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Visual influences on vestibulospinal reflexes during vertical linear motion in normal and hemilabyrinthectomized monkeys (1981)

Lacour, M. ; Vidal, P. P. ; Xerri, C.

Springer

Experimental brain research 43 (1981), S. 383-394

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ISSN: 1432-1106

Keywords: Vision ; Vestibular system ; Monkey ; Fall ; EMG ; Compensation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In the present investigation, we have analysed the visually induced modulations of muscular responses during falls at different rates of acceleration and performed in five different visual conditions: Normal vision (NV), Darkness (D), Stabilized vision (SV), with visual motion cues being enhanced (EV), or reduced (RV). This study was conducted on normal and hemilabyrinthectomized baboons. EMG activities were recorded in the alert monkey from three pairs of muscles (splenius capitis, soleus and tibialis anterior). For testing, the monkey was seated in a special chair unexpectedly dropped by 0.9 m. Five peaks of maximum acceleration were used (8.8, 6.6, 4.4, 3.3, 2.2 m/s2). Conditions EV, SV and RV were tested by way of a projector, the input of which consisted of the integral of vertical acceleration and output, the output of which controlled film motion. In the normal baboon the visually induced modu-lation of EMG responses in the SV, EV, and RV conditions was larger for slow falls than for fast ones. This modulation was direction-specific, at least for slow falls, and depended on the relative speed of the visual scene. Between certain limits, the energy of the responses was roughly proportional to the relative speed of the visual scene. These modifications were most accentuated in the splenius and soleus muscles. Condition D only produced a slight reduction of the EMG response. All these findings eliminate the possibility that the observed effects represent a startle response. Thus, we can conclude that there is a fast directional role of vision in postural control in the normal falling baboon. In the hemilabyrinthectomized animal, greater modulations were recorded only when the visual manipulations were performed during the first two postoperative weeks. This confirms the above results on the normal baboon and previous data on the role of vision in the recovery process.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00238381

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Compensation of postural reactions to free-fall in the vestibular neurectomized monkey (1980)

Lacour, M. ; Xerri, C.

Springer

Experimental brain research 40 (1980), S. 103-110

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ISSN: 1432-1106

Keywords: Vestibular neurectomy ; Compensation ; Vision ; Free fall ; EMG ; Monkey

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In previous studies a contribution of vision to vestibular-dependent muscle responses during free-fall was found in the intact monkey, and the role of remaining labyrinthine afferents in compensation of these postural reactions was studied in vestibular neurectomized monkeys. In the present investigation we have compared the role of visual motion cues in the recovery of muscle responses to fall in unilateral (U.N.) and bilateral vestibular neurectomized (B.N.) baboons. During free-fall, electromyographic (EMG) responses were recorded from splenius capitis, soleus and tibialis anterior muscles. EMG activities were recorded in two randomly presented conditions: with normal motion of the visual world (NV) and with the visual world stabilized with respect to the baboon's head (SV) until 6 weeks after surgery. In B.N. baboons, results showed that condition SV was accompanied by a very strong motor depression during the entire test period. A greater decrease was observed in the splenius and soleus muscles. In U.N. baboons, significantly depressed EMG responses were recorded in the SV condition during the first two stages of compensation only (0–2 weeks), in all tested muscles except the tibialis anterior muscle. On the other hand, these motor depressions appeared to depend upon the level of neuronal resting activity in the vestibular nuclei. It is inferred that the partial recovery of muscle responses to fall observed in B.N. baboons in the NV condition is mainly due to visual information concerning motion, which replaces to the labyrinthine afferents. In U.N. baboons, the visual motion cues would fulfil only a transitory substitution function by supplying the decrease of neuronal activity in the vestibular nuclei. Later on, full compensation would be carried out by means of the remaining labyrinth.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00236668

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Contribution of vision to muscle responses in monkey during free-fall: Visual stabilization decreases vestibular-dependent responses (1979)

Vidal, P. P. ; Lacour, M. ; Berthoz, A.

Springer

Experimental brain research 37 (1979), S. 241-252

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ISSN: 1432-1106

Keywords: Vision ; Vestibular system ; Monkey ; Free fall

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In a previous study the muscle responses from the lower limbs were studied in the Baboon (Papio-Papio) during sudden falls. On the other hand, recent findings concerning the role of vision in the control of posture during rapid perturbations in man have stimulated the present investigation. EMG activities were recorded from the fully conscious animal using chronic electrodes implanted in various muscles (splenius, quadriceps femoris, soleus, and tibialis anterior). For testing, the monkey was seated in a special chair suspended from an electromagnet and unexpectedly dropped 90 cm. EMG responses were recorded in three randomly presented conditions: with normal motion of visual world (N), with visual world stabilized with respect to the head (S) using a box covered inside by a black and white checkboard pattern surrounding the animal's head, and in total darkness (D). Results showed that condition S is accompanied in all tested muscles by a significant decrease in the EMG response; this effect is particularly evident in the interval 60–120 ms but may occur earlier. Condition D is in most of the cases accompanied by a less important decrease which is situated between condition N and condition S. These results are in contrast to previous conclusions of other authors which negated the role of vision in similar situations.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237711

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