Abnormalities of voluntary saccades in Gilles de la Tourette's syndrome: pathophysiological consideration

Gilles de la Tourette's syndrome (TS) is a neurobehavioral disorder. Although the etiology and the pathophysiology of TS are still unknown, the involvement of the basal ganglia has long been postulated. On the other hand, saccadic eye movement was shown to be a useful measure to assess order and disorder of the function of the basal ganglia. To investigate the dysfunction of the basal ganglia of TS, we examined voluntary saccades in children with TS in comparison with the saccades in age-matched control children. Two kinds of saccades, visually-guided saccades (VGS) and memory-guided (MGS) saccades were evaluated. During the MGS, distracted saccades (DS), which indicate the distractibility, were examined. The results revealed the abnormalities in the parameters of the MGS, i.e. longer latencies and hypometric amplitudes, and decrease in the frequency of MGS. Whereas, the frequency of DS, the saccade to the predicted cue was significantly lower in younger patients (6-<9-years) than normal, but it was higher in the older TS children (9-<12-years). In addition, some of the patients showed large involuntary saccades, usually associated with eye blinks, during the task performance. These results suggest that in TS the basal ganglia fails to disinhibit the saccade neuron in the superior colliculus with the input of the frontal eye field to the striatum, and later allow the neurons to evoke non-goal directed saccades. In reference to abnormal saccades in other basal ganglia disorders with dopamine deficiency and to animal experiments with MPTP monkeys, these findings postulate primary hypodopaminergic state followed by upward regulation of dopamine receptors later in TS.

[1]  H. Collewijn,et al.  Human eye movements associated with blinks and prolonged eyelid closure. , 1985, Journal of neurophysiology.

[2]  O. Hikosaka,et al.  Eye movements in monkeys with local dopamine depletion in the caudate nucleus. II. Deficits in voluntary saccades , 1995, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[3]  O. Hikosaka,et al.  Deficits in Saccadic Eye Movements in Basal Ganglia Disorders , 1994 .

[4]  B. V. D. van de Wetering,et al.  Oculomotor control in Gilles de la Tourette syndrome. , 1988, Journal of neurology, neurosurgery, and psychiatry.

[5]  S. Folstein,et al.  Saccades in Huntington's disease , 1987, Neurology.

[6]  O. Hikosaka,et al.  Role of the basal ganglia in the control of purposive saccadic eye movements. , 2000, Physiological reviews.

[7]  M. Robertson,et al.  Stimulus induced behaviours in Tourette's syndrome. , 1994, Journal of neurology, neurosurgery, and psychiatry.

[8]  M. Segawa Hereditary progressive dystonia with marked diurnal fluctuation , 2000, Brain and Development.

[9]  L. Widen,et al.  Recent Advances in Clinical Neurophysiology , 1967 .

[10]  R. Wurtz,et al.  Visual and oculomotor functions of monkey substantia nigra pars reticulata. I. Relation of visual and auditory responses to saccades. , 1983, Journal of neurophysiology.

[11]  D. Zee,et al.  Oculomotor abnormalities in boys with tourette syndrome with and without ADHD. , 2001, Journal of the American Academy of Child and Adolescent Psychiatry.

[12]  島津 浩,et al.  Vestibular and brain stem control of eye, head and body movements , 1992 .

[13]  R. Wurtz,et al.  Modification of saccadic eye movements by GABA-related substances. II. Effects of muscimol in monkey substantia nigra pars reticulata. , 1985, Journal of neurophysiology.

[14]  O. Hikosaka,et al.  Voluntary Saccades in Normal and in Dopamine-Deficient Subjects , 1995 .

[15]  D. Cohen,et al.  Tourette's Syndrome -- Tics, Obsessions, Compulsions: Developmental Psychopathology and Clinical Care , 1998 .

[16]  R. Wurtz,et al.  The Neurobiology of Saccadic Eye Movements , 1989 .

[17]  Saccadic Eye Movements in Parkinsonism , 1992 .

[18]  R. Wurtz,et al.  The Basal Ganglia , 1984, Advances in Behavioral Biology.

[19]  O. Hikosaka,et al.  Functional properties of monkey caudate neurons. I. Activities related to saccadic eye movements. , 1989, Journal of neurophysiology.

[20]  W T Thach,et al.  Basal ganglia motor control. III. Pallidal ablation: normal reaction time, muscle cocontraction, and slow movement. , 1991, Journal of neurophysiology.

[21]  M. Delong,et al.  Activity of pallidal neurons during movement. , 1971, Journal of neurophysiology.