View clinical trials related to Nasal Allergy.
Filter by:Respiratory viral infections cause significant illness, especially in vulnerable individuals and is a topic of immense significance during the current COVID-19 global pandemic. Respiratory diseases such as asthma involve inflammation of the airways and viruses are a major cause of asthma attacks. The nose is easier to access than the lungs but has similar cells and is therefore useful to study immune responses throughout the respiratory tract. Rather than study the effects of a live virus on the immune system, it is possible to give a component or mimic of a virus to simulate an infection in a similar but more straightforward manner, without causing disease. In this study we will use a nasal spray containing a sterile substance called Resiquimod (also called R848) to mimic a viral infection. Resiquimod does not contain any living organisms and therefore there is no possibility of developing a real infection. Resiquimod works by binding to receptors in cells that line the inside of the nose (epithelial cells) as well as cells that can fight infection (immune cells). These cells respond to Resiquimod and cause mild inflammation in the nose, similar to a mild cold. We can then take samples to measure this response and investigate how it differs between individuals. This will help us better understand how the human immune system responds to viruses, and which cells and molecules the body uses to defend itself against infection.
Objective Seasonal allergic rhinitis (SAR) is a common disease in childhood and characterized by type 2 inflammation, bothersome symptoms, and impaired quality of life (QoL). Intranasal corticosteroids are effective medications in managing SAR patients. In addition, mometasone furoate nasal spray (MFNS) is a well-known therapeutic option. However, the literature provided no data about its effects in European children with SAR. Thus this study addressed this unmet need.
The purpose of this study is to see if the recruitment of a certain cell type (the alpha 4 integrin (CD49d) expressing neutrophil) during a nasal allergen challenge can be inhibited by pretreatment with an FDA approved leukotriene antagonist (montelukast).
This study will determine if exposure to an allergy material (ragweed) or exposure to an allergic-symptom-provoking substance (histamine) and medications typically used to decongest the nose changes the rate of blood-flow in the lining of the middle-ear. Otitis media (the build-up of water-like fluid in the middle-ear airspace) may occur if the blood flow in the lining of the middle-ear is too high and may be prevented if a way could be found to lower the blood flow in persons susceptible to the disease. Middle-ear blood flow is measured indirectly by measuring the change in middle-ear pressure while a person breathes a gas mixture containing nitrous oxide ("laughing gas"). In this study, 4 groups of subjects will be entered and middle-ear pressure in persons breathing a mixture of 50% Oxygen, 50% Nitrous Oxide ("laughing gas")will be measured after exposure to one of four substances (ragweed, histamine,an oral decongestant, a decongestant nasal spray) and a fake medication (placebo) at separate test sessions. All subjects will have one set of 2 x-rays of the middle ears and mastoids. The group exposed to ragweed will require 3 study visits while the other 3 groups will have 2 study visits. From this information middle-ear blood flow will be calculated. This will help determine the relationship between what happens in the nose and what happens in the middle ear.