Allergology International (Jan 2022)

A clinical and canine experimental study in small-airway response to bronchial thermoplasty: Role of the neuronal effect

  • Yu-Long Luo,
  • Yan-Qiuzi Cheng,
  • Zi-Qing Zhou,
  • Ming-Yue Fan,
  • Di-Fei Chen,
  • Yu Chen,
  • Xiao-Bo Chen,
  • Chang-Hao Zhong,
  • Chun-Li Tang,
  • Shi-Yue Li,
  • Zhu-Quan Su

Journal volume & issue
Vol. 71, no. 1
pp. 66 – 72

Abstract

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Background: The effects of bronchial thermoplasty (BT) on smooth muscle (SM) and nerves in small airways are unclear. Methods: We recruited 15 patients with severe refractory asthma, who received BT treatment. Endobronchial optical-coherence tomography (EB-OCT) was performed at baseline, 3 weeks' follow-up and 2 years' follow-up to evaluate the effect of BT on airway structure. In addition, we divided 12 healthy beagles into a sham group and a BT group, the latter receiving BT on large airways (inner diameter >3 mm) of the lower lobe. The dogs’ lung lobes were resected to evaluate histological and neuronal changes of the treated large airways and untreated small airways 12 weeks after BT. Results: Patients receiving BT treatment had significant improvement in Asthma Control Questionnaire (ACQ) scores and significant reduction in asthma exacerbations. EB-OCT results demonstrated a notable increase in inner-airway area (Ai) and decrease in airway wall area percentage (Aw%) in both large (3rd-to 6th-generation) and small (7th-to 9th-generation) airways. Furthermore, the animal study showed a significant reduction in the amount of SM in BT-treated large airways but not in untreated small airways. Protein gene product 9.5 (PGP9.5)–positive nerves and muscarinic receptor 3 (M3 receptor) expression in large and small airways were both markedly decreased throughout the airway wall 12 weeks after BT treatment. Conclusions: BT significantly reduced nerves, but not SM, in small airways, which might shed light on the mechanism of lung denervation by BT.

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