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Single unit activity in the nucleus of the basal optic root (nBOR) during optokinetic, vestibular and visuo-vestibular stimulations in the alert pigeon (Columbia livia) (1984)

Gioanni, H. ; Rey, J. ; Villalobos, J. ; [et al.]

Springer

Experimental brain research 57 (1984), S. 49-60

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ISSN: 1432-1106

Keywords: Accessory optic system ; Single-unit recordings ; Optokinetic nystagmus ; Vestibuloocular reflex ; Pigeon

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Extracellular recordings were performed in the nucleus of the basal optic root (nBOR) of alert pigeons during optokinetic nystagmus (OKN), vestibulo-ocular reflex (VOR) and combined visuo-vestibular stimulation. Cell identification was assessed either by histological control or by electrophysiological testing (antidromic response to vestibulo-cerebellar or oculomotor complex stimulation). 1) OKN was induced in 8 directions by a binocular stimulation. During the fast phase of OKN, optokinetic after nystagmus (OKAN) or reversed OKAN, most cells showed an inhibition which varied in magnitude independent of the direction of stimulation. A few cells however showed a phasic discharge for some OKN directions. 2) During the slow phase of OKN induced by a binocular stimulation, cells displayed either a tonic activation or a more or less strong inhibition according to the direction of the OKN. Cells were classified in 4 groups, according to their degree of directional specificity. The best OKN direction (slow phase) for maximal cell activation was upwards and naso-upwards, and next to best, nasotemporal and downwards. Maximal cell inhibition occurred during downward, and for some cells during upward, directions. 3) During OKN induced by stimulating the eye contralateral to the recorded nBOR, cell responses resembled those obtained during binocular stimulation, but, during ipsilaterally induced OKN, the cells lost their directional specificity. As a result of binocular integration, neuronal activation seems to originate from contralateral input whereas cell inhibition would mainly come from ipsilateral input. 4) During sinusoidal optokinetic stimulation induced in the temporo downward-naso upward axis, cells showed a more or less marked modulation (according to their directional selectivity) that was closely in phase with the stimulation velocity, and therefore probably with retinal slip. 5) nBOR cells appeared generally unaffected during both the slow phase and the fast phase of the VOR. However, some cells showed a slight but irregular modulation which might imply a weak vestibular input. During visuo-vestibular stimulation, the response resembled that obtained with sinusoidal optokinetic stimulation but the fast phase inhibition was often strengthened in the downwards direction (fast phase).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00231131

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Optokinetic nystagmus in the pigeon (Columba livia) (1981)

Gioanni, H. ; Rey, J. ; Villalobos, J. ; [et al.]

Springer

Experimental brain research 44 (1981), S. 362-370

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ISSN: 1432-1106

Keywords: Optokinetic nystagmus ; Pigeon ; Monocular stimulation ; Binocular stimulation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary A study of optokinetic nystagmus (OKN) as produced by monocular or binocular stimulation was carried out in the pigeon. Nystagmus was provoked by constant speed rotation (13 or 36 °/s) of an optokinetic drum lined with alternate black and white vertical stripes. With the animal's head immobilized, the electro-oculogram of each eye was recorded for both directions of rotation. I. Depending on the response to monocular stimulation, the animals were put into three categories: (1) no nystagmus was detected in either eye, (2) nystagmus was found in the stimulated eye only, (3) both eyes displayed nystagmus. Moreover, the percentage of responses was greater for temporal to nasal (T-N) stimulation than for nasal to temporal (N-T) stimulation. II. Computer analysis performed in the last group of animals showed that: (1) In monocular stimulation: (a) OKN of the stimulated eye was asymmetrical, that is, the frequency, amplitude and average slow-phase velocity (¯V) of the nystagmus beats were higher in T-N (preferential direction) stimulation. (b) OKN of the masked eye was symmetrical. (c) OKN of the two eyes was conjugate, but the amplitude and velocity (¯V) were greater in the stimulated eye, this difference being more noticeable in the T-N direction than for the N-T one. (2) In binocular stimulation the monocular effects were partially summated and OKN remained asymmetrical, with a higher amplitude for the T-N stimulated eye. III. OKN was followed by optokinetic after-nystagmus (OKAN) for short durations of stimulation, and by reverse optokinetic after-nystagmus (R-OKAN) for longer durations of stimulation. In both monocular and binocular stimulation the nystagmus response (OKN, OKAN and R-OKAN) was conjugate, but always larger in the eye moving in the T-N direction (slow phase). The pigeon OKN was compared to that of other species, leading us to propose a correlation between the symmetrical or asymmetrical character of the nystagmus and the frontal or more or less lateral position of the eyes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00238829

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Optokinetic nystagmus in the pigeon (Columba livia) II. Role of the pretectal nucleus of the accessory optic system (AOS) (1983)

Gioanni, H. ; Rey, J. ; Villalobos, J. ; [et al.]

Springer

Experimental brain research 50 (1983), S. 237-247

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ISSN: 1432-1106

Keywords: Optokinetic nystagmus ; Accessory optic system ; Pretectum ; Lesions ; Pigeon

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In birds, the accessory optic system (AOS) includes two nuclei: the nucleus ectomamillaris (nEM) and the pretectal nucleus superficialis synencephali (nSS). The role of the nSS in the production of a horizontal optokinetic nystagmus (OKN) was studied in the pigeon, by comparing the OKN before and after a unilateral lesion of this nucleus. The lesions were performed either by electrolysis or by local application of kainic acid (KA); the KA lesions gave more stable modifications of the OKN than the electrolytic lesions. A quantitative analysis of the slow-phase velocity (¯V) of the OKN was carried out on the animals receiving KA lesions. (1) Lesion of the nSS provokes the almost total disappearance of the OKN for stimulation of the contralateral eye in the temporo-nasal direction, and a reduction of the OKN for stimulation in the nasotemporal direction. Thus, the nSS is essential for the production of the OKN in the temporo-nasal direction, but it also participates in the production of the OKN in the naso-temporal direction (slow-phase direction). (2) The same lesion produces a large increase of the OKN (¯V) when the ipsilateral eye is stimulated in the temporo-nasal direction, and a smaller increase following stimulation in the naso-temporal direction. These increases suggest some kind of inhibitory (or disfacilitatory) interactions between the nSS (or the associated system) on one side, and the contralateral optokinetic centers. (3) The lesion of one nSS does not provoke a deficit when the stimulation is binocular. This result probably reflects the combined effect of both monocular inputs. (4) After a pretectal KA injection, a spontaneous nystagmus of the contralateral eye, in the nasotemporal direction, can be seen for several hours. The mechanism is still unknown, but it might be rela2ted to a reverse optokinetic after nystagmus (ROKAN). The anatomical and physiological data so far available consistently support the hypothesis of a functional equivalence between the nSS in birds and the nucleus of the optic tract in mammals.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00239188

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Optokinetic nystagmus in the pigeon (Columba livia) III. Role of the nucleus ectomamillaris (nEM): Interactions in the accessory optic system (AOS) (1983)

Gioanni, H. ; Villalobos, J. ; Rey, J. ; [et al.]

Springer

Experimental brain research 50 (1983), S. 248-258

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ISSN: 1432-1106

Keywords: Optokinetic nystagmus ; Accessory optic system ; Pigeon ; Lesion

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The accessory optic system (AOS) in birds is composed of two structures: the nucleus Superficialis Synencephali (nSS), essential for the production of an optokinetic nystagmus (OKN) in the temporo-nasal direction (slow phase) for the eye contralateral to the nucleus, and the nucleus Ectomamillaris (nEM), or nucleus of the basal optic root (nBOR). The objectives of the present work were: (1) to study the importance of the nEM for the horizontal OKN, (2) to study the interactions between the nSS and the nEM. Experiments were realized by combining different kinds of lesion. (1) Results show that the nEM is essential for the production of an OKN in the naso-temporal direction (direction of the slow-phase), but it also participates in the temporo-nasal response. (2) After bilateral lesion of the nEM or the nSS, only a residual nystagmic response remains. (3) Synergic effects exist between (I) the homolateral nEM and nSS, or between the systems related to them; we call this relation “homolateral synergy”, (II) a nEM and the contralateral nSS (or systems related to these nuclei). The synergic effect exerted by one nEM upon the contralateral nSS appears to be stronger than the reciprocal effect. (4) The effects obtained after combined lesions, either homolateral (nEM and nSS on the same side) or heterolateral (nEM and nSS on opposite sides) confirm the previous results and show that heterolateral interactions are stronger than homolateral interactions. (5) For all the lesions studied, the results obtained from binocular stimulation are compatible with a model of convergence of monocular inputs. The role of the nuclei of the AOS in birds is discussed in terms of existing anatomical and physiological data.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00239189

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