Fentanyl Disrupts Vagal Control of Airway Tone to Induce Transient Obstruction
Riley R. Parks, Marissa J. Andersen, Mackenna L. Hatfield, Nicholas J. Burgraff

TL;DR
Fentanyl causes airway blockage by boosting vagus nerve activity, which could be reversed by targeting this nerve pathway.
Contribution
The study identifies a central, opioid receptor-mediated mechanism of airway obstruction via enhanced vagal parasympathetic output.
Findings
Fentanyl causes a delay between diaphragm activation and airflow onset, consistent with airway obstruction.
Bilateral vagotomy, atropine, or naloxone reversed fentanyl-induced airway disruption.
Enhanced vagal activity correlated with the severity of airway obstruction.
Abstract
Opioid‐induced respiratory depression (OIRD) is the primary cause of death in opioid overdose, resulting from both suppressed respiratory rhythm and increased airway and thoracic rigidity that compromise ventilation and resuscitation. While the effect(s) of opioids on central rhythm‐generating circuits are well documented, the mechanisms leading to airway obstruction remain poorly understood. Here, we investigated the hypothesis that enhanced vagal parasympathetic output contributes to fentanyl‐induced airway disruption. In urethane‐anesthetized mice, diaphragm electromyography (EMG), respiratory airflow, and vagus nerve activity were recorded in‐vivo before and after intraperitoneal fentanyl administration (500 μg/kg). The effects of bilateral vagotomy, atropine administration, and intracisternal naloxone were evaluated to determine the contribution of vagal pathways and central…
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Taxonomy
TopicsNeuroscience of respiration and sleep · Heart Rate Variability and Autonomic Control · Sleep and Wakefulness Research
