Pharyngeal Dysfunction Clinical Trial
Official title:
Is the Opioid-induced Pharyngeal and Esophageal Dysfunction Peripherally or Central Mediated?
The purpose of this study is to evaluate if opioid-induced effects on the pharynx and esophagus is centrally or peripherally mediated.
Opioids induce pharyngeal and esophageal dysfunction and reduce the lower esophageal
sphincter (LES) pressure, and thereby decreases the barrier pressure between the stomach and
esophagus. This contributes to an increased risk of regurgitation and aspiration during
anaesthesia induction and in the postoperative period, when the patient is treated with
opioids for pain relief. The effects of opioid antagonists on the opioid induced pharyngeal
dysfunction and lower esophageal sphincter pressure are unknown. Therefore it is of great
clinical value to evaluate if these negative effects are reversed by peripheral opioid
antagonist, methylnaltrexone.
Methylnaltrexone is one of the newer agents of peripherally acting opioid antagonists that
act to reverse some of the side effects of opioid drugs, such as constipation, without
affecting analgesia.
If the opioid induced pharyngeal and esophageal dysfunction and reduction of the lower
esophageal sphincter pressure is peripherally induced or mediated via peripheral opioid
receptors, methylnaltrexone might reverse these effects and thereby reduce postoperative
morbidity by reducing pulmonary complications. On the other hand, if the dysfunction is
centrally induced and not mediated via peripheral opioid receptors there is no effect of
methylnaltrexone.
The pharyngeal and esophageal motility/function can be registered in an easy and objective
way with the high resolution manometry, ManoScan 360. ManoScan 360 is an equipment with 36
sensors at 1 cm spacing with 12 tip transducers at every sensor. The 36 closely spaced
sensors automatically capture all relevant motor function from the pharynx to the stomach.
The system collects reliable and consistent data records with improved diagnostic accuracy,
and the data are analyzed using ManoView analyzes software. ManoScan 360 has a CE mark
approval and has been used at Örebro University Hospital during the last two years.
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Allocation: Randomized, Endpoint Classification: Pharmacokinetics/Dynamics Study, Intervention Model: Crossover Assignment, Masking: Double Blind (Subject, Caregiver, Investigator), Primary Purpose: Treatment
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| Recruiting |
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Phase 4 | |
| Completed |
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