Activation of neurons of zone A5 of the rat brain upon hypoxic and thermonociceptive stimulation and switching off of the central respiratory generator

Pyatin, V. F.; Tatarnikov, V. S.; Glazkova, E. N.

doi:10.1007/s11062-006-0054-6

Cited by 3 publications

(3 citation statements)

References 12 publications

(24 reference statements)

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“…); spontaneous respiration was preserved. Surgery procedures providing access to the ventral surface of the brainstem and also the technique of recording of the arterial pressure and activity from the phrenic nerve were described in detail in our previous publications [14,15].…”

Section: Methodsmentioning

confidence: 99%

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Activity of neurons of the cerebral A5 zone of rat induced by adequate stimulation of muscle afferents: On the control of arterial pressure and respiration during muscle activity

2007

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In experiments on 24 anesthetized rats with preserved spontaneous respiration, we first recorded the volley impulse activity of neurons (n = 30) in the brainstem А5 zone, which was induced by periodical stretchings of the forelimb flexors and hindlimb extensors. The frequency of action potentials in such volleys was, on average, 99.7 ± 19.6 sec -1 . In the course of this kinesthetic stimulation, along with the activation of "proprioceptive" neurons of the А5 zone, we observed transitory drops in the arterial pressure and increases in the frequency and intensity of multineuronal discharges in the phrenic nerve. In these experiments, we first recorded the activity of baroceptive neurons in subpial parts of the А5 zone (n = 4); the frequency of their background impulsation was, on average, 25.1 ± 0.8 sec -1 . This activity in all cases was transitorily suppressed both upon increases of the blood pressure caused by constriction of the carotid arteries or nociceptive tail stimulation, as well as upon stretching of skeletal muscles. Therefore, we first obtained direct proof that neuronal systems of the А5 zone are involved in integration of visceral and somatic proprioceptive afferent influences. We hypothesize that the physiological role of this mechanism of integration of somatic and visceral information at the level of the А5 zone is directed toward lowering of the arterial pressure and intensification of respiration within the period of intensified motor activity. This mechanism is based on the interaction between "proprioceptive," baroceptive, and, perhaps, multiceptive neurons within the А5 zone.

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Section: Methodsmentioning

confidence: 99%

“…The frequency of APs and duration of impulse neuronal reactions to the stimuli were considered analyzed parameters. The technique of recording of the activity of A5 neurons was described earlier [15].…”

Section: Methodsmentioning

confidence: 99%

Activity of neurons of the cerebral A5 zone of rat induced by adequate stimulation of muscle afferents: On the control of arterial pressure and respiration during muscle activity

2007

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“…The integrative properties of the proprioceptive system at the CNS segmental level are manifested by the tonic vibration reflex ( 16 , 17 ) and tendon reflexes ( 6 , 18 ) with recruitment of the maximum number of motor units of skeletal muscles ( 16 , 19 ). At the stem level, proprioceptive interneurons integrate vegetative functions (blood circulation, respiration) ( 20 – 22 ), nociception ( 9 ) and balance ( 23 ) during WBV. The integrative properties of the proprioceptive system at the level of the hypothalamus elicits neuroendocrine responses, and at the level of sensorimotor cortical areas (M1) ( 15 , 24 ) participates in the control of motor activity, improves cognitive function and psychological well-being such as mood ( 25 , 26 ).…”

Section: Introductionmentioning

confidence: 99%

Integrative function of proprioceptive system in the acute effects of whole body vibration on the movement performance in young adults

Maslova,

Shusharina,

Videnin

et al. 2024

Front. Sports Act. Living

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BackgroundThe proprioceptive system coordinates locomotion, but its role in short-term integration and recovery of motor activity in imbalance of motor patterns and body remains debated. The aim of this study is investigating the functional role of proprioceptive system in motor patterns and body balance in healthy young adults.Methods70 participants (aged 20.1 ± 0.3) were divided into experimental groups EG1 (n = 30), EG2 (n = 30), control group (CG, n = 10). EG1 performed single WBV session on Power Plate (7 exercises adapted to Functional Movement Screen (FMS). EG2 performed single session of FMS Exercises (FMSE). CG didn't perform any physical activity. All participants performed pre- and post-session of FMS and stabilometric measurements.ResultsFMS total score in EG1 increased by 2.0 ± 0.2 (p0 < 0.001), this was significantly differed (p0 < 0.001) from EG2 and CG. Acute effects of WBV and FMSE on rate of change and standard deviation (SD) of pressure center (COP) were shown in all groups during Static Test (p0 < 0.01). SD increased (p0 < 0.01) in Given Setting Test in EG1 and EG2, and in Romberg Test (p0 < 0.001) in EG1. Length, width and area (p0 < 0.01) of confidence ellipse, containing 95% of the statokinesiogram points, decreased in Static Test in EG1; width and area (p0 < 0.01) decreased in EG2 group. Significant (p0 < 0.01) decrease in Given Setting Test was in EG1, and significant (p0 < 0.01) increase was in Romberg Test (open eyes) in CG. Maximum amplitude of COP oscillations: significantly (p0 < 0.01) decreasing along X and Y axes in EG1 and EG2, and along Y axis in CG during Static Test; along Y axis (p0 < 0.01) in all groups during Given Setting Test. Significant differences were identified (p0 < 0.01) in calculated energy consumption for COP moving during all stabilometric tests. However, inter-group differences in COP after acute WBV and FMSE sessions have not been identified.ConclusionsAcute WBV session eliminates the deficits in motor patterns which is not the case after acute FMSE session, which, according to our integrative movement tuning hypothesis, is due to high activation of integrative function of proprioceptive system. Efficacy of WBV and FMSE on COP performance indicates a high sensitivity of postural control to different levels of proprioceptive system activity.

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NMDA Receptors of A5 Area in the Regulation of Blood Pressure and Respiratory Activity during Hypoxia in Rats

Pyatin

Tatarnikov

2015

Bull Exp Biol Med

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In narcotized (40 mg/kg sodium ethaminal intraperitoneally) spontaneously breathing albino rats, experimental short-term hypoxia induced BP drop and increased phrenic nerve firing rate. Unilateral microinjection of a selective NMDA receptor blocker ketamine hydrochloride (50 nl; 4 mM) into A5 area did not affect BP and phrenic nerve fi ring rate. However, against the background of preliminary NMDA receptor blockage, hypoxia more markedly stimulated rhythmic activity of the respiratory center and hypotensive response. Unilateral microinjection of a selective blocker of non-NMDA receptors GAMS (50 nl; 4 mM) into A5 area did not change initial BP and phrenic nerve fi ring rate. The studied parameters in rats exposed to hypoxia after blockage of non-NMDA receptors in A5 area did not differ from the control levels. Thus, activity of the respiratory center and BP in rats during hypoxia is regulated by the structures in A5 area and NMDA glutamate receptors.

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Activation of neurons of zone A5 of the rat brain upon hypoxic and thermonociceptive stimulation and switching off of the central respiratory generator

Cited by 3 publications

References 12 publications

Activity of neurons of the cerebral A5 zone of rat induced by adequate stimulation of muscle afferents: On the control of arterial pressure and respiration during muscle activity

Activity of neurons of the cerebral A5 zone of rat induced by adequate stimulation of muscle afferents: On the control of arterial pressure and respiration during muscle activity

Integrative function of proprioceptive system in the acute effects of whole body vibration on the movement performance in young adults

NMDA Receptors of A5 Area in the Regulation of Blood Pressure and Respiratory Activity during Hypoxia in Rats

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