The development of mature patterns of head-eye coordination in the human infant.

Four experiments examined the initiation of coordinated head and eye movement and the vestibulo-ocular reflex (VOR). Experiment 1 examined the initiation of head and eye movement to stationary, peripheral, visual targets. In adults we would expect to see an eye movement followed by a head movement. The VOR would maintain field-holding while the head rotated. Three-month-olds produced the same pattern of coordinated movement as seen in adults, 2-mth-olds produced only eye movements, i.e., no apparent head movement. Experiment 2 examined the gain of the VOR in darkness in 2- and 3-mth-olds and an adult. The VOR at all ages was qualitatively and quantitatively the same. Experiment 3 examined the gain of the VOR during visual fixation. The gain in 3-mth-olds shoed a significant increase as compared to gain in darkness. The same increment was seen in the adult. Two-month-olds showed no facilitation of gain. Experiment 4 examined tonic suppression of the VOR during visual fixation. While total suppression was seen in adult and the 3-mth-olds, no suppression was apparent in 2-mth-olds. Overall, the data indicate the communication between the visual, vestibular, head movement, and eye movement systems shows a marked shift between the second and third month of life.

[1]  E. Bizzi,et al.  Eye-Head Coordination in Monkeys: Evidence for Centrally Patterned Organization , 1971, Science.

[2]  H. Papoušek,et al.  Conditioned Head Rotation Reflexes in Infants in the First: Months of Life , 1959, Acta paediatrica.

[3]  L. Tibbling,et al.  The rotatory nystagmus response in children. , 1969, Acta oto-laryngologica.

[4]  C. K. Henkel,et al.  Superior colliculus connections with the extraocular motor nuclei in the cat , 1978, The Journal of comparative neurology.

[5]  E. Tronick,et al.  Infant looking patterns. , 1971, Vision research.

[6]  E Bizzi,et al.  Two modes of active eye-head coordination in monkeys. , 1972, Brain research.

[7]  G Bowman,et al.  ADAPTIVE PROPERTIES OF THE EYE‐TRACKING SYSTEM AS REVEALED BY MOVING‐HEAD AND OPEN‐LOOP STUDIES * , 1969, Annals of the New York Academy of Sciences.

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

[9]  H. Prechtl The Directed Head Turning Response and Allied Movements of the Human Baby , 1958 .

[10]  E. R. Siqueland,et al.  Conditioned head-turning in human newborns. , 1966, Journal of experimental child psychology.

[11]  L. Young,et al.  Vestibular nucleus units in alert monkeys are also influenced by moving visual fields. , 1974, Brain research.

[12]  G. O. Dayton,et al.  DEVELOPMENTAL STUDY OF COORDINATED EYE MOVEMENTS IN THE HUMAN INFANT. II. AN ELECTRO-OCULOGRAPHIC STUDY OF THE FIXATION REFLEX IN THE NEWBORN. , 1964, Archives of ophthalmology.

[13]  K. Bloom,et al.  Eye contact as a setting event for infant learning. , 1974, Journal of experimental child psychology.

[14]  M. Gresty Coordination of head and eye movements to fixate continuous and intermittent targets. , 1974, Vision research.

[15]  Noboru Sugie,et al.  Visual Target Tracking with Active Head Rotation , 1970, IEEE Trans. Syst. Sci. Cybern..

[16]  G. O. Dayton,et al.  Analysis of characteristics of fixation reflex in infants by use of direct current electrooculography , 1964, Neurology.

[17]  G V Catford,et al.  Development of visual acuity , 1973, Archives of disease in childhood.

[18]  T. Shiida,et al.  Visual influence on rabbit horizontal vestibulo-ocular reflex presumably effected via the cerebellar flocculus. , 1974, Brain research.

[19]  M. Yamamoto,et al.  The neural pathways mediating reflex contraction of extraocular muscles during semicircular canal stimulation in rabbits. , 1973, The British journal of educational psychology.

[20]  E. Hartmann,et al.  The maturation of vestibular nystagmus in infancy and childhood. , 1979, Acta oto-laryngologica.

[21]  Richard N. Aslin,et al.  Saccadic localization of visual targets by the very young human infant , 1975 .

[22]  G. Turkewitz,et al.  A sensory basis for the lateral difference in the newborn infant's response to somesthetic stimulation. , 1974, Journal of experimental child psychology.

[23]  L. Eviatar,et al.  The normal nystagmic response of infants to caloric and perrotatory stimulation. , 1979, The Laryngoscope.