BEHAVIOR OF INHIBITORY AND EXCITATORY PROPRIOBULBAR RESPIRATORY NEURONS DURING FICTIVE VOMITING

被引：31

作者：

MILLER, AD ^{[1
]}

EZURE, K ^{[1
]}

机构：

[1] TOKYO METROPOLITAN INST NEUROSCI, DEPT NEUROBIOL, FUCHU, TOKYO 183, JAPAN

来源：

BRAIN RESEARCH | 1992年 / 578卷 / 1-2期

关键词：

VENTRAL RESPIRATORY GROUP; BOTZINGER COMPLEX; DECREMENTING INSPIRATORY NEURON; CONSTANT INSPIRATORY NEURON; DECREMENTING EXPIRATORY NEURON; NEUROINHIBITION; NEUROEXCITATION; CENTRAL PATTERN GENERATOR;

D O I：

10.1016/0006-8993(92)90245-5

中图分类号：

Q189 [神经科学];

学科分类号：

071006 ;

摘要：

The behavior of propriobulbar respiratory neurons was studied during fictive vomiting in decerebrate, paralyzed, artificially ventilated cats. Fictive vomiting was identified by a characteristic series of synchronous phrenic and abdominal nerve bursts, induced by electrical stimulation of abdominal vagal afferents and/or i.v. infusion of emetic drugs. Data were obtained from inspiratory neurons having decrementing (I-DEC) or constant (I-CON) discharge patterns and expiratory decrementing (E-DEC) neurons located in the Botzinger complex and adjacent rostral ventral respiratory group. These neurons are known to make excitatory (I-CON) and inhibitory (I-DEC, E-DEC) connections with a variety of medullary respiratory neurons. During fictive vomiting: 8 of 14 I-DEC neurons fired in phase with synchronous bursts of phrenic and abdominal nerve discharge; the other 6 were silent. Of 12 I-CON neurons, 5 fired in phase with phrenic and abdominal bursts; 7 were silent. All (6) E-DEC neurons were either silent or fired weakly between bursts of phrenic and abdominal discharges. The possible roles of I-DEC and I-CON neurons in actively reorganizing the behavior of other respiratory neurons during fictive vomiting are discussed. In particular, the firing of many I-DEC neurons was found to be appropriate to inhibit inspiratory, and two types of expiratory, bulbospinal neurons during fictive vomitting.

引用

页码：168 / 176

页数：9

共 37 条

[1] MORPHOLOGICAL AND PHYSIOLOGICAL-PROPERTIES OF CAUDAL MEDULLARY EXPIRATORY NEURONS OF THE CAT [J].

ARITA, H ;

KOGO, N ;

KOSHIYA, N .

BRAIN RESEARCH, 1987, 401 (02) :258-266

[2] EFFECT OF CARBON-DIOXIDE ON THE TONIC AND THE RHYTHMIC DISCHARGES OF EXPIRATORY BULBOSPINAL NEURONS [J].

BAINTON, CR ;

KIRKWOOD, PA .

JOURNAL OF PHYSIOLOGY-LONDON, 1979, 296 (NOV) :291-314

[3] DISCHARGE OF RESPIRATORY NEURONS IN SNEEZES RESULTING FROM ETHMOIDAL NERVE-STIMULATION [J].

BATSEL, HL ;

LINES, AJ .

EXPERIMENTAL NEUROLOGY, 1978, 58 (03) :410-424

[4]

BIANCHI AL, 1974, J PHYSIOLOGY PARIS, V68, P555

[5] RESPIRATORY NEURONS IN THE REGION OF THE RETROFACIAL NUCLEUS - PONTILE, MEDULLARY, SPINAL AND VAGAL PROJECTIONS [J].

BIANCHI, AL ;

BARILLOT, JC .

NEUROSCIENCE LETTERS, 1982, 31 (03) :277-282

[6] CONVERSE MOTOR OUTPUT OF INSPIRATORY BULBOSPINAL PREMOTONEURONES DURING VOMITING [J].

BIANCHI, AL ;

GRELOT, L .

NEUROSCIENCE LETTERS, 1989, 104 (03) :298-302

[7]

DUFFIN J, 1990, EXP BRAIN RES, V81, P213

[8] FIRING PATTERNS OF BULBAR RESPIRATORY NEURONS DURING SNIFFING IN THE CONSCIOUS, NON-PARALYZED RABBIT [J].

DUPONT, JS .

BRAIN RESEARCH, 1987, 414 (01) :163-168

[9] SYNAPTIC CONNECTIONS BETWEEN MEDULLARY RESPIRATORY NEURONS AND CONSIDERATIONS ON THE GENESIS OF RESPIRATORY RHYTHM [J].

EZURE, K .

PROGRESS IN NEUROBIOLOGY, 1990, 35 (06) :429-450

[10] EXCITATION AND INHIBITION OF MEDULLARY INSPIRATORY NEURONS BY 2 TYPES OF BURST INSPIRATORY NEURONS IN THE CAT [J].

EZURE, K ;

MANABE, M ;

OTAKE, K .

NEUROSCIENCE LETTERS, 1989, 104 (03) :303-308

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