Using imaging as a biomarker for asthma

Trivedi, Abhaya; Hall, Chase; Hoffman, Eric A.; Woods, Jason C.; Gierada, David S.; Castro, Mario

doi:10.1016/j.jaci.2016.11.009

Cited by 57 publications

(38 citation statements)

References 77 publications

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“…Previously abnormal spirometry has not been observed as highly discriminatory for different severities of asthma in children [25,29] and our results support this by showing that an abnormal LCI appears more discriminatory (e.g., Table 3: 79% abnormal LCI versus 48% abnormal FEV1% in SAC children). The novel finding of highly abnormal LCI values in children with SA is consistent with recent specialised imaging studies that have described the presence of significant ventilation inhomogeneities with hyperpolarized gas MRI imaging, with the degree of abnormality associated with asthma severity and due to subsegmental narrowing or complete obstruction of small airways [30,31]. Improvements were observed in ACT and lung function parameters before and after BD inhalation, and a reduction in "trapped air" was apparent.…”

Section: Discussionsupporting

confidence: 84%

Clinical and lung function outcomes in a cohort of children with severe asthma

et al. 2020

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Background: Uncontrolled severe asthma in children is burdensome and challenging to manage. This study aims to describe outcomes in children with uncontrolled severe asthma managed in a nurse-led severe asthma clinic (SAC). Methods: This retrospective analysis uses data collected from children referred by a paediatric respiratory specialist to a nurse-led SAC for uncontrolled severe asthma between 2014 and 2019. The pre-clinical assessments included a home visit to assess modifiable factors that could be addressed to improve control. A comprehensive lung function analysis was conducted at each visit. Interventions were personalised and included biologic agents. Statistical analysis was performed using nonparametric, two-tailed Mann-Whitney U-test, the parametric Student's t-test, or analysis of variance (ANOVA) as appropriate. Results: Twenty-three children with a median age of 12 years were seen once, and 16 were followed up. Compared to a non-asthmatic (NA) and asthmatic (A) age-matched cohort, children with severe asthma (SA) had a lower FEV1, and FVC% predicted before and after bronchodilator inhalation, and a higher mean Lung Clearance Index [LCI] (10.5 [SA] versus 7.3 [NA] versus 7.6 [A], p = 0.003). Almost 80% of children with SA had an abnormal LCI, and 48% had a reduced FEV1% at the first SAC visit. Asthma control and FEV1% predicted significantly improved at a follow-up visit, while LCI remained abnormal in the majority of children (83%). Conclusion: Over time, many children with severe asthma showed improved clinical outcomes and lung function while lung ventilation inhomogeneities persisted. Future appropriately controlled studies are required to determine if a nurse-led multidisciplinary SAC is associated with better outcomes.

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Section: Discussionsupporting

confidence: 84%

Clinical and lung function outcomes in a cohort of children with severe asthma

et al. 2020

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“…The topographical distributions of airway narrowing have not been comprehensively quantified from CT images. However, the three-dimensional distributions of airway narrowing and closure, which might represent patterns of inflammation and remodelling might be clinically relevant [24]. Hence, methods to measure the distribution of airway narrowing and closure need to be developed and then correlated with clinical parameters, e.g.…”

Section: Summary Of Understanding Of Asthma Derived From Ct Studiesmentioning

confidence: 99%

“…The physiological information derived from imaging will complement what is contained in spirometry, rather than demonstrating strong correlations to it. Hence, imaging data will potentially characterise patients, to show differences in responses to new and current treatments, prognosis, loss of lung function and other clinically important outcomes beyond what we currently know and how we use type II high biomarkers in clinical practice [24]. For example, ventilation patterns may provide mechanistic insights into treatment responsiveness regardless of inflammatory phenotype; this may be particularly relevant in TABLE 1 Characteristics of computed tomography (CT) and three-dimensional ventilation imaging type II low disease where strategies such as macrolides [5], high fine particle fraction aerosols [25] and bronchial thermoplasty [26][27][28] are used.…”

Section: Introductionmentioning

confidence: 99%

Dismantling the pathophysiology of asthma using imaging

2019

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Asthma remains an important disease worldwide, causing high burden to patients and healthcare systems and presenting a need for better management and ultimately prevention and cure. Asthma is a very heterogeneous condition, with many different pathophysiological processes. Better measurement of those pathophysiological processes are needed to better phenotype disease, and to go beyond the current, highly limited measurements that are currently used: spirometry and symptoms. Sophisticated three-dimensional lung imaging using computed tomography and ventilation imaging (single photon emission computed tomography and positron emission tomography) and magnetic resonance imaging and methods of lung imaging applicable to asthma research are now highly developed. The body of current evidence suggests that abnormalities in structure and ventilatory function measured by imaging are clinically relevant, given their associations with disease severity, exacerbation risk and airflow obstruction. Therefore, lung imaging is ready for more widespread use in clinical trials and to become part of routine clinical assessment of asthma.

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“…These are described in several reviews and perspectives. [73][74][75] In addition, there are research reports of newer imaging techniques using quantitative computed tomography (QCT). QCT estimates airway wall remodeling by measuring airway wall thickness percentage and wall area percentage.…”

Section: Chest Imaging and Other New Assessment Toolsmentioning

confidence: 99%

Advances in asthma in 2017: Mechanisms, biologics, and genetics

Grayson

Feldman

Prince

et al. 2018

Journal of Allergy and Clinical Immunology

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This review summarizes some of the most significant advances in asthma research over the past year. We first focus on novel discoveries in the mechanism of asthma development and exacerbation. This is followed by a discussion of potential new biomarkers, including the use of radiographic markers of disease. Several new biologics have become available to the clinician in the past year, and we summarize these advances and how they can influence the clinical delivery of asthma care. After this, important findings in the genetics of asthma and heterogeneity in phenotypes of the disease are explored, as is the role the environment plays in shaping the development and exacerbation of asthma. Finally, we conclude with a discussion of advances in health literacy and how they will affect asthma care.

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Using imaging as a biomarker for asthma

Cited by 57 publications

References 77 publications

Clinical and lung function outcomes in a cohort of children with severe asthma

Clinical and lung function outcomes in a cohort of children with severe asthma

Dismantling the pathophysiology of asthma using imaging

Advances in asthma in 2017: Mechanisms, biologics, and genetics

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