Motion sickness: a cholinomimetic agent hypothesis

Motion sickness has been defined as a set of physiological signs and symptoms produced as a result of prolonged sensory conflict in central nervous system vestibular centers. It has long been noted that the particular pattern of motion sickness signs and symptoms does not fit the conventional "...

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Published in:	Journal of vestibular research Vol. 21; no. 4; p. 209
Main Authors:	Sheehan, Scott E, Oman, Charles M, Duda, Kevin R
Format:	Journal Article
Language:	English
Published:	Netherlands 01-01-2011
Subjects:	Animals Catecholamines - secretion Cholinergic Agents - pharmacology Ganglia, Autonomic - drug effects Humans Models, Neurological Motion Sickness - physiopathology Receptors, Nicotinic - physiology
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Abstract	Motion sickness has been defined as a set of physiological signs and symptoms produced as a result of prolonged sensory conflict in central nervous system vestibular centers. It has long been noted that the particular pattern of motion sickness signs and symptoms does not fit the conventional "fight or flight vs. rest and digest" autonomic synergy. We argue that most of the progression of symptoms is consistent with a new etiologic hypothesis: that an as-yet-unidentified ganglionic cholinomimetic agent is slowly released in proportion to sensory conflict. The agent accumulates systemically and stimulates the peripheral sympathetic and parasympathetic ganglia, the adrenal medulla, and potentiates the response of central cholinergic emetic pathways to the same conflict stimulus. The predominant effects of ganglionic stimulation on each autonomic organ, determined by resting tone, are selectively enhanced or inhibited by adrenal catecholamine release, producing the atypical pattern of autonomic changes seen in motion sickness. The adrenergic response may eventually also counter the central emetic drive. The hypothesis could be experimentally pursued via human and animal experiments employing a nicotinic antagonist that has both central and peripheral ganglionic actions such as mecamylamine.
AbstractList	Motion sickness has been defined as a set of physiological signs and symptoms produced as a result of prolonged sensory conflict in central nervous system vestibular centers. It has long been noted that the particular pattern of motion sickness signs and symptoms does not fit the conventional "fight or flight vs. rest and digest" autonomic synergy. We argue that most of the progression of symptoms is consistent with a new etiologic hypothesis: that an as-yet-unidentified ganglionic cholinomimetic agent is slowly released in proportion to sensory conflict. The agent accumulates systemically and stimulates the peripheral sympathetic and parasympathetic ganglia, the adrenal medulla, and potentiates the response of central cholinergic emetic pathways to the same conflict stimulus. The predominant effects of ganglionic stimulation on each autonomic organ, determined by resting tone, are selectively enhanced or inhibited by adrenal catecholamine release, producing the atypical pattern of autonomic changes seen in motion sickness. The adrenergic response may eventually also counter the central emetic drive. The hypothesis could be experimentally pursued via human and animal experiments employing a nicotinic antagonist that has both central and peripheral ganglionic actions such as mecamylamine.
Author	Duda, Kevin R Sheehan, Scott E Oman, Charles M
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BackLink	https://www.ncbi.nlm.nih.gov/pubmed/21846953$$D View this record in MEDLINE/PubMed
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SubjectTerms	Animals Catecholamines - secretion Cholinergic Agents - pharmacology Ganglia, Autonomic - drug effects Humans Models, Neurological Motion Sickness - physiopathology Receptors, Nicotinic - physiology
Title	Motion sickness: a cholinomimetic agent hypothesis
URI	https://www.ncbi.nlm.nih.gov/pubmed/21846953
Volume	21
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