Little is known of the structural changes in mild asthma. We have studied the light and electron microscopic structure of lobar bronchial biopsies taken at fiberoptic bronchoscopy from 11 atopic asthmatics, four of whom were symptomatic and seven of whom were asymptomatic. The former and three of the latter had bronchial hyperresponsiveness to methacholine (PC20 less than 4 mg/ml). Quantitative comparisons were made with biopsies from ten control subjects with normal airway reactivity; five had hay fever and five were nonatopic healthy volunteers. Complete absence of surface epithelium was found in three cases of symptomatic asthma, and stratified squamous epithelium was present in the fourth. A biopsy from one of the healthy control subjects had also lost its surface epithelium. The degree of epithelial loss in all subjects correlated with the degree of airway reactivity (rs = 0.67, p less than 0.001). The reticular lamina of the epithelial basement membrane showed a trend toward thickening in the seven hyperreactive asthmatics (p less than 0.001: median test). There was a tendency to high numbers of inflammatory cells in the lamina propria, but not in the submucosa, of asthmatics, but the differences between groups did not achieve statistical significance. There were significant alterations (px2 less than 0.001) in the proportions of each type of inflammatory cell found in the lamina propria and submucosa of symptomatic asthmatics: an increase of irregularly shaped lymphocytes contributed most to the observed alteration. Where surface epithelium was present, intraepithelial lymphocytes formed the major proportion of intraepithelial "migratory" cells: 64% in normal control subjects, 78% in subjects with hay fever, and 87% in asymptomatic asthmatics.(ABSTRACT TRUNCATED AT 250 WORDS)
We have performed bronchoalveolar lavage (BAL) on 17 subjects with mild atopic asthma (9 symptomatic, 8 asymptomatic) and 14 nonasthmatic control subjects (6 hay fever, 8 nonatopic). There was a significant increase in the percentage of mast cells in both groups of asthmatics although the counts were no different from those previously reported for a number of other respiratory diseases. Asthmatics with airway hyperreactivity (PC20 less than 4 mg/ml) had significant increases in spontaneous histamine release. There was a significant elevation in the eosinophil count and the concentration of major basic protein (MBP) in BAL fluid in the symptomatic asthmatics. Furthermore, there was a significant correlation between the amounts of MBP recovered and the percentage of eosinophils in the BAL. These changes were even more marked when asthmatics with airway hyperreactivity were compared with subjects with normoreactive airways. In addition, there was a significant increase in the percentage of epithelial cells in the hyperreactive asthmatics. There was an inverse correlation between the PC20 and the percentage of mast cells (p less than 0.01), eosinophils (p less than 0.05), and epithelial cells (p less than 0.05) and amount of MBP in BAL (p less than 0.01). This study supports the hypothesis that bronchial hyperresponsiveness is secondary to epithelial cell damage mediated through eosinophil-derived granule products.
We have attempted to identify mRNA for IL-5 in endobronchial mucosal biopsies from asthmatics and controls, using the technique of in situ hybridization. Bronchial biopsies were obtained from 10 asthmatics and 9 nonatopic normal controls. A radio-labeled cRNA probe was prepared from an IL-5 cDNA and hybridized to permeabilized sections. These were washed extensively before processing for autoradiography. An IL-5-producing T cell clone derived from a patient with the hyperIgE syndrome was used as a positive control. As a negative control, sections were also treated with a "sense" IL-5 probe. Specific hybridization signals for IL-5 mRNA were demonstrated within the bronchial mucosa in 6 out ofthe 10 asthmatic subjects. Cells exhibiting hybridization signals were located beneath the epithelial basement membrane. In contrast, there was no hybridization in the control group. No hybridization was observed with the sense probe.The six IL-5 mRNA-positive asthmatics tended to have more severe disease than the negative asthmatics, as assessed by symptoms and lung function, and showed a significant increase in the degree of infiltration of the bronchial mucosa by secreting (EG2+) eosinophils and activated (CD25+) T lymphocytes. Within the subjects who showed positive IL-5 mRNA, there was a correlation between IL-5 mRNA expression and the number of CD25+ and EG2+ cells and total eosinophil count.This study provides evidence for the cellular localization of IL-5 mRNA in the bronchial mucosa of asthmatics and supports the concept that this cytokine regulates eosinophil function in bronchial asthma. (J. Clin. Invest. 1991. 87:1541-1546
Most of the studies linking chronic obstructive pulmonary disease (COPD) with oxidative stress are in vitro, using invasive techniques, or measuring systemic oxidative stress. The aim of this study was to quantify oxidative stress in the lungs in patients with COPD and in healthy smokers, as reflected by 8-isoprostane concentrations in breath condensate. This is a noninvasive method to collect airway secretions. 8-Isoprostane is a prostaglandin-F(2alpha) isomer that is formed in vivo by free radical-catalyzed peroxidation of arachidonic acid. We also studied the acute effect of smoking on exhaled 8-isoprostane in healthy smokers. Exhaled 8-isoprostane was measured by a specific enzyme immunoassay in 10 healthy nonsmokers and 12 smokers, 25 COPD ex-smokers, and 15 COPD current smokers. 8-Isoprostane concentrations were similar in COPD ex-smokers (40 +/- 3.1 pg/ml) and current smokers (45 +/- 3.6 pg/ ml) and were increased about 1.8-fold compared with healthy smokers (24 +/- 2.6 pg/ml, p < 0.001), who had 2.2-fold higher 8-isoprostane than healthy nonsmokers (10.8 +/- 0.8 pg/ml, p < 0.05). Smoking caused an acute increase in exhaled 8-isoprostane by about 50%. Our study shows that free radical production is increased in patients with COPD and that smoking causes an acute increase in oxidative stress.
No abstract
Background: Dose dependent anti-inflammatory effects of inhaled corticosteroids in asthma are difficult to demonstrate in clinical practice. The anti-inflammatory effect of low dose inhaled budesonide on non-invasive exhaled markers of inflammation and oxidative stress were assessed in patients with mild asthma. Methods: 28 patients entered a double blind, placebo controlled, parallel group study and were randomly given either 100 or 400 µg budesonide or placebo once daily, inhaled from a dry powder inhaler (Turbohaler), for 3 weeks followed by 1 week without treatment. Exhaled nitric oxide (NO), exhaled carbon monoxide (CO), nitrite/nitrate, S-nitrosothiols, and 8-isoprostanes in exhaled breath condensate were measured four times during weeks 1 and 4, and once a week during weeks 2 and 3. Results: A dose-dependent speed of onset and cessation of action of budesonide was seen on exhaled NO and asthma symptoms. Treatment with 400 µg/day reduced exhaled NO faster (-2.06 (0.37) ppb/day) than 100 µg/day (-0.51 (0.35) ppb/day; p<0.01). The mean difference between the effect of 100 and 400 µg budesonide was -1.55 ppb/day (95% CI -2.50 to -0.60). Pretreatment NO levels were positively related to the subsequent speed of reduction during the first 3-5 days of treatment. Faster recovery of exhaled NO was seen after stopping treatment with budesonide 400 µg/ day (1.89 (1.43) ppb/day) than 100 µg/day (0.49 (0.34) ppb/day, p<0.01). The mean difference between the effect of 100 and 400 µg budesonide was 1.40 ppb/day (95% CI -0.49 to 2.31). Symptom improvement was dose-dependent, although symptoms returned faster in patients treated with 400 µg/day. A significant reduction in exhaled nitrite/nitrate and S-nitrosothiols after budesonide treatment was not dose-dependent. There were no significant changes in exhaled CO or 8-isoprostanes in breath condensate. Conclusion: Measurement of exhaled NO levels can indicate a dose-dependent onset and cessation of anti-inflammatory action of inhaled corticosteroids in patients with mild asthma.
Bronchoalveolar lavage was used to sample inflammatory cells from the lungs of 51 patients with cryptogenic fibrosing alveolitis (CFA) (24 smokers, 12 ex-smokers, and 15 non-smokers). The smokers with CFA have been compared with 15 smoking control subjects in whom there was no radiographic abnormality or clinical evidence of chronic bronchitis. Significantly lower volumes of lavage fluid were recovered from the smokers with CFA (p < 0 001) and the fluid contained lower percentages of macrophages (p < 0Ol), reflecting increased percentages of eosinophils (p < 000l) and neutrophils (p < 0 01). Similar changes were seen in the ex-smokers and non-smokers. There was also an increase in the percentages of lymphocytes when the whole group of CFA patients was compared with the control subjects (p < 0 05). No significant differences were found when patients with "lone" CFA were compared with those having associated systemic disease. The only feature distinguishing smokers from non-smokers with CFA was the presence of pigmented cytoplasmic inclusions in the macrophages from the smokers (p < 0 001). However, there were lower numbers of pigmented macrophages in the smoking CFA patients by comparison with the control subjects suggesting either a change in phagocytic capacity or turnover rate in this disease. Profiles of differential cell counts in individual patients showed that increases of eosinophils over 30% or neutrophils over 40% or both with lymphocyte counts of less than 11 0% related to a poor clinical response to corticosteroids, but lymphocyte percentages greater than 11°/ , related to improvement (p < 0 05).Earlier studies have shown that the cell populations of bronchoalveolar lavage fluids in normal volunteers are mainly alveolar macrophages with small numbers of lymphocytes
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.