Cough Clinical Trial
Official title:
A Functional Magnetic Resonance Imaging Study to Investigate ATP-sensitive Cough Neural Pathways in Patients With Chronic Cough Hypersensitivity
Persistent cough is a distressing symptom for people with respiratory disorders. Patients also often experience an ongoing urge-to-cough that prompts coughing, and which fails to resolve the sensation. Understanding how the brain controls cough and the urge-to-cough could lead to new cough suppressing therapies. The overall objective of this project is to use functional brain imaging (fMRI) to identify brain regions that are involved in the exaggerated urge-to-cough in humans with chronic cough. Our focus will be on the brainstem where information from the airways first arrives in the central nervous system.
Peripheral effects of ATP via P2X3 receptors ATP has been shown to be a tussive agent particularly on chronic cough patients who were more sensitive than non-cough subjects to inhaled ATP. ATP has been shown to augment the cough response to capsaicin in patients with asthma. Gefapixant at a single oral dose of 50 mg did not modulate capsaicin cough responses in normal volunteers and chronic cough subjects while inhibiting ATP-induced cough particularly in chronic cough subjects. These observations would suggest that ATP has a direct effect on a subset sensory neurons that evoke coughing through the activation of P2X3 receptors. The use of fMRI to provide insights into the peripheral and central sites of activation by ATP/P2X3 activation We have generated functional brain imaging (fMRI) data to suggest that the different brain circuits in receipt of nodose and jugular ganglia neuron inputs (as identified in animal studies) are conserved in humans. When inhaled, the tussigenic compound capsaicin (from hot chili peppers) indiscriminately stimulates both nodose and jugular chemosensitive afferents and we have published that capsaicin inhalation produces brain activations in the primary sensory, anterior and mid-insula, cingulate, premotor, motor and orbitofrontal cortices. These regions are presumed to encode perceptual awareness of airway irritation, and the associated emotional, cognitive and behavioral (motor) consequences. For example, activity in the human primary sensory cortex (which receives jugular ganglia inputs in animal studies) correlates with an individual's perception of airway irritation (their perceived need/ urge to cough) while activity in the insula (in receipt of nodose inputs) relates closely to the actual magnitude of the delivered stimulus independent of perception. We have now built upon these published findings by using high resolution brainstem fMRI during the inhalation of ATP (expected to only activate P2X2/3 expressing nodose-derived airway afferents) versus capsaicin (expected to activate both jugular and nodose chemosensitive afferents). Our results are striking and reveal that ATP inhalation evokes an in increased signal level in the brainstem regions corresponding to the nTS, while capsaicin inhalation produces activations in both the nTS and in an area of the dorsal spinal trigeminal nucleus on the lateral margins of the brainstem that contains the paratrigeminal nucleus. Indeed, our healthy participants did not cough as much to ATP compared to capsaicin, consistent with studies cough in animals and humans and the relatively poor cough-evoking properties of ATP in healthy humans. However, the perception of airway irritation was identical between ATP and capsaicin stimuli. We believe that cough production will ultimately be dependent upon activation of the neural circuit that integrates in the paratrigeminal nucleus (i.e.' the jugular afferent pathway) and therefore we hypothesize that there is an upregulation of the capacity of ATP to act via jugular ganglia pathways in chronic cough patients. The fMRI studies described above provide an exciting opportunity to assess for the first time which primary airway afferent pathways are likely excited or sensitized by ATP and, in turn, what aspects of the central processing of airway sensory information is altered by ATP. We have reported previously that patients with chronic cough display functional brain responses consistent with a state of central sensitization that closely resembles the central sensitization accompanying chronic pain. We will extend upon these findings by determining whether ATP-sensitive pathways in the brainstem and brain are altered in patients with chronic cough, and in doing so provide insight into whether ATP effects vagal afferent processing through an interaction with nodose and/ or jugular neural pathways. ;
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