OBJECTIVES: To assess the association between airway wall area and clinical asthma control, assessed by the Asthma Control Test (ACT). METHODS: This cross-sectional study evaluated 96 adults for asthma control ["at least well controlled" (ACT ≥ 20; n = 52) or "not well controlled" (ACT < 20; n = 44) and airway dimensions: luminal area (LA), wall area (WA) and WA%], obtained using automated dedicated software measurements from volumetric CT images. Results were analysed for segmental bronchi, subsegmental bronchi in the right upper lobe and basilar segments, both uncorrected and corrected for body surface area (BSA). RESULTS: For all bronchi corrected for BSA, there was no correlation between airway wall area and ACT score. There was a weak but statistically significant correlation between uncorrected WA and ACT score (r = -0.203; P = 0.047); WA values were numerically higher in the "not well-controlled" versus the "at least well-controlled asthma" subgroups. For sub-segmental bronchi, there was a correlation between the ACT score and both WA/BSA (r = -0.204; P = 0.047) and WA (r = -0.249; P = 0.014), and for upper lobe bronchi, between the ACT score and WA (r = -0.207; P = 0.044). CONCLUSION: We demonstrated a correlation between subsegmental bronchial airway measurements and clinical control of asthma; this is probably a reflection of airway remodelling and structural changes in chronic poorly controlled asthma. KEY POINTS: • Volumetric computed tomography offers new insights into bronchial morphology. • The relationship between current asthma control and airway wall abnormalities is assessed. • Some relationships between airway wall area and clinical control were demonstrated. • We observed less shape variation of bronchi in "not well-controlled" asthma patients.
OBJECTIVES: To assess the association between airway wall area and clinical asthma control, assessed by the Asthma Control Test (ACT). METHODS: This cross-sectional study evaluated 96 adults for asthma control ["at least well controlled" (ACT ≥ 20; n = 52) or "not well controlled" (ACT < 20; n = 44) and airway dimensions: luminal area (LA), wall area (WA) and WA%], obtained using automated dedicated software measurements from volumetric CT images. Results were analysed for segmental bronchi, subsegmental bronchi in the right upper lobe and basilar segments, both uncorrected and corrected for body surface area (BSA). RESULTS: For all bronchi corrected for BSA, there was no correlation between airway wall area and ACT score. There was a weak but statistically significant correlation between uncorrected WA and ACT score (r = -0.203; P = 0.047); WA values were numerically higher in the "not well-controlled" versus the "at least well-controlled asthma" subgroups. For sub-segmental bronchi, there was a correlation between the ACT score and both WA/BSA (r = -0.204; P = 0.047) and WA (r = -0.249; P = 0.014), and for upper lobe bronchi, between the ACT score and WA (r = -0.207; P = 0.044). CONCLUSION: We demonstrated a correlation between subsegmental bronchial airway measurements and clinical control of asthma; this is probably a reflection of airway remodelling and structural changes in chronic poorly controlled asthma. KEY POINTS: • Volumetric computed tomography offers new insights into bronchial morphology. • The relationship between current asthma control and airway wall abnormalities is assessed. • Some relationships between airway wall area and clinical control were demonstrated. • We observed less shape variation of bronchi in "not well-controlled" asthma patients.
Authors: P Y Brillet; C I Fetita; C Beigelman-Aubry; A Saragaglia; D Perchet; F Preteux; P A Grenier Journal: Eur Radiol Date: 2006-11-18 Impact factor: 5.315
Authors: Antonio M Vignola; Franco Mirabella; Giorgio Costanzo; Rossana Di Giorgi; Mark Gjomarkaj; Vincenzo Bellia; Giovanni Bonsignore Journal: Chest Date: 2003-03 Impact factor: 9.410
Authors: Eric D Bateman; Homer A Boushey; Jean Bousquet; William W Busse; Tim J H Clark; Romain A Pauwels; Søren E Pedersen Journal: Am J Respir Crit Care Med Date: 2004-07-15 Impact factor: 21.405
Authors: Sumit Gupta; Salman Siddiqui; Pranab Haldar; James J Entwisle; Dean Mawby; Andrew J Wardlaw; Peter Bradding; Ian D Pavord; Ruth H Green; Christopher E Brightling Journal: Thorax Date: 2010-09 Impact factor: 9.139
Authors: Ashley Busacker; John D Newell; Thomas Keefe; Eric A Hoffman; Janice Cook Granroth; Mario Castro; Sean Fain; Sally Wenzel Journal: Chest Date: 2008-08-08 Impact factor: 9.410
Authors: Abhaya Trivedi; Chase Hall; Eric A Hoffman; Jason C Woods; David S Gierada; Mario Castro Journal: J Allergy Clin Immunol Date: 2017-01 Impact factor: 10.793
Authors: Stefano Guerra; Enrico Lombardi; Debra A Stern; Duane L Sherrill; Dorothy Gilbertson-Dahdal; Courtney M Wheatley-Guy; Eric M Snyder; Anne L Wright; Fernando D Martinez; Wayne J Morgan Journal: Am J Respir Crit Care Med Date: 2020-12-15 Impact factor: 21.405