Chemical and electrical stimulation induce rhythmic motor activity in an in vitro preparation of the spinal cord from adult turtles

1998 ◽  
Vol 245 (1) ◽  
pp. 5-8 ◽  
Author(s):  
Pierre A Guertin ◽  
Jorn Hounsgaard
Keyword(s):  
Spinal Cord ◽  
Electrical Stimulation ◽  
Motor Activity ◽  
Rhythmic Motor

Effects of inhibitory amino acid antagonists on reciprocal inhibitory interactions during rhythmic motor activity in the in vitro neonatal rat spinal cord

1995 ◽  
Vol 74 (3) ◽  
pp. 1109-1117 ◽  
Author(s):  
K. C. Cowley ◽  
B. J. Schmidt
Keyword(s):  
Spinal Cord ◽  
Motor Activity ◽  
Receptor Agonist ◽  
Gabab Receptor ◽  
Glycine Receptor ◽  
Rhythmic Activity ◽  
Neonatal Rat ◽  
Rat Spinal Cord ◽  
Rhythmic Motor

1. The role of inhibitory amino acid transmission in the coordination and generation of rhythmic motor activity was examined with the use of an in vitro neonatal rat spinal cord preparation. Before adding gamma-aminobutyric acid (GABA) or glycine receptor agonists and antagonists, rhythmic motor activity was induced by bath application of acetylcholine (ACh), N-methyl-D,L-aspartate (NMA), or serotonin (5-HT) while monitoring bilateral ankle flexor and extensor electroneurograms (ENGs). The timing of rhythmic flexor and extensor discharge was consistent with that seen during overground locomotion in 27% of 84 bath applications of these substances (n = 65 preparations). 2. Subsequent addition of the GABAA receptor agonist muscimol, the GABAB receptor agonist baclofen, or glycine, abolished rhythmic activity in 95% of the tested applications. 3. GABAB receptor blockade did not disrupt alternating patterns of ENG discharge. However, addition of the GABAA receptor antagonist bicuculline, or the glycine receptor antagonist strychnine, transformed alternating flexor-extensor and left-right activity into patterns characterized by bilaterally synchronous rhythmic activation of all hindlimb ENGs. The onset of individual ENG bursts was more abrupt following bicuculline or strychnine. Strychnine also synchronized high-frequency (4-8 Hz) packets of rhythmic discharge within ENG bursts. 4. Some preparations developed synchronous, but unstable, rhythmic activity in the presence of bicuculline or strychnine alone. However, NMA, 5-HT, or ACh was usually required in addition to these antagonists to promote sustained rhythmic activity.(ABSTRACT TRUNCATED AT 250 WORDS)

scholarly journals Depolarization and electrical stimulation enhance in vitro and in vivo sensory axon growth after spinal cord injury

2018 ◽  
Vol 300 ◽  
pp. 247-258 ◽  
Author(s):  
Ioana Goganau ◽  
Beatrice Sandner ◽  
Norbert Weidner ◽  
Karim Fouad ◽  
Armin Blesch
Keyword(s):  
Spinal Cord ◽  
Spinal Cord Injury ◽  
Electrical Stimulation ◽  
Axon Growth ◽  
Sensory Axon ◽  
Cord Injury

scholarly journals Fictive Rhythmic Motor Patterns Induced by NMDA in an In Vitro Brain Stem–Spinal Cord Preparation From an Adult Urodele

1999 ◽  
Vol 82 (2) ◽  
pp. 1074-1077 ◽  
Author(s):  
Isabelle Delvolvé ◽  
Pascal Branchereau ◽  
Réjean Dubuc ◽  
Jean-Marie Cabelguen
Keyword(s):  
Spinal Cord ◽  
Brain Stem ◽  
Rhythm Generation ◽  
Motor Patterns ◽  
Rhythmic Motor ◽  
Bath Application ◽  
The Neural Networks ◽  
Ventral Roots ◽  
Pleurodeles Waltl

An in vitro brain stem–spinal cord preparation from an adult urodele ( Pleurodeles waltl) was developed in which two fictive rhythmic motor patterns were evoked by bath application of N-methyl-d-aspartate (NMDA; 2.5–10 μM) with d-serine (10 μM). Both motor patterns displayed left-right alternation. The first pattern was characterized by cycle periods ranging between 2.4 and 9.0 s (4.9 ± 1.2 s, mean ± SD) and a rostrocaudal propagation of the activity in consecutive ventral roots. The second pattern displayed longer cycle periods (8.1–28.3 s; 14.2 ± 3.6 s) with a caudorostral propagation. The two patterns were inducible after a spinal transection at the first segment. Preliminary experiments on small pieces of spinal cord further suggested that the ability for rhythm generation is distributed along the spinal cord of this preparation. This study shows that the in vitro brain stem–spinal cord preparation from Pleurodeles waltl may be a useful model to study the mechanisms underlying the different axial motor patterns and the flexibility of the neural networks involved.

Micturition reflexes in the in vitro neonatal rat brain stem-spinal cord-bladder preparation

1994 ◽  
Vol 266 (3) ◽  
pp. R658-R667 ◽  
Author(s):  
K. Sugaya ◽  
W. C. De Groat
Keyword(s):  
Spinal Cord ◽  
Electrical Stimulation ◽  
Brain Stem ◽  
Rat Brain ◽  
Bladder Wall ◽  
Spinal Reflex ◽  
Neonatal Rat ◽  
Evoked Contractions ◽  
Stimulation Of

An in vitro neonatal (1-7 day) rat brain stem-spinal cord-bladder (BSB) preparation was used to examine the central control of micturition. Isovolumetric bladder contractions occurred spontaneously or were induced by electrical stimulation of the ventrolateral brain stem, spinal cord, bladder wall (ES-BW), or by perineal tactile stimulation (PS). Transection of the spinal cord at the L1 segment increased the amplitude of ES-BW- and PS-evoked contractions, and subsequent removal of the spinal cord further increased spontaneous and ES-BW-evoked contractions but abolished PS-evoked contractions. Hexamethonium (1 mM), a ganglionic blocking agent, mimicked the effect of cord extirpation. Tetrodotoxin (1 microM) blocked ES-BW- and PS-evoked contractions but enhanced spontaneous contractions. Bicuculline methiodide (10-50 microM), a gamma-aminobutyric acid A receptor antagonist, increased the amplitude of spontaneous, ES-BW- and PS-evoked contractions. These results indicate that PS-evoked contractions are mediated by spinal reflex pathways, whereas spontaneous and ES-BW-evoked contractions that are elicited by peripheral mechanisms are subject to a tonic inhibition dependent on an efferent outflow from the spinal cord. PS-evoked micturition is also subject to inhibitory modulation arising from sites rostral to the lumbosacral spinal cord. Although electrical stimulation of bulbospinal excitatory pathways can initiate bladder contractions in the neonatal rat, these pathways do not appear to have an important role in controlling micturition during the first postnatal week.

Nuclear Fos immunoreactivity in guinea pig myenteric neurons following activation of motor activity

1997 ◽  
Vol 273 (2) ◽  
pp. G498-G507 ◽  
Author(s):  
R. C. Ritter ◽  
M. Costa ◽  
S. H. Brookes
Keyword(s):  
Electrical Stimulation ◽  
Guinea Pig ◽  
Motor Activity ◽  
Muscle Tone ◽  
Smooth Muscle Contraction ◽  
Early Gene ◽  
Enteric Neurons ◽  
Experimental Conditions ◽  
Fos Expression

To identify enteric neurons activated during intestinal motor activity, we examined myenteric plexus of guinea pig small intestinal segments for expression of the immediate early gene product, Fos. Fos immunoreactivity was detected immunohistochemically following in vitro manipulations, which included distension, electrical stimulation, exposure to forskolin, and peristalsis. All of these manipulations induced neuronal Fos expression, which was prevented by tetrodotoxin, indicating that expression depended on nerve activity. Distension-induced Fos expression was blocked by omega-conotoxin and significantly reduced by hexamethonium, indicating that neurons expressing Fos immunoreactivity were activated synaptically. Blocking smooth muscle contraction with nicardipine reduced expression of neuronal Fos, suggesting that muscle tone influences neuronal activity. Calbindin-immunoreactive putative sensory neurons did not express Fos during distension, peristalsis, or exposure to forskolin and expressed Fos only weakly after strong electrical stimulation. Conversely, calretinin-immunoreactive ascending excitatory interneurons and longitudinal muscle motoneurons exhibited Fos immunoreactivity after all experimental manipulations. These results indicate that Fos expression can, with some caution, be used to identify classes of enteric neurons activated by different stimuli under various experimental conditions.

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