Affiliation:
1. Division of Pulmonary, Critical Care & Sleep Medicine, Department of Internal Medicine, University of Texas Medical Branch, Galveston, Texas
2. Center for Biomedical Engineering, University of Texas Medical Branch, Galveston, Texas
Abstract
Sinus congestion resultant of allergic rhinosinusitis is associated with development and worsening of asthma and can result in difficulty breathing, headaches, and missed days of school and work. Quantification of sinus congestion is important in the understanding of allergic rhinosinusitis and the development of new drugs for its treatment. Noninvasive microcomputed tomography (micro-CT) was investigated in a guinea pig model of allergic rhinosinusitis to determine its utility to determine accurately the degree of sinus congestion and resolution with anti-inflammatory drug administration. Three-dimensional sinus air-space volume, two-dimensional sinus width, sinus image air-space area, and sinus image sinus perimeter were measured in guinea pigs administered ragweed pollen (RWP), intranasally (i.n.), followed by administration of fluticasone, i.n. To determine their relative accuracy in assessing sinus congestion, the micro-CT image results were compared with the “gold-standard” method of sinus fluid fill-volume (SFFV) measurements. As measured by SFFV method, RWP increased sinus congestion in a RWP concentration-dependent fashion, approaching near-total sinus blockage with concentrations ≥22 µg of RWP. At this level of congestion, fluticasone (25–100 µg) progressively decreased sinus congestion in a concentration-dependent fashion. The noninvasive micro-CT methods were found to accurately determine the amount of sinus congestion and resolution, with patterns of increases and decreases of congestion that were nearly identical to the SFFV method. We conclude that noninvasive micro-CT measurements of allergic sinus congestion can be useful as an investigative tool in the assessment of congestion intensity and the development of new drug therapies for its treatment. NEW & NOTEWORTHY Allergic rhinosinusitis afflicts significant portions of the world population, resulting in loss of work productivity and decreased quality of life. Thus the development of methodological approaches, which incorporate accurate and reproducible noninvasive assessments of sinus congestion, are desirable. Microcomputed tomography of the guinea pig sinuses offers a noninvasive evaluation tool in an animal model of IgE-dependent allergy similar to that in humans, with potential relevance toward development of therapeutics for human sinus diseases.
Funder
HHS | NIH | National Institute of Environmental Health Sciences (NIEHS)
UTMB Sealy Center for Environmental Health and Medicine
UTMB Sealy Center for Molecular Medicine
UTMB Institute for Translational Sciences
Brown Foundation (The Brown Foundation, Inc.)
Alcon Research, Ltd.
Forrest Research Institute
Publisher
American Physiological Society
Subject
Physiology (medical),Physiology
Cited by
1 articles.
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