Differential effects of kainic acid lesions in medullary raphe on cough and sneeze in anesthetized rabbits

Differential effects of kainic acid lesions in medullary raphe on cough and sneeze in anesthetized rabbits

The effects of microinjections of the excitatory neurotoxin kainic acid (2 mg/ml; 49 ± 1 nl) on the mechanically induced tracheobronchial cough, sneeze, and solitary expulsions from the trachea were examined in 11 anesthetized rabbits. Kainic acid was injected into the medulla (1.6-2.8 mm rostral to...

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Bibliographic Details
Published in:Advances in experimental medicine and biology Vol. 788; p. 39
Main Authors: Simera, M, Poliacek, I, Veternik, M, Dobrolubov, B, Cibulka, M, Barani, H, Visnovcova, N, Jakus, J
Format: Journal Article
Language:English
Published: United States 01-01-2013
Subjects:
Animals
Blood Pressure - drug effects
Cough
Diaphragm - drug effects
Electromyography
Esophagus - drug effects
Female
Kainic Acid - pharmacology
Male
Medulla Oblongata - drug effects
Medulla Oblongata - pathology
Neurotoxins
Rabbits
Raphe Nuclei - drug effects
Raphe Nuclei - pathology
Reflex - drug effects
Sneezing
Time Factors
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Summary:The effects of microinjections of the excitatory neurotoxin kainic acid (2 mg/ml; 49 ± 1 nl) on the mechanically induced tracheobronchial cough, sneeze, and solitary expulsions from the trachea were examined in 11 anesthetized rabbits. Kainic acid was injected into the medulla (1.6-2.8 mm rostral to the obex, 1.4-1.6 and 2.9-3.2 mm below the dorsal medullary surface). Blood pressure, esophageal pressure (EP), and electromyograms (EMGs) of the diaphragm (DIA) and abdominal muscles (ABD) were recorded. Kainic acid reduced the number of coughs (means ± SE) from 3.8 ± 2.0 to 0.9 ± 0.7 (p = 0.016), the amplitude of DIA cough from 90 ± 11 to 42 ± 13 % (p = 0.004), ABD EMG moving average from 103 ± 9 to 37 ± 15 % (p = 0.006), and inspiratory from 0.67 ± 0.13 to 0.36 ± 0.12 kPa (p = 0.013) and expiratory EP from 1.70 ± 0.54 to 0.89 ± 0.46 kPa (p = 0.008). Kainic acid had no effect on the number of sneeze reflexes nor did it affect solitary expulsions from the trachea. These effects were accompanied by significant increases in systemic blood pressure and respiratory rate. Spatiotemporal analysis of the cough and sneeze reflexes revealed increases in the duration of cough active expiratory phase, in the intervals between maxima of DIA and ABD EMG discharges, and in the active portion of total cough phase duration. Our findings suggest a diverse role of raphe neurons in the central control of motor airway responses such as coughing and sneezing. A complex function of raphe neurons in the generation of the cough motor pattern also is suggested.
ISSN:0065-2598
DOI:10.1007/978-94-007-6627-3_6