Peripheral neural modulation of endotoxin-induced hyperventilation

Peripheral neural modulation of endotoxin-induced hyperventilation

OBJECTIVETo delineate the role of the peripheral neural reflexes involved in modulating hyperventilation during endotoxemia. DESIGNA prospective, randomized, controlled, multigroup study. SETTINGResearch animal laboratory. SUBJECTSAdult Sprague-Dawley rats (n = 43; 354 +/- 24 g) of either gender. IN...

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Published in:Critical care medicine Vol. 26; no. 9; pp. 1558 - 1563
Main Authors: Tang, Gau-Jun, Kou, Yu Ru, Lin, You Shuei
Format: Journal Article
Language:English
Published: Hagerstown, MD Williams & Wilkins 01-09-1998
Lippincott
Subjects:
Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy
Animals
Biological and medical sciences
Blood Pressure
Carbon Dioxide - blood
Emergency and intensive care: infection, septic shock
Endotoxemia - chemically induced
Endotoxemia - complications
Endotoxemia - physiopathology
Female
Heart Rate
Hyperventilation - etiology
Hyperventilation - physiopathology
Intensive care medicine
Male
Medical sciences
Oxygen - blood
Peripheral Nervous System - physiopathology
Peripheral Nervous System - surgery
Prospective Studies
Rats
Rats, Sprague-Dawley
Respiration
Time Factors
Reflex
Peripheral nervous system
Animal model
Pathophysiology
Rat
Tachypnea
Septicemia
Rodentia
Endotoxin
Chemoreceptor
Vertebrata
Mammalia
Animal
Vagus nerve
Respiratory control
Hyperventilation
Endotoxemia
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Summary:OBJECTIVETo delineate the role of the peripheral neural reflexes involved in modulating hyperventilation during endotoxemia. DESIGNA prospective, randomized, controlled, multigroup study. SETTINGResearch animal laboratory. SUBJECTSAdult Sprague-Dawley rats (n = 43; 354 +/- 24 g) of either gender. INTERVENTIONSEight rats received a sham operation on their vagus, carotid sinus, and aortic nerves before the administration of a saline vehicle to serve as the time control. In the endotoxin group, 11 rats received a sham operation before endotoxin challenge. The remaining 24 rats received bilateral vagotomy (n = 8), perivagal capsalcin treatment (n = 8), or denervation of peripheral chemoreceptors (n = 8) before endotoxin challenge. After the breathing pattern returned to a steady state, endotoxin (L-4130, serotype 0111, B4 lipopolysaccharide; 50 mg/kg) was injected into the vein. The rat's respiration was then monitored continuously for 5 hrs or until the animal died. MEASUREMENTS AND MAIN RESULTSThe respiratory rate and tidal volume did not change over the 5-hr observation period in the time control group. In the endotoxin group, the respiratory rate increased significantly from baseline (135.4%) 2 hrs after endotoxin challenge and increased persistently until the rats died. The tidal volume increased gradually to <or=to132.8% of baseline 4 hrs after endotoxin challenge. Bilateral cervical vagotomy and perineural capsaicin treatment of the vagus nerves eliminated the tachypnea response to endotoxin injection. Denervation of the peripheral chemoreceptor accentuated the hyperventilation response to endotoxin, and resulted in the shortest survival time. CONCLUSIONSBoth lung vagal C-fiber afferents and peripheral chemoreceptors are involved in modulating the hyperventilation response after endotoxin challenge in rat models. Stimulation of vagal C-fiber afferents increased the respiratory rate. Conversely, the role of peripheral chemoreceptors was to restrain the hyperventilatory response and these receptors may play a protective role during endotoxemia. (Crit Care Med 1998; 26:1558-1563)
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ISSN:0090-3493
1530-0293
DOI:10.1097/00003246-199809000-00024