Sacral dorsal horn neurone activity during micturition in the cat
Autor: | S. J. Shefchyk, Robert R. Buss |
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Rok vydání: | 2003 |
Předmět: |
Male
Physiology media_common.quotation_subject Urinary Bladder Sensation Urination Distension Inhibitory postsynaptic potential Pons Animals Periaqueductal Gray Medicine media_common Decerebrate State Sacrococcygeal Region business.industry Depolarization Original Articles Anatomy Commissure Electric Stimulation Posterior Horn Cells medicine.anatomical_structure nervous system Cats Reflex Excitatory postsynaptic potential Sphincter Female Stress Mechanical business Neuroscience |
Zdroj: | The Journal of Physiology. 551:387-396 |
ISSN: | 0022-3751 |
DOI: | 10.1113/jphysiol.2003.041996 |
Popis: | The excitability of two groups of neurones located in different parts of the sacral spinal cord were examined during micturition in decerebrate adult cats. One group of cells, characterized by their activation by pudendal cutaneous afferents, was located in the dorsal commissure of the first and second sacral spinal segments. The second group, located in the dorsal horn of the first sacral spinal segment, was excited by group II muscle and cutaneous afferents. Micturition was evoked by distension of the urinary bladder or by electrical stimulation of the pontine micturition centre. Tonic firing was induced in the neurones by ejection of DL-homocysteic acid from the recording extracellular micropipette. The instantaneous firing frequency of 11/17 sacral dorsal grey commissure neurones was decreased from 7 to 100 % during micturition, and on average was about half of the prevoid firing frequency. It is hypothesized that these sacral neurones are interposed in polysynaptic excitatory pathways from sacral perineal afferents to sphincter motoneurones and that they are subject to direct postsynaptic inhibition during micturition. One other cell showed no change in firing during micturition, two displayed complex patterns of modulation, while 3/17 of the dorsal grey commissure neurones increased their firing rate 30 to 1000 % during micturition. It is hypothesized that the excited neurones may be part of the inhibitory pathways mediating postsynaptic inhibition of sphincter motoneurones or sacral primary afferent depolarization during micturition. Alternatively, they may be part of the excitatory urethral-bladder reflex circuitry. A small (5-15 %) but significant decrease in firing was observed in 4/5 of the group II rostral sacral neurones examined; the firing of a fifth neurone was unchanged. The depression of group II neurones may serve to suppress unwanted hindlimb reflexes that could disrupt micturition. |
Databáze: | OpenAIRE |
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