regarding the physiology of the patients (e.g. nasal congestion/ obstruction, sneezing), the age of the patient, and for pediatric subjects, their birth characteristics (e.g. age, prematurity, birthweight).
The study will evaluate the safety and efficacy of the study medical device plus standard of care versus standard of care in subjects between 3 and 48 months (inclusive) presenting symptoms of a common cold.
Self-care and self-medication are commonly the treatments of choice for the management of minor ailments. Minor ailments can be treated through community pharmacy using a Minor Ailment Service (MAS). The INDICA+PRO Impact Study, evaluated the clinical, economic and humanistic impact of a MAS, concluding that community pharmacies could greatly benefit the health system. Thus, the following objectives were defined for the INDICA+PRO implementation study. The primary objective is to implement a standardised MAS in usual practice in community pharmacy in Spain. The secondary objectives include an evaluation of the clinical and economic outcomes and the role and impact of two different models of change agents. A pragmatic study with an effectiveness-implementation hybrid design type 3 will be undertaken using the Framework for the Implementation of Services in Pharmacy (FISpH). The study will be carried between October 2020 and December 2022. Two type of practice change facilitators FaFa and SEFaFa. Their main function, using the Observe-Plan-Do-Study-Act process, will be to facilitate the implementation through individualised continuous support to providers of the MAS. The depth and breadth of support to pharmacist providers by each type of change agents will vary. Pharmaceutical Associations (PA) and/or Spanish Society of Community Pharmacy (SEFAC) will invite community pharmacies/pharmacists. Participating pharmacists will need to sign a commitment form. The second study population will consist of patients presenting with minor ailments or requesting a non-prescription medication. Recruitment of patients will be carried out by the pharmacist providers. The inclusion criteria will be: patients or caregivers (aged ≥18 years, or younger if they are accompanied by an adult) presenting with 31 minor ailments, grouped into five categories (respiratory, moderate pain, digestive, dermatological and other) with pre-agreed referral protocols. Other symptoms may be included at the discretion of the pharmacists. The exclusion criteria will be patients who do not provide informed consent. The patient/pharmacist intervention will consist of a MAS protocol adapted for each symptom. The consultation will be record in an electronic data capture system (SEFAC eXPERT®-) that provides a step-by-step approach with protocols and clinical information embedded. The FISpH model will be used to guide the implementation of MAS. Two types of change agents, FaFas and SeFaFas, previously trained for 18 hours, will be used to facilitate the implementation. During each of the stages (exploration, preparation, testing and operation, and initial sustainability), strategies will be used by FaFas and SeFaFas to moderate implementation factors. The impact of strategies will be evaluated. Data on pharmacy/pharmacist's provider performance and patient outcomes will be provided to pharmacist, change agents and PA and SEFAC. FaFas and SeFaFas will have a classification system for barriers and facilitators derived from the constructs in the Consolidated Framework for Implementation Research (CFIR). The classification system for implementation strategies consists of an adaptation of the facilitation activities listed by Dogherty et al. These will be documented in an electronic data capture system. FaFas will train their pharmacists (max. of 25 pharmacies) for 6 hours and subsequently provide at least monthly follow-up. The research team will provide ongoing feedback and support to the FaFas and SeFaFas through periodically, hold group meetings by video conference between the research group and all the FaFas and SeFaFas. The research group will provide formal reports on the implementation process and patient outcomes. Other forms of communication such as emails, telephone calls or WhatsApp messaging will also be available. Implementation and patient consultation process and outcome variables will be measured such as reach, fidelity and integration. Outcome service indicators will be clinical, economic and humanistic. A patient follow up will occur at a maximum of 10 days. Continuous variables will be reported using mean and standard deviation, or median and percentiles. Categorical variables will be reported using percentages. T Student's test or the ANOVA test or Kruskal-Wallis. χ2 test, Fisher's exact test or Yate's chi-squared will also be used. To determine the relationship between the dependent and the independent variables, logistic regression models will be performed including the variables with statistical significance in the bivariate model. The level of significance will be set at p <0.05. Machine learning and big data techniques are being considered for predictive modelling. The research team will only have access to de-identified data of pharmacists and patients. This study protocol has been approved by the Granada Research Ethics Committee on the 5th February 2020.
The objective of this clinical trial is to evaluate the tolerance and efficacy of two Stérimar nasal sprays products in children who have nasal congestion due to the common cold.
The main objective is to evaluate the efficacy of Azéol Spray Nasal, taken two times a day, versus placebo on nasal congestion in subject with common cold.
The Soniflow System consists of an acoustic vibrational headband paired with a Smartphone App to provide rapid relief of nasal congestion.
According to WHO (World Health Organisation) data, about 40% of patients with COVID-19 (Corona Virus SARS-CoV-2) have a mild course of the disease, namely, cases of mild course are of great danger from the point of view of the spread of infection, since the main source of infection is a sick person. The mild course of COVID-19 is characterized by a number of nonspecific symptoms: fever, cough, sore throat, nasal congestion, malaise, headache, muscle pain. Evidence has emerged of loss of smell as a symptom of COVID-19 infection. Anosmia/hyposmia in the absence of other respiratory diseases, such as allergic rhinitis, acute rhinosinusitis, or chronic rhinosinusitis, are considered as a clinical marker of COVID-19 infection in a pandemic.For people with a mild course of the disease, WHO recommends providing home care, and the recommendations come down to observing a sanitary-hygienic regimen and taking antipyretics if necessary. Unfortunately, the treatment of patients with a mild course is still outside the interest of medical science. In its updated strategy to curb the spread of COVID-19, WHO states the need for diagnosis, effective isolation, and treatment of patients with mild to moderate severity of the clinical course of patients.Currently, there is experience with the use of the drug Imupret for the treatment of nasopharyngitis associated with other viral pathogens, in particular Epstein-Barr virus. It was shown that the use of a Phyto preparation helps to accelerate the regression of symptoms characteristic of nasopharyngitis, as well as accelerate the elimination of the virus from the body. Obviously, the proven activity of Imupret is important in relation to the activation of factors of nonspecific immunity, which is important in confronting viruses, including COVID-19. Another obvious factor that is important for the treatment of viral diseases is the synergism of the active substances in oak bark and walnut leaves with respect to inhibition of reverse transcriptase of a wide range of respiratory viruses, as well as the anti-inflammatory effect of the drug. Confirmation of the therapeutic effect of Imupret for the treatment of nasopharyngitis associated with COVID-19 would allow the development of new therapeutic tools to combat this infection and put into practice updated WHO emphasis on national health systems: it is important to identify, treat and isolate all cases of COVID-19, including cases with mild or moderate severity of the disease.
Allergic rhinitis is defined as the symptoms of sneezing, nasal itching, airflow obstruction, and, mostly, clear nasal discharge caused by IgE-mediated reactions against inhaled allergens and involving mucosal inflammation driven by T cells (Th2) auxiliary type 2. pollens and molds, as well as allergens from perennial interiors, such as dust mites, pets, pests, and some molds. The pattern of dominant allergens depends on the geographic region and degree of urbanization, but the general prevalence of sensitization to allergens does not vary among census districts in the United States. This research proposes to study a separate antihistamine in a nasal spray. It is important to note that this antihistamine is available without prescription (OTC) and has been studied intranasal since the 1950s1