Effects of neuromuscular blocking agents on central respiratory chemosensitivity in newborn rats

Sakuraba, Shigeki; Kuwana, Shun-Ichi; Eriksson, Lars I; Okada, Yasumasa; Ochiai, Ryoichi; Kashiwagi, Masanori; Hatori, Eiki; Lindahl, Sten G. E; Takeda, Junzo

Sakuraba, Shigeki; Kuwana, Shun-Ichi; Eriksson, Lars I; Okada, Yasumasa; Ochiai, Ryoichi; Kashiwagi, Masanori; Hatori, Eiki; Lindahl, Sten G. E; Takeda, Junzo.

Sakuraba, Shigeki; Keio University. School of Medicine. Department of Anesthesiology. Tokyo. JP
Kuwana, Shun-Ichi; Teikyo University. School of Medicine. Department of Physiology. Tokyo. JP
Eriksson, Lars I; Karolinska University Hospital and Institute. Department of Anesthesiology and Intensive Care. Stockholm. SE
Okada, Yasumasa; Keio University Tsukigase Rehabilitation Center. Department of Medicine. Shizuoka. JP
Ochiai, Ryoichi; Keio University. School of Medicine. Department of Anesthesiology. Tokyo. JP
Kashiwagi, Masanori; Keio University. School of Medicine. Department of Anesthesiology. Tokyo. JP
Hatori, Eiki; Keio University. School of Medicine. Department of Anesthesiology. Tokyo. JP
Lindahl, Sten G. E; Karolinska University Hospital and Institute. Department of Anesthesiology and Intensive Care. Stockholm. SE
Takeda, Junzo; Keio University. School of Medicine. Department of Anesthesiology. Tokyo. JP

Biol. Res ; 38(2/3): 225-233, 2005. ilus, tab

Article in English | LILACS | ID: lil-424726

ABSTRACT

ABSTRACT

Neuromuscular blocking agents suppress central respiratory activity through their inhibitory effects on preinspiratory neurons and the synaptic drive from preinspiratory neurons to inspiratory neurons. Central CO2-chemosensitive areas, which partly consist of CO2-excited neurons, in the rostral ventrolateral medulla are thought to provide tonic drive to the central respiratory network and involve cholinergic mechanisms, which led us to hypothesize that neuromuscular blocking agents can inhibit CO2-excited neurons and attenuate respiratory CO2 responsiveness. To test this hypothesis, we used isolated brainstem-spinal cord preparations from newborn rats. The increase of C4 burst frequency induced by a hypercapnic superfusate, i.e. respiratory CO2 responsiveness, was suppressed by the application of neuromuscular blocking agents, either d-tubocurarine (10, 100M) or vecuronium (100M). These agents (40M) also induced hyperpolarization and decreases in firing frequency of CO2-excited neurons in the rostral ventrolateral medulla. Our results demonstrate that neuromuscular blocking agents inhibit CO2-excited tonic firing neurons and attenuate respiratory CO2 responsiveness.

Subject(s)

Animals; Infant, Newborn; Rats; Neuromuscular Blocking Agents/administration & dosage; Neuromuscular Blocking Agents/pharmacology; Respiration; Vecuronium Bromide/administration & dosage; Vecuronium Bromide/pharmacology; Tubocurarine/administration & dosage; Tubocurarine/pharmacology

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Full text: Available Index: LILACS (Americas) Main subject: Respiration / Neuromuscular Blocking Agents Limits: Animals Language: English Journal: Biol. Res Journal subject: Biology Year: 2005 Type: Article Affiliation country: Japan / Sweden Institution/Affiliation country: Karolinska University Hospital and Institute/SE / Keio University Tsukigase Rehabilitation Center/JP / Keio University/JP / Teikyo University/JP

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