5 Clinical Trials for Various Conditions
The purpose of this study is to find out if omalizumab is effective in treating non-allergic asthma. The US Food and Drug Administration has approved the use of omalizumab to treat moderate to severe allergic asthma.
The overall goal of the Asthma Inflammation Research \[AIR\] Translational Program is to create an integrated multidisciplinary team for the focused purpose of development of diagnostic and prognostic tests informative for airway inflammation, and for the design of innovative, targeted biologic therapeutics. The overarching aims of the AIR program are to conceptualize, develop, and test the next-generation therapeutics, and novel asthma diagnostic and prognostic tools that will allow us to improve the standard of asthma care.
Asthma, a chronic disease which produces significant morbidity and mortality in children, is a significant health problem to a large segment of society. Despite considerable advances in the diagnosis and treatment of asthma over the past several years, a sizeable portion of patients do not respond to the "core" treatments. The investigators are now learning that the underlying pathophysiology of disease is different among patients with asthma therefore; treatments which are beneficial in some patient groups may be not achieve affect in other groups. Antihistamines have been studied in the past for the treatment of asthma. These studies have shown that there may be a beneficial effect of antihistamines in patients with allergic asthma where histamine likely plays a large role in disease and treatment response. However, there is not enough evidence to include these drugs in the standard treatment of asthma. The investigators hypothesize that histamine plays a definable, significant role in disease pathogenesis and treatment response in children with allergic asthma. The investigators plan to test this overall hypothesis through two specific aims. The first aim will characterize the relative contribution of histamine in allergic vs. non-allergic asthma. This aim will be accomplished by comparison of the microvasculature response to histamine in children with allergic asthma and children with non-allergic asthma, measured by histamine iontophoresis with laser Doppler (HILD) monitoring, to determine potential phenotype-associated differences in the pharmacodynamic response to histamine.
This study will investigate the role of dupilumab in the treatment of asthma with comorbid obesity. It is hypothesized that in airway epithelial cells, unique transcriptomic and proteomic expression patterns distinguish allergic and non-allergic patients with asthma and obesity and drive significant differential responses to dupilumab. It is further hypothesized that dupilumab will increase interleukin-13 receptor alpha 2 (IL-13Rα2) levels and/or signaling activity on airway epithelial cells isolated from allergic asthma patients with obesity. This is a pre-clinical research study of dupilumab-induced gene and protein expression analyses in nasal airway epithelial cells of adults with asthma and comorbid obesity. The study primarily seeks to: 1) assess the effect of dupilumab on transcriptomes, phosphoproteomes and secretomes of well-differentiated, primary airway epithelial cells as a function IL-13R subunit expression and IL-13Ra2 signaling, in allergic and non-allergic asthma patients with obesity; and 2) test whether dupilumab-induced gene and protein changes significantly correlate with parameters of airway inflammation in allergic and non-allergic asthma.
This study involves a FDA approved drug, Omalizumab, used in the treatment of moderate to severe allergic asthma that cannot be controlled by standard treatment. It works on IgE to control the allergic reaction. We are looking at the effects on non-allergic asthma. We hope to prove that Omalizumab will have the same effect on non-allergic asthmatics as it does allergic asthmatics.