The Nonallergic Asthma of Obesity. A Matter of Distal Lung Compliance

Alalwan, Ali Abdallah; Bates, Jason H. T.; Chapman, David G.; Kaminsky, David A.; DeSarno, Michael; Irvin, Charles G.; Dixon, Anne E.

doi:10.1164/rccm.201401-0178oc

Cited by 145 publications

(142 citation statements)

References 35 publications

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“…Impedance from 5 to 35 Hz (Figures 2A and 2B) was fit with a two-compartment model featuring the compliance of both the peripheral lung and the central airways ( Figure 2C). The individuals with asthma started out before weight loss with larger values of peripheral elastance compared with the control subjects, and weight loss caused peripheral elastance to decrease by 60% in the those with asthma but only by 27% in the control subjects (51). The implication of these findings is that those with LONA obese asthma are distinguished from obese control subjects by having unusually collapsible airways that cause their lung functions to become especially compromised when lung volumes are reduced by obesity.…”

Section: Nature Of Obese Asthmamentioning

confidence: 90%

“…This being the case, that which distinguishes those with LONA obese asthma and those with EOS obese asthma may be the way in which they respond to reduced lung volume. We recently uncovered a clue as to what this might be by measuring respiratory system impedance in individuals with LONA obese asthma and obese control subjects both before and after major weight loss achieved through bariatric surgery (51). Impedance from 5 to 35 Hz (Figures 2A and 2B) was fit with a two-compartment model featuring the compliance of both the peripheral lung and the central airways ( Figure 2C).…”

Section: Nature Of Obese Asthmamentioning

confidence: 99%

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Physiological Mechanisms of Airway Hyperresponsiveness in Obese Asthma

Bates

2016

Am J Respir Cell Mol Biol

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Obesity affects the incidence and severity of asthma in at least two major phenotypes: an early-onset allergic (EOA) form that is complicated by obesity and a late-onset nonallergic (LONA) form that occurs only in the setting of obesity. Both groups exhibit airway hyperresponsiveness to methacholine challenge but exhibit differential effects of weight loss. Measurements of lung function in patients with LONA obese asthma suggest that this group of individuals may simply be those unlucky enough to have airways that are more compliant than average, and that this leads to airway hyperresponsiveness at the reduced lung volumes caused by excess adipose tissue around the chest wall. In contrast, the frequent exacerbations in those with EOA obese asthma can potentially be explained by episodic inflammatory thickening of the airway wall synergizing with obesity-induced reductions in lung volume. These testable hypotheses are based on the strong likelihood that LONA and EOA obese asthma are distinct diseases. Both, however, may benefit from targeted therapeutics that impose elevations in lung volume.

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Section: Nature Of Obese Asthmamentioning

confidence: 90%

Section: Nature Of Obese Asthmamentioning

confidence: 99%

Physiological Mechanisms of Airway Hyperresponsiveness in Obese Asthma

Bates

2016

Am J Respir Cell Mol Biol

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“…49,50 Decreased lung volumes increase airway reactivity, 51 perhaps through effects on airway smooth muscle. 52 The tendency toward early airway closure may also manifest during bronchoconstriction 53,54 and contribute to the increased dyspnea symptoms reported by obese asthmatics in comparison to their lean counterparts. We have found that obese asthmatics tend to have a less compliant lung periphery, which improves with weight loss.…”

Section: -45mentioning

confidence: 99%

“…We have found that obese asthmatics tend to have a less compliant lung periphery, which improves with weight loss. 54 The cause of this stiff periphery is not known, but could be related to airway closure, as sensitivity to airway closure decreases with weight loss. 55 Changes in lung function with decreased lung volumes and increased airway closure likely contribute significantly to the development of poorly controlled asthma in obesity.…”

Section: -45mentioning

confidence: 99%

“…A significant improvement was observed in individuals in the intervention group in lung function (FEV 1 , FVC), symptoms, morbidity, and health status. 54 Bafadhel et al examined 151 adults with severe asthma in an one-year observational study. After 12 months, 23% of the patients had lost weight (an average of 2.8 kg), and a significant correlation was observed between weight loss and increased FEV 1 , whereas no significant association was found between weight change and self-reported asthma control and exacerbations.…”

Section: Evidence That Weight Loss Improves Asthma Controlmentioning

confidence: 99%

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The Asthma–Obesity Epidemic

Dixon¹

2015

Primary Prevention Insights

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Obesity is a risk factor for the development of asthma. Understanding this link between obesity and asthma has major public health implications for developing strategies to prevent the development of asthma and to guide the management of such patients. Obese patients with asthma experience poor asthma control, worse asthma-specific quality of life, and limited response to corticosteroids. This review provides a succinct summary of the current body of literature on the epidemiological relationship between asthma and obesity, the different phenotypes of asthma in obesity, and data on the efficacy of weight loss and discusses the potential role of primary prevention efforts for the current asthma epidemic.

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