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In vitro, in silico and in vivo study challenges the impact of bronchial thermoplasty on acute airway smooth muscle mass loss

In vitro, in silico and in vivo study challenges the impact of bronchial thermoplasty on acute airway smooth muscle mass loss
In vitro, in silico and in vivo study challenges the impact of bronchial thermoplasty on acute airway smooth muscle mass loss
Bronchial thermoplasty is a treatment for asthma. It is currently unclear whether its histopathological impact is sufficiently explained by the proportion of airway wall that is exposed to temperatures necessary to affect cell survival. Airway smooth muscle and bronchial epithelial cells were exposed to media (37–70°C) for 10 s to mimic thermoplasty. In silico we developed a mathematical model of airway heat distribution post-thermoplasty. In vivo we determined airway smooth muscle mass and epithelial integrity pre- and post-thermoplasty in 14 patients with severe asthma. In vitro airway smooth muscle and epithelial cell number decreased significantly following the addition of media heated to ≥65°C. In silico simulations showed a heterogeneous heat distribution that was amplified in larger airways, with <10% of the airway wall heated to >60°C in airways with an inner radius of ∼4 mm. In vivo at 6 weeks post-thermoplasty, there was an improvement in asthma control (measured via Asthma Control Questionnaire-6; mean difference 0.7, 95% CI 0.1–1.3; p=0.03), airway smooth muscle mass decreased (absolute median reduction 5%, interquartile range (IQR) 0–10; p=0.03) and epithelial integrity increased (14%, IQR 6–29; p=0.007). Neither of the latter two outcomes was related to improved asthma control. Integrated in vitro and in silico modelling suggest that the reduction in airway smooth muscle post-thermoplasty cannot be fully explained by acute heating, and nor did this reduction confer a greater improvement in asthma control.
0903-1936
Chernyavsky, Igor L.
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Russell, Richard J.
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Saunders, Ruth M.
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Morris, Gavin e.
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Berair, Rachid
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Singapuri, Amisha
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Chachi, Latifa
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Mansur, Adel h.
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Howarth, Peter H.
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Dennison, Patrick
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Chaudhuri, Rekha
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Bicknell, Stephen
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Rose, Felicity R.a.j.
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Siddiqui, Salman
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Brook, Bindi S.
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Brightling, Christopher E.
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Chernyavsky, Igor L.
6842e85d-0bf1-49be-b06e-998e8a526bd1
Russell, Richard J.
49cd605c-70da-42ca-b84d-878c7fa511b7
Saunders, Ruth M.
ba589ba7-7d17-4bdf-93ca-f2c3ae883cd4
Morris, Gavin e.
54e3831d-4df0-4c9b-99d4-2dce520e3593
Berair, Rachid
82cd8a2e-7f28-42c5-acf9-67d98e550497
Singapuri, Amisha
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Chachi, Latifa
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Mansur, Adel h.
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Howarth, Peter H.
ff19c8c4-86b0-4a88-8f76-b3d87f142a21
Dennison, Patrick
30c232e3-c218-4dd8-979f-061ac70513d5
Chaudhuri, Rekha
25061dc1-b61f-40d5-a6b0-40840d701aea
Bicknell, Stephen
c2aa92ff-b320-4592-b715-2711f1e276e8
Rose, Felicity R.a.j.
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Siddiqui, Salman
d14ac91e-dc87-4384-acff-54ee646c05fc
Brook, Bindi S.
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Brightling, Christopher E.
b3f869e5-2e62-4a1f-868c-2de15875f55e

Chernyavsky, Igor L., Russell, Richard J., Saunders, Ruth M., Morris, Gavin e., Berair, Rachid, Singapuri, Amisha, Chachi, Latifa, Mansur, Adel h., Howarth, Peter H., Dennison, Patrick, Chaudhuri, Rekha, Bicknell, Stephen, Rose, Felicity R.a.j., Siddiqui, Salman, Brook, Bindi S. and Brightling, Christopher E. (2018) In vitro, in silico and in vivo study challenges the impact of bronchial thermoplasty on acute airway smooth muscle mass loss. European Respiratory Journal, 51 (5), [1701680]. (doi:10.1183/13993003.01680-2017).

Record type: Article

Abstract

Bronchial thermoplasty is a treatment for asthma. It is currently unclear whether its histopathological impact is sufficiently explained by the proportion of airway wall that is exposed to temperatures necessary to affect cell survival. Airway smooth muscle and bronchial epithelial cells were exposed to media (37–70°C) for 10 s to mimic thermoplasty. In silico we developed a mathematical model of airway heat distribution post-thermoplasty. In vivo we determined airway smooth muscle mass and epithelial integrity pre- and post-thermoplasty in 14 patients with severe asthma. In vitro airway smooth muscle and epithelial cell number decreased significantly following the addition of media heated to ≥65°C. In silico simulations showed a heterogeneous heat distribution that was amplified in larger airways, with <10% of the airway wall heated to >60°C in airways with an inner radius of ∼4 mm. In vivo at 6 weeks post-thermoplasty, there was an improvement in asthma control (measured via Asthma Control Questionnaire-6; mean difference 0.7, 95% CI 0.1–1.3; p=0.03), airway smooth muscle mass decreased (absolute median reduction 5%, interquartile range (IQR) 0–10; p=0.03) and epithelial integrity increased (14%, IQR 6–29; p=0.007). Neither of the latter two outcomes was related to improved asthma control. Integrated in vitro and in silico modelling suggest that the reduction in airway smooth muscle post-thermoplasty cannot be fully explained by acute heating, and nor did this reduction confer a greater improvement in asthma control.

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1701680.full - Version of Record
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Accepted/In Press date: 29 March 2018
e-pub ahead of print date: 24 May 2018
Published date: May 2018

Identifiers

Local EPrints ID: 422038
URI: http://eprints.soton.ac.uk/id/eprint/422038
DOI: doi:10.1183/13993003.01680-2017
ISSN: 0903-1936
PURE UUID: 96da4205-34db-497f-a7d6-fbebe5c3b6b1

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Date deposited: 13 Jul 2018 16:30
Last modified: 15 Mar 2024 20:50

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Contributors

Author: Igor L. Chernyavsky
Author: Richard J. Russell
Author: Ruth M. Saunders
Author: Gavin e. Morris
Author: Rachid Berair
Author: Amisha Singapuri
Author: Latifa Chachi
Author: Adel h. Mansur
Author: Peter H. Howarth
Author: Patrick Dennison
Author: Rekha Chaudhuri
Author: Stephen Bicknell
Author: Felicity R.a.j. Rose
Author: Salman Siddiqui
Author: Bindi S. Brook
Author: Christopher E. Brightling

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