Heat waves elevate risks of airway hypersensitivity that inhaled endogenous ions reduce
David Edwards, Brian Button, Aurelie Edwards, Kian Fan Chung, Hong Dang, Mark Gutay, Nick Griffin, Justin Gerenza, Linying Wang, Hisham Abubakar-Waziri, Deen Bhatta, Dennis Ausiello, Dan Li

TL;DR
Heat waves increase airway hypersensitivity risks, which can be reduced by inhaling alkaline aerosols containing endogenous ions.
Contribution
A novel approach using alkaline aerosols of endogenous ions to reduce cough hypersensitivity during heat waves is proposed.
Findings
Heat waves cause mucosal collapse and airway hypersensitivity, linked to gene expression changes like TRPV4 and CFTR.
Inhaling alkaline (pH > 8) aerosols reduces cough bouts by 34% in chronic cough patients.
Aerosols with pH < 8 had no significant effect on cough frequency.
Abstract
Heat wave burden is rapidly rising relative to pre-industrial levels and exacerbating human respiratory illnesses. Yet, how to protect human airways, short of deep and sustained reductions in greenhouse gas emissions, remains unclear. Here, we find by climate modeling, continuum mechanics analysis, in vitro cell culture models, and human clinical data, that heat waves increase risks of cough hypersensitivity, which can be reduced by alkaline aerosols of endogenous salt ions. We predict that the mouth breathing of indoor and outdoor air during heat waves, by exposing human airways to aridity, causes mucosal collapse onto cilia and inflammatory compression of airway epithelial cells. Using airway lining interface cultures of human bronchial epithelial cells, we find that mucosal collapse alters the expression of genes associated with airway hypersensitivity, including TRPV4, PIEZO1,…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsThermoregulation and physiological responses · Chemical and Physical Studies · Climate Change and Health Impacts
