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7 - Eye movement abnormalities

from PART I - CLINICAL MANIFESTATIONS

Published online by Cambridge University Press:  17 May 2010

Charles Pierrot-Deseilligny
Affiliation:
Paul Castaigne Clinic, Pitié-Salpêtrière, Paris, France
Julien Bogousslavsky
Affiliation:
Université de Lausanne, Switzerland
Louis R. Caplan
Affiliation:
Harvard Medical School
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Summary

Introduction

Eye movement commands originate in diverse cerebral hemispheric areas (for saccades and smooth pursuit) or in labyrinths (for the vestibular ocular reflex). They are carried out in the brainstem by the immediate premotor structures and the motor nuclei. Conjugate lateral eye movements are largely organized in the pons, and vertical eye movements and convergence in the midbrain. In the first part of this chapter, we will see the main types of eye movement paralysis resulting from brainstem lesions, and the related physiopathology. Such types of abnormalities are easily detected at bedside by studying three main types of eye movements: saccades, i.e. rapid eye movements made towards a visual target (such as the finger of the examiner); smooth pursuit, elicited by a small visual target moving slowly in front of the subject's eyes; the vestibular ocular reflex (VOR), tested using the oculocephalic movement, by moving passively the subject's head. In the second part of this chapter, eye movement disturbances due to cerebellar and cerebral hemispheric lesions, resulting in relatively more subtle syndromes, will be reviewed.

BRAINSTEM

Lateral eye movements

Final common pathway

The final common pathway of conjugate lateral eye movements begins in the abducens nucleus, which contains: (i) the motor neurones projecting onto the ipsilateral lateral rectus; and (ii) the internuclear neurones, which decussate at the level of the abducens nucleus, run through the medial longitudinal fasciculus (MLF) and project onto the medial rectus motor neurones in the contralateral oculomotor nucleus (Fig. 7.1) (for review, see Pierrot-Deseilligny, 1990 and Leigh & Zee, 1999).

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Information
Stroke Syndromes , pp. 76 - 86
Publisher: Cambridge University Press
Print publication year: 2001

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