Inflammatory and chemotactic signals of the brainstem solitary tract mediate the morphine exacerbation of impaired reflex chronotropism in septic rats
Mohamed Abdelnaby, Marwa Y. Sallam, Mai M. Helmy, Hanan M. El-Gowelli, Muddanna S. Rao, Mahmoud M. El-Mas

TL;DR
Morphine worsens heart rate control in septic rats by triggering brainstem inflammation and signaling pathways.
Contribution
This study reveals a novel mechanism by which morphine exacerbates sepsis-related cardiovascular dysfunction.
Findings
Morphine amplifies sepsis-induced bradycardia through opioid receptor-sensitive pathways in the brainstem.
Pharmacological inhibition of specific signaling pathways reduces inflammation and improves heart rate control.
Morphine increases TLR4 and MCP1 protein expression in the brainstem of septic rats.
Abstract
The interplay between opioid analgesics and sepsis in intensive care units (ICUs) is multifaceted, often amplifying immune dysregulation and adversely affecting cardiovascular outcomes. We investigated whether morphine, the prototypical opioid, influences sepsis-induced impairment of arterial baroreceptor function and the accompanying inflammation. Rats were implanted with indwelling catheters in femoral vessels and intracisternal (i.c.) space, and sepsis was induced using the cecal ligation and puncture (CLP) technique. The baroreceptor-mediated control of chronotropic activity was assessed 24 h later in awake rats using the vasoactive method, which relates blood pressure changes caused by i.v. phenylephrine (PE) or sodium nitroprusside (SNP) to respective reciprocal changes in heart rate. The treatment of sham rats with morphine or induction of sepsis led to comparable attenuations…
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Taxonomy
TopicsVagus Nerve Stimulation Research · Heart Rate Variability and Autonomic Control · Neuroscience of respiration and sleep
