Faculty Collaboration Database

Inhibition by enflurane of baroreflex mediated mesenteric venoconstriction in the rabbit ileum. Anesthesiology 1993 May;78(5):928-36

Date

05/01/1993

Pubmed ID

8489065

DOI

10.1097/00000542-199305000-00018

Scopus ID

2-s2.0-0027160129 (requires institutional sign-in at Scopus site)   7 Citations

Abstract

BACKGROUND: Halothane and isoflurane are known to attenuate neurally mediated regulation of mesenteric vein diameter. The current study evaluated the effects of enflurane on baroreflex control of small mesenteric veins.

METHODS: Changes in mesenteric vein diameter, intravenous pressure, mean arterial pressure, and heart rate in response to bilateral carotid occlusion, aortic nerve stimulation, and celiac ganglion stimulation were measured in 23 chloralose-anesthetized rabbits before, during, and after 1% and 2% inhaled enflurane administration. In six other rabbits, sympathetic efferent nerve activity was recorded directly from a postganglionic splanchnic nerve, also during bilateral carotid occlusion and aortic nerve stimulation, before, during, and after inhalation of 1% and 2% enflurane.

RESULTS: Baseline mean arterial pressure and heart rate decreased, and mesenteric vein diameter increased, in response to inhaled enflurane. Reflex venoconstriction and the increases in mean arterial pressure, intravenous pressure, and heart rate, in response to bilateral carotid occlusion, were significantly inhibited at both levels of inhaled enflurane. Decreases in mean arterial pressure and heart rate, and reflex venodilation in response to aortic nerve stimulation, were attenuated by 2%, but not 1%, enflurane. Mesenteric venoconstriction, blood pressure increase, and bradycardia in response to celiac ganglion stimulation were unaffected by 2% inhaled and 5% superfused enflurane. Both 1% and 2% inhaled enflurane attenuated resting and carotid sinus-mediated increases in sympathetic efferent nerve activity.

CONCLUSIONS: These results indicate that enflurane alters splanchnic venous reflexes in large part via the inhibition of sympathetic efferent activity.

Author List

Stadnicka A, Stekiel TA, Bosnjak ZJ, Kampine JP

MESH terms used to index this publication - Major topics in bold

Administration, Inhalation
Animals
Blood Pressure
Electric Stimulation
Enflurane
Ganglia, Sympathetic
Heart Rate
Ileum
Male
Mesenteric Veins
Pressoreceptors
Rabbits
Vasoconstriction