Ch Yeo scite author profile

Ch Yeo

2Publications

79Citation Statements Received

76Citation Statements Given

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247

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University College London

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Recoverable and nonrecoverable deficits in conditioned responses after cerebellar cortical lesions

Harvey¹,

Welsh²,

Yeo³

et al. 1993

J. Neurosci.

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This study reexamined the effects of unilateral damage to cerebellar hemispheral lobule VI on the rabbit's conditioned nictitating membrane (NM) response. Extensive unilateral removal of hemispheral lobule VI in 11 rabbits impaired ipsilateral conditioned responses as reflected by reductions of 52% in mean frequency and 53% in mean amplitude during test trials on the first postoperative session. The decreases in the amplitude and frequency of conditioned responses were highly correlated (r = 0.82). The frequency of conditioned responses recovered to control levels but their amplitudes remained reduced such that the correlation between these two measures of responding was no longer significant by the 12th postoperative conditioning session. The decrease in the amplitude of conditioned responses was not accompanied by changes in onset latency or rise time. There was no significant impairment of conditioned responses in surgical controls and animals with only partial damage to hemispheral lobule VI. It was concluded that hemispheral lobule VI plays an important role in the regulation of motor centers in the brainstem so as to facilitate the initiation and optimum execution of the conditioned NM reflex. This cortical regulation of the conditioned NM response may contain learned elements; however, these cannot be resolved with lesion methods, nor has their existence been proven in this or other lesion studies. Nevertheless, the results of this study do demonstrate that the cerebellar cortex cannot be considered as the single locus necessary for NM conditioning.

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Classical conditioning of the nictitating membrane response of the rabbit

1986

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The nictitating membrane response (NMR) of 15 rabbits was conditioned to light and white noise conditional stimuli (CSs) using a periorbital shock unconditional stimulus (US). Unilateral lesions of the inferior olive were then made. Lesions restricted to the medial parts of rostral dorsal accessory olive (DAO) and principal olive (PO) abolished conditioning and prevented subsequent acquisition on either side. Unconditional responses to the US were intact. Lesions in all other parts of the olive did not impair conditioning. The effective lesions were located in that part of the olive which supplies somatosensory information from the face to cerebellar lobule HVI. Lobule HVI is also essential for NMR conditioning. We suggest that this region of the inferior olive is part of a circuit which provides US information to the cerebellar cortex during NMR conditioning.

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Ch Yeo

Recoverable and nonrecoverable deficits in conditioned responses after cerebellar cortical lesions

Classical conditioning of the nictitating membrane response of the rabbit

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