Advancing cough research: Methodological insights into cough challenge in guinea pig models using double chamber vs whole-body plethysmography.

OBJECTIVE: This study compares two methods of citric acid-induced cough in guinea pigs in whole-body plethysmography (WBP) and double chamber plethysmography (DCP) to evaluate their efficacy. METHODS: Sixteen specific pathogen-free (SPF) and sixteen conventionally-bred (CON) animals were exposed to 0.4 M citric acid aerosol. They underwent cough provocation using both DCP and WBP methods. The number of coughs and latency to the first cough were recorded and analysed using statistical methods to determine significant differences between the two techniques. RESULTS: WBP resulted in significantly higher cough counts (WBP vs. DCP: 13±9 vs 2±3 for SPF; 14±8 vs 5±5 for CON; p<0.0001) and shorter latency (WBP vs. DCP: 59±6 s vs 159±14 s for SPF; 77±4 s vs 112±12 s for CON; p<0.0001) compared to DCP in both groups. CONCLUSION: Methodological differences substantially impact cough responses. WBP provides a more reliable and physiologically relevant methodology for cough assessment, suggesting the need for standardized protocols in cough research to enhance translational relevance.

Influence of combined voltage-gated sodium channel NaV1.7 and NaV1.8 inhibitors on cough in a guinea pig model.

Pathological excessive cough is a serious clinical problem in many patients. It is no doubt that an increased activation and sensitization of airway vagal C-fibres in disease stems from dysregulation of the neural pathways that control cough. Due to the limited efficacy and unwanted side effects of current antitussives, there is a continual demand for the development of a novel more effective antitussive. Since voltage-gated sodium channels (NaVs) are absolutely required for action potentials initiation and conduction irrespective of the stimulus, NaVs became a promising and attractive neural target. Current studies establish that NaV1.7 and NaV1.8 inhibitors have the potential to suppress cough. In this study, we demonstrated that inhaled aerosol of NaV1.7 inhibitor PF-05089771 (10 µM) and NaV1.8 inhibitor A-803467 (1 mM) mixture inhibited the capsaicin-induced cough by ≈ 60 % and citric acid-induced cough by ≈ 65 % at doses that did not modify respiratory rate. Our previous and present studies indicate that NaV1.7 and NaV1.8 may present promising therapeutic targets for antitussive therapy.