The Journal of asthma : official journal of the Association for the Care of Asthma
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Randomized Controlled Trial Comparative Study
Deposition pattern of heliox-driven bronchodilator aerosol in the airways of stable asthmatics.
To compare the deposition patterns of heliox-driven and air-driven radiolabeled bronchodilator aerosol, a prospective randomized study was undertaken at the Ben Taub Hospital in Houston, Texas. The working hypothesis was that nebulization with heliox would improve the peripheral deposition of a bronchodilator aerosol. Twelve mild-moderate known asthmatics were recruited for the study. ⋯ However, the degree of improvement was more with heliox-driven nebulization than with air-driven nebulization. We conclude that aerosol delivery with heliox results in more uniform and peripheral deposition. Thus, this mode of delivery can be used when uniform, peripheral deposition is desired as with drug delivery during an exacerbation or with aerosolized gene therapy.
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Prompt follow-up after emergency department (ED) care for asthma allows the primary care provider (PCP) and family to review factors that led to the ED visit, update current care plans, and plan for prevention of future exacerbations. ⋯ We developed an 18-item measure that assesses Pros and Cons of follow-up care for asthma following emergency care, which has four reliable factors: Pro Practical, Pro Attitude, Con Practical, and Con Attitude. This questionnaire may help guide interventions to change perceptions of the need for follow-up. Attention to increasing Pros among those who are reluctant to attend follow-up care may be especially effective.
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Some patients with asthmatic symptoms and eosinophilic airway inflammation have normal lung function and thus do not meet the current diagnostic criteria of asthma. Exhaled nitric oxide (NO) measurement at multiple exhalation flow rates can be used to assess alveolar and bronchial NO output and inflammation. We tested whether alveolar or bronchial NO output is increased in subjects having asthmatic symptoms but normal lung function. ⋯ Patients with asthma had even higher bronchial NO flux (2.5 +/- 0.3 nL/s, p = 0.024) but normal alveolar NO concentration (1.1 +/- 0.2 ppb, p = 0.664). In asthmatic symptoms group, alveolar NO concentration correlated positively with blood eosinophil count and negatively with small airway function (FEF50% and FEF75%). In conclusion, patients with asthmatic symptoms but normal lung function have increased alveolar NO concentration and mildly elevated bronchial NO flux suggesting a more peripheral inflammation than in patients with asthma.