Restitution of visual functions in cerebrally blind children

In adult patients who suffer from a visual field defect due to cerebral lesions, visual functions can be restored by systematic visual field training. Such visual field training is not feasible in young, brain-damaged children, who are unable to cooperate like adults. We have already shown earlier [Werth, R., and Moehrenschlager, M. (1999). The development of visual functions in cerebrally blind children during a systematic visual field training. Restorative Neurology and Neuroscience, 15, 229-241.] that systematic visual field training, which requires no ability to understand instructions or to cooperate, is successful in brain-damaged children and may lead to complete recovery of the visual field within 3 months. The present study provides more behavioral evidence and a control of intraocular light scatter. In addition to the earlier study, the luminance difference thresholds in the recovered visual field were compared with those of a normal control group. Seventeen children aged 1-4 years who had been blind for more than 1 year after perinatal asphyxia and two children suffering from homonymous hemianopia due to asphyxic-ischemic lesions participated in systematic visual field training. The functional visual field was assessed with a specially designed arc perimeter. Visual functions developed within a training period of 3 months in 11 children who received visual field training, whereas there was no recovery in the control group (N=37). The findings support the assumption that systematic visual field training facilitates the development of vision in cerebrally blind children. In two children who recovered from blindness, it was shown in functional magnetic resonance imaging (fMRI) that brain tissue in the area of the visual cortex contralateral to the blind visual hemifield was activated by light. In two children suffering from asphyxic-ischemic lesions who did not recover only brain tissue in the area of the visual cortex contralateral to the good visual hemifield could be activated by light. These results support the assumption that activity in spared tissue of the striate and extrastriate visual cortex are a necessary condition for recovery of the visual field in children suffering from cerebral blindness.

[1]  R. Van der Woude,et al.  Prognosis of cortical blindness following cardiac arrest in children. , 1962, JAMA.

[2]  R. Werth,et al.  The development of visual functions in cerebrally blind children during a systematic visual field training. , 1999, Restorative neurology and neuroscience.

[3]  Detection of Moving Stimuli in the Binocular and Nasal Visual Fields by Infants Three and Four Months Old , 1982, Perception.

[4]  J Zihl,et al.  Restitution of visual function in patients with cerebral blindness. , 1979, Journal of neurology, neurosurgery, and psychiatry.

[5]  M. Brigell,et al.  Cortical blindness and residual vision , 1991, Neurology.

[6]  Richard Latto,et al.  Is blindsight an effect of scattered light, spared cortex, and near-threshold vision? , 1983, Behavioral and Brain Sciences.

[7]  M. Perenin Visual function within the hemianopic field following early cerebral hemidecortication in man — II. Pattern discrimination , 1978, Neuropsychologia.

[8]  P. Wong,et al.  Computed tomography of the brains of children with cortical visual impairment. , 2008, Developmental medicine and child neurology.

[9]  Bernhard A. Sabel,et al.  Computer-based training for the treatment of partial blindness , 1998, Nature Medicine.

[10]  M. Gazzaniga,et al.  Islands of Residual Vision in Hemianopic Patients , 1997, Journal of Cognitive Neuroscience.

[11]  S. Blond,et al.  Hémisphérectomie droite totale. Etude neurophysiologique après vingt-six ans. , 1982 .

[12]  H. Markowitsch,et al.  Rehabilitation training of homonymous visual field defects in patients with postgeniculate damage of the visual system. , 1989, Restorative neurology and neuroscience.

[13]  J. Atkinson,et al.  Possible blindsight in infants lacking one cerebral hemisphere , 1992, Nature.

[14]  R. Werth,et al.  Contributions to the study of “Blindsight”—II. The role of specific practice for saccadic localization in patients with postgeniculate visual field defects , 1984, Neuropsychologia.

[15]  J Zihl,et al.  Visual field recovery from scotoma in patients with postgeniculate damage. A review of 55 cases. , 1985, Brain : a journal of neurology.

[16]  M. Perenin,et al.  Visual function within the hemianopic field following early cerebral hemidecortication in man—I. Spatial localization , 1978, Neuropsychologia.

[17]  G. Kerkhoff Restorative and compensatory therapy approaches in cerebral blindness - a review. , 1999, Restorative neurology and neuroscience.

[18]  G. Nelles,et al.  Compensatory visual field training for patients with hemianopia after stroke , 2001, Neuroscience Letters.

[19]  D. Teller,et al.  Visual acuity for vertical and diagonal gratings in human infants. , 1974, Vision research.

[20]  J. Duin,et al.  Visual defects in children after cerebral hypoxia , 1984, Behavioural Brain Research.

[21]  M Corbetta,et al.  Effectiveness of different task paradigms in revealing blindsight. , 1990, Brain : a journal of neurology.

[22]  M. Gazzaniga,et al.  Residual vision in a scotoma: implications for blindsight. , 1992, Science.

[23]  P. Bach-y-Rita,et al.  Visual field rehabilitation in the cortically blind? , 1985, Journal of neurology, neurosurgery, and psychiatry.

[24]  A Ptito,et al.  Target detection and movement discrimination in the blind field of hemispherectomized patients. , 1991, Brain : a journal of neurology.

[25]  L. Stark,et al.  Saccadic eye movement strategies in patients with homonymous hemianopia , 1981, Annals of neurology.

[26]  R. Werth,et al.  Contributions to the study of “Blindsight”—I. Can stray light account for saccadic localization in patients with postgeniculate field defects? , 1984, Neuropsychologia.

[27]  E C Wong,et al.  Processing strategies for time‐course data sets in functional mri of the human brain , 1993, Magnetic resonance in medicine.

[28]  V. Wong Cortical blindness in children: a study of etiology and prognosis. , 1991, Pediatric neurology.

[29]  H. Hämäläinen,et al.  Rehabilitation of chronic post-stroke visual field defect with computer-assisted training: a clinical and neurophysiological study. , 2003, Restorative neurology and neuroscience.

[30]  P Harris,et al.  The growth of the effective visual field from birth to seven weeks. , 1974, Journal of experimental child psychology.

[31]  A. Damasio,et al.  Nervous function after right hemispherectomy , 1975, Neurology.

[32]  Josef Zihl,et al.  Recovery of Visual Field in Patients with Postgeniculate Damage , 1986 .

[33]  J. Zihl,et al.  Registration of light stimuli in the cortically blind hemifield and its effect on localization , 1980, Behavioural Brain Research.

[34]  G. Kerkhoff,et al.  Neurovisual rehabilitation in cerebral blindness. , 1994, Archives of neurology.

[35]  ERNST PÖPPEL,et al.  Eccentricity-specific dissociation of visual functions in patients with lesions of the central visual pathways , 1975, Nature.

[36]  J. Zihl,et al.  Recovery of visual functions in patients with cerebral blindness , 1981, Experimental Brain Research.

[37]  F. Groenendaal,et al.  Partial Visual Recovery in Two Fullterm Infants After Perinatal Hypoxia , 1990, Neuropediatrics.

[38]  L Weiskrantz,et al.  Visual capacity in the hemianopic field following a restricted occipital ablation. , 1974, Brain : a journal of neurology.