Caroline Costa Gomes Alencar scite author profile

Cognitive, behavioral and neurophysiological deficits, associated with malnutrition, are described in the literature. The aim of this study was to evaluate the visual contrast sensitivity in children with early malnutrition, classified according to the anthropometric parameters of Waterlow. Visual contrast sensitivity of 16 boys from 7-10 years old was measured using the staircase psychophysical method, using vertical sine-wave gratings of 0.25, 1.0, 2.0 and 8.0 cycles per degree (cpd) of visual angle. Malnourished children were approximately 3.3, 10.9 and 6.6 times less sensitive to the frequencies of 0.25, 1.0 and 2.0 cpd, respectively, although they were approximately 1.1 times more sensitive to the frequency of 8.0 cpd. It is likely that early malnutrition adversely affected the magnocellular pathway on the one hand, since early malnourished children needed more contrast to detect low and low-to-medium frequencies; on the other hand, early malnutrition did not affect the parvocellular pathway, since there was an increase of sensitivity to the highest frequency.

Contrast sensitivity function of sine-wave gratings in children with acute malnutrition.

Santos¹,

Alencar²,

Dias³

2009

The aim of this study was to determine the contrast sensitivity curves of sine-wave gratings with spatial frequencies of 0.25, 1.0, 2.0 and 8.0 cycles per degree (cpd) of visual angle in 16 female subjects aged 7 to 9 years old, eight well-nourished and eight with acute protein-energy malnutrition (PEM). All participants had normal visual acuity and were free of identifiable ocular illness. Contrast threshold was measured using a temporal two-alternative forced-choice psychophysical method, at a distance of 150 cm of the stimuli, binocularly, with mean luminance of 40.1 cd/m2. We detected a general decline in contrast sensitivity for children with acute malnutrition at all spatial frequencies compared to well-nourished children. The malnourished group needed in average 1.37 times more contrast to detect the stimulus in comparison with the well-nourished one. Differences between the groups were statistically significant at all spatial frequencies (p < .001). These results suggest that acute PEM changes the visual perception for sine-wave gratings

Contrast sensitivity function of sine-wave gratings in children with acute malnutrition.

Santos¹,

Alencar²,

Dias³

2009

Visual contrast sensitivity in tonic-clonic epileptic patients.

Bezerra¹,

Alencar²,

Mousinho³

et al. 2011

We measured the effects of epilepsy on visual contrast sensitivity to linear and vertical sine-wave gratings. Sixteen female adults, aged 21 to 50 years, comprised the sample in this study, including eight adults with generalized tonic-clonic seizure-type epilepsy and eight age-matched controls without epilepsy. Contrast threshold was measured using a temporal two-alternative forced-choice binocular psychophysical method at a distance of 150 cm from the stimuli, with a mean luminance of 40.1 cd/m 2 . A one-way analysis of variance (ANOVA) applied to the linear contrast threshold showed significant differences between groups (F[3,188] = 14.829; p < .05). Adults with epilepsy had higher contrast thresholds (1.45, 1.04, and 1.18 times for frequencies of 0.25, 2.0, and 8.0 cycles per degree of visual angle, respectively). The Tukey Honestly Significant Difference post hoc test showed significant differences (p < .05) for all of the tested spatial frequencies. The largest difference between groups was in the lowest spatial frequency. Therefore, epilepsy may cause more damage to the neural pathways that process low spatial frequencies. However, epilepsy probably alters both the magnocellular visual pathway, which processes low spatial frequencies, and the parvocellular visual pathway, which processes high spatial frequencies. The experimental group had lower visual contrast sensitivity to all tested spatial frequencies.

Early malnutrition decreases contrast sensitivity to circular concentric gratings.

Alencar¹,

Santos²

2012

Early malnutrition refers to inadequate nutrition during the critical period of nervous system development followed by nutritional recovery, resulting in a short stature according to age but normal weight according to short stature. We measured the effects of early malnutrition on contrast sensitivity (CS) to concentric circular gratings in 18 children of both sexes, aged 8 to 11 years (mean = 9.2 years, standard deviation = .99 years). Nine of the children were eutrophic (E group), and nine experienced early malnutrition (EM group) based on state healthcare records and Waterlow's anthropometric parameters. Contrast sensitivity to four spatial frequencies (.25, 1.0, 2.0, and 8.0 cycles per degree [cpd]) was measured using a temporal two-alternative forced-choice psychophysical method with mean luminance of 40.1 cd/m 2 . Statistical analyses showed significant differences between groups and a group × frequency interaction. EM group was significantly less sensitive than the E group to the 8.0 cpd frequency and needed 1.49-times more contrast to detect the gratings. These results suggest that early malnutrition impairs CS to high-spatialfrequency concentric circular gratings in children. Therefore, early malnutrition, which is known to affect primary visual cortical areas, may also affect higher visual cortical areas such as V4 and the inferotemporal cortex.