O H Haugen1, G Høvding, I Lundström. 1. Department of Ophthalmology, Haukeland University Hospital, Bergen, Norway. ohha@haukeland.no
Abstract
AIMS: To study the refractive development in children with Down's syndrome longitudinally. METHODS: An unselected population of 60 children with Down's syndrome was followed with repeated retinoscopies in cycloplegia for 2 years or more (follow up 55 (SD 23) months). Accommodation was assessed with dynamic retinoscopy. RESULTS: From longitudinal spherical equivalent values of the right eye, three main categories of refraction were defined: stable hypermetropia (<1.5 D difference between the first and last visit) (n=34), increasing hypermetropia ("hypermetropic shift"; >/=1.5 D difference) (n=11), and decreasing hypermetropia/development of myopia ("myopic shift"; >/=1.5 D difference) (n=9). Patients with anisometropia (n=6) were evaluated separately. In the stable hypermetropia group three sublevels were chosen: low (</=+2.0 D at the last visit), moderate (+2.25 to + 4.0 D), and high (>+4.0 D). An accommodation weakness was found in 55% of the children. Accommodation weakness was significantly less frequent in the stable, low grade hypermetropia group (22%) than in all the other groups (p=0.008). The frequency of astigmatism >/=1.0 D at the last visit was 57%, the direction of axis being predominantly "with the rule." All the eyes with oblique astigmatism had a side specific direction of axis; the right eyes belonging to the 135 degrees axis group and the left eyes to the 45 degrees axis group. CONCLUSION: A stable, low grade hypermetropia was significantly correlated with a normal accommodation. Accommodation weakness may be of aetiological importance to the high frequency of refractive errors encountered in patients with Down's syndrome. A striking right-left specificity in the oblique astigmatic eyes suggests that mechanical factors on the cornea from the upward slanting palpebral fissures may be a major aetiological factor in the astigmatism.
AIMS: To study the refractive development in children with Down's syndrome longitudinally. METHODS: An unselected population of 60 children with Down's syndrome was followed with repeated retinoscopies in cycloplegia for 2 years or more (follow up 55 (SD 23) months). Accommodation was assessed with dynamic retinoscopy. RESULTS: From longitudinal spherical equivalent values of the right eye, three main categories of refraction were defined: stable hypermetropia (<1.5 D difference between the first and last visit) (n=34), increasing hypermetropia ("hypermetropic shift"; >/=1.5 D difference) (n=11), and decreasing hypermetropia/development of myopia ("myopic shift"; >/=1.5 D difference) (n=9). Patients with anisometropia (n=6) were evaluated separately. In the stable hypermetropia group three sublevels were chosen: low (</=+2.0 D at the last visit), moderate (+2.25 to + 4.0 D), and high (>+4.0 D). An accommodation weakness was found in 55% of the children. Accommodation weakness was significantly less frequent in the stable, low grade hypermetropia group (22%) than in all the other groups (p=0.008). The frequency of astigmatism >/=1.0 D at the last visit was 57%, the direction of axis being predominantly "with the rule." All the eyes with oblique astigmatism had a side specific direction of axis; the right eyes belonging to the 135 degrees axis group and the left eyes to the 45 degrees axis group. CONCLUSION: A stable, low grade hypermetropia was significantly correlated with a normal accommodation. Accommodation weakness may be of aetiological importance to the high frequency of refractive errors encountered in patients with Down's syndrome. A striking right-left specificity in the oblique astigmatic eyes suggests that mechanical factors on the cornea from the upward slanting palpebral fissures may be a major aetiological factor in the astigmatism.
Authors: J M Woodhouse; V H Pakeman; M Cregg; K J Saunders; M Parker; W I Fraser; P Sastry; S Lobo Journal: Optom Vis Sci Date: 1997-10 Impact factor: 1.973
Authors: Rachel Knowlton; Jason D Marsack; Norman E Leach; Ralph J Herring; Heather A Anderson Journal: Optom Vis Sci Date: 2015-07 Impact factor: 1.973
Authors: Ayeswarya Ravikumar; Julia S Benoit; Kelsie B Morrison; Jason D Marsack; Heather A Anderson Journal: Optom Vis Sci Date: 2018-03 Impact factor: 1.973
Authors: Jingyun Wang; Lauren M Wyatt; Joost Felius; David R Stager; David R Stager; Eileen E Birch; Harold E Bedell Journal: Invest Ophthalmol Vis Sci Date: 2009-12-17 Impact factor: 4.799
Authors: Heather A Anderson; Julia S Benoit; Jason D Marsack; Ruth E Manny; Ayeswarya Ravikumar; Karen D Fern; Kelsey R Trast Journal: Optom Vis Sci Date: 2021-01-01 Impact factor: 2.106