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Documenta Ophthalmologica
Published in: Documenta Ophthalmologica 2/2008

01-09-2008 | Original Research Article

VEP maturation and visual acuity in infants and preschool children

Authors: Eva Lenassi, Katarina Likar, Branka Stirn-Kranjc, Jelka Brecelj

Published in: Documenta Ophthalmologica | Issue 2/2008

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Abstract

Purpose Visual processes continue to mature well into childhood, due to the development of the retina, optic nerve, visual pathway and visual cortex. Normal development of visual acuity and maturation of visual evoked potentials (VEPs) have been well studied, although rarely for their correlation. The purpose of this study was to investigate the same population of infants and preschool children for their VEP maturation to flash, pattern-reversal (reversal) and pattern-onset (onset) stimulation, which are normally used in our everyday clinical protocol, and to determine the relationships between the VEP parameters obtained and the development of visual acuity. Methods Forty-one healthy children from 1.5 months to 7.5 years old were included. Their visual acuity for distance was tested with Teller Acuity Cards (<2 years of age) and Cambridge Visual Acuity Crowding Cards (>2 years of age). VEP latencies and amplitudes were evaluated to flash (P2 wave), reversal (P100 wave) and onset (C1 wave) binocular stimulation. For reversal and onset stimulation, checkerboard pattern (check) sizes of 25′, 50′ and 100′ were used. Results Age-dependent exponential decreases in latencies to flash, reversal and onset stimulation were seen. For amplitudes, there was an age-dependent increase only to onset stimulation. There was a significant correlation between VEPs and visual acuity (P < 0.05) for latencies to flash, reversal and onset stimulation and amplitudes to onset stimulation. Conclusion These findings indicate the expected maturation of flash, reversal and onset VEPs, and demonstrate their correlation to normal development of visual acuity. Maturation of VEP latencies is associated with development of visual acuity.
Literature
1.
Yuodelis C, Hendrickson A (1986) A qualitative and quantitative analysis of the human fovea during development. Vision Res 26:847–855PubMedCrossRef
2.
Magoon EH, Robb RM (1981) Development of myelin in human optic nerve and tract. A light and electron microscopic study. Arch Ophthalmol 99:655–659PubMed
3.
Atkinson J (1984) Human visual development over the first 6 months of life. A review and a hypothesis. Hum Neurobiol 3:61–74PubMed
4.
Garey LJ, de Courten C (1983) Structural development of the lateral geniculate nucleus and visual cortex in monkey and man. Behav Brain Res 10:3–13PubMedCrossRef
5.
Barnet AB, Friedman SL, Weiss IP, Ohlrich ES, Shanks B, Lodge A (1980) VEP development in infancy and early childhood. A longitudinal study. Electroencephalogr Clin Neurophysiol 49:476–489PubMedCrossRef
6.
Fielder AR, Harper MW, Higgins JE, Clarke CM, Corrigan D (1983) The reliability of the VEP in infancy. Ophthalmic Paediatr Genet 3:73–82CrossRef
7.
Kraemer M, Abrahamsson M, Sjöström A (1999) The neonatal development of the light flash visual evoked potential. Doc Ophthalmol 99:21–39PubMedCrossRef
8.
Benavente I, Tamargo P, Tajada N, Yuste V, Oliván MJ (2005) Flash visually evoked potentials in the newborn and their maturation during the first six months of life. Doc Ophthalmol 110:255–263PubMedCrossRef
9.
Sokol S, Jones K (1979) Implicit time of pattern evoked potentials in infants: an index of maturation of spatial vision. Vision Res 19:747–755PubMedCrossRef
10.
Moskowitz A, Sokol S (1983) Developmental changes in the human visual system as reflected by the latency of the pattern reversal VEP. Electroencephalogr Clin Neurophysiol 56:1–15PubMedCrossRef
11.
McCulloch DL, Skarf B (1991) Development of the human visual system: monocular and binocular pattern VEP latency. Invest Ophthalmol Vis Sci 32:2372–2381PubMed
12.
Zhang Z, Li S, Wu DZ (1993) Development of PVEP in infants and children. Eye Sci 9:23–30
13.
Roy MS, Barsoum-Homsy M, Orquin J, Benoit J (1995) Maturation of binocular pattern visual evoked potentials in normal full-term and preterm infants from 1 to 6 months of age. Pediatr Res 37:140–144PubMedCrossRef
14.
Crognale MA, Kelly JP, Chang S, Weiss AH, Teller DY (1997) Development of pattern visual evoked potentials: longitudinal measurements in human infants. Optom Vis Sci 74:808–815PubMedCrossRef
15.
Prager TC, Zou YL, Jensen CL, Fraley JK, Anderson RE, Heird WC (1999) Evaluation of methods for assessing visual function of infants. J AAPOS 3:275–282PubMedCrossRef
16.
Lippe S, Roy MS, Perchet C, Lassonde M (2007) Electrophysiological markers of visuocortical development. Cereb Cortex 17:100–107PubMedCrossRef
17.
Spekreijse H (1978) Maturation of contrast EPs and development of visual resolution. Arch Ital Biol 116:358–369PubMed
18.
De Vries-Khoe LH, Spekreijse H (1982) Maturation of luminance and pattern EPs in man. Doc Ophthalmol Proc Ser 31:461–475
19.
Brecelj J, Štrucl M, Zidar I, Tekavčič-Pompe M (2002) Pattern ERG and VEP maturation in schoolchildren. Clin Neurophysiol 113:1764–1770PubMedCrossRef
20.
21.
Tekavčič-Pompe M, Stirn-Kranjc B, Brecelj J (2006) Visual evoked potentials to red-green stimulation in schoolchildren. Vis Neurosci 23:447–451CrossRef
22.
Teller DY (1981) The development of visual acuity in human and monkey infants. Trends Neurosci 4:21–24CrossRef
23.
Gwiazda J, Wolfe JM, Brill S, Mohindra I, Held R (1980) Quick assessment of preferential looking acuity in infants. Am J Optom Physiol Opt 57:420–427PubMed
24.
Mayer DL, Beiser AS, Warner AF, Pratt EM, Raye KN, Lang JM (1995) Monocular acuity norms for the Teller Acuity Cards between ages one month and four years. Invest Ophthalmol Vis Sci 36:671–685PubMed
25.
Marg E, Freeman DN, Peltzman P, Goldstein PJ (1976) Visual acuity development in human infants: evoked potential measurements. Invest Ophthalmol 15:150–153
26.
Harter MR, Deaton FK, Odom JV (1977) Maturation of evoked potentials and visual preference in 6–45-day-old infants: effects of check size, visual acuity, and refractive error. Electroencephalogr Clin Neurophysiol 42:595–607PubMedCrossRef
27.
Sokol S, Dobson V (1976) Pattern reversal visually evoked potential in infants. Invest Ophthalmol 15:58–62PubMed
28.
Pirchio M, Spinelli D, Fiorentini A, Maffei L (1978) Infant contrast sensitivity evaluated by evoked potential. Brain Res 141:179–184PubMedCrossRef
29.
Sokol S (1978) Measurement of infant visual acuity from pattern reversal evoked potential. Vision Res 18:33–39PubMedCrossRef
30.
Spekreijse H (1983) Comparison of acuity tests and pattern evoked potential criteria: two mechanisms underly acuity maturation in man. Behav Brain Res 10:107–117PubMedCrossRef
31.
Regan D (1977) Speedy assessment of visual acuity in amblyopia by the evoked potential method. Ophthalmologica 175:159–164PubMedCrossRef
32.
Tyler CW, Apkarian P, Levi DM, Nakayama K (1979) Rapid assessment of visual function: an electronic sweep technique for the pattern visual evoked potential. Invest Ophthalmol Vis Sci 18:703–713PubMed
33.
Norcia AM, Tyler CW (1985) Spatial frequency sweep VEP: visual acuity during the first year of life. Vision Res 25:1399–1408PubMedCrossRef
34.
Dobson V, Teller DY (1978) Visual acuity in human infants: a review and comparison of behavioral and electrophysiological studies. Vision Res 18:1469–1483PubMedCrossRef
35.
Sokol S, Moskowitz A (1985) Comparison of pattern VEPs and preferential-looking behavior in 3-month-old infants. Invest Ophthamol Vis Sci 26:359–365
36.
Brecelj J, Stirn-Kranjc B (2005) Visual electrophysiology in children. Zdrav Vestn 74:631–641
37.
Brecelj J, Stirn-Kranjc B, Pečarič-Meglič N, Škrabec M (2007) VEP asymmetry with ophthalmological and MRI findings in two achiasmatic children. Doc Ophthalmol 114:53–65PubMedCrossRef
38.
Odom JV, Bach M, Barber C, Brigell M, Marmor MF, Tormene AP, Holder GE, Vaegan (2004) Visual evoked potentials standard (2004). Doc Ophthalmol 108:115–123PubMedCrossRef
39.
American Encephalographic Society (1994) Guideline thirteen: Guidelines for standard electrode position nomenclature. J Clin Neurophysiol 11:111–113CrossRef
40.
Harden A (1982) Maturation of the visual evoked potential. In: Chiarenza GA, Papakostopoulos D (eds) Clinical application of cerebral evoked potentials in paediatric medicine. Excerpta Medica, Amsterdam, pp 41–59
Metadata
Title
VEP maturation and visual acuity in infants and preschool children
Authors
Eva Lenassi
Katarina Likar
Branka Stirn-Kranjc
Jelka Brecelj
Publication date
01-09-2008
Publisher
Springer-Verlag
Published in
Documenta Ophthalmologica / Issue 2/2008
Print ISSN: 0012-4486
Electronic ISSN: 1573-2622
DOI
https://doi.org/10.1007/s10633-007-9111-8

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