exudates and Myopia

Uncorrected refractive error, especially myopia, in young children can cause permanent visual impairment in later life. However, data on the normative development of refractive error in this age group is limited, especially in Malaysia. The aim of this study was to determine the distribution of refractive error in a sample of infants and young children between the ages of 6 to 36 months in a prospective, cross-sectional study. Cycloplegic retinoscopy was conducted on both eyes of 151 children of mean age 18.09 ± 7.95 months. Mean spherical equivalent refractive error for the right and left eyes was +0.85 ± 0.97D and +0.86 ± 0.98D, respectively. The highest prevalence of refractive error was astigmatism (26%), followed by hyperopia (12.7%), myopia (1.3%) and anisometropia (0.7%). There was a reduction of hyperopic refractive error with increasing age. Myopia was seen to emerge at age 24 months. In conclusion, the prevalence of astigmatism and hyperopia in infants and young children was high, but that of myopia and anisometropia was low. There was a significant reduction in hyperopic refractive error towards emmetropia with increasing age. It is recommended that vision screening be conducted early to correct significant refractive error that may cause disruption to clear vision.

Topics: Age Factors; Astigmatism; Child, Preschool; Cross-Sectional Studies; Female; Humans; Hyperopia; Infant; Infant Health; Malaysia; Male; Myopia; Pilot Projects; Prevalence; Prospective Studies; Refractive Errors

Topics: Academic Performance; Administrative Personnel; Biomedical Research; History, 20th Century; History, 21st Century; Hong Kong; Humans; Malaysia; Myopia; Optometry; Public Health

This study aimed to determine the relationship between macular thickness and spherical equivalent refraction (SER), axial length (AL) and vitreous chamber depth (VCD) in Malay subjects.. Sixty-three subjects (aged 19-24 years) with a mean SER of -1.79 ± 2.24 D, mean axial length of 24.26 ± 1.35 mm and mean vitreous chamber depth of 17.02 ± 1.33 mm were included in this clinical cross-sectional study. Stratus optical coherence tomography (Time Domain optical coherence tomography) was used to determine the thickness of the outer macular (perifovea) and inner macular (parafovea) at four different locations, that is, temporal, superior, nasal and inferior quadrants and also the fovea itself.. Positive correlations were found between the outer macular (perifovea) thickness and SER at the temporal (R = 0.47, p < 0.05), superior (R = 0.36, p < 0.05) and inferior (R = 0.31, p < 0.05) quadrants. Foveal thickness was also positively correlated with AL (R = 0.34, p < 0.05) and VCD (R = 0.32, p < 0.05). Negative correlations were found between outer macular thickness and axial length at the temporal (R = -0.46, p < 0.05), superior (R = -0.27, p < 0.05), nasal (R = -0.25, p < 0.05) and inferior (R = -0.36, p < 0.05) quadrants. Negative correlations were also found between outer macular thickness and VCD at the temporal (R = -0.51, p < 0.05), superior (R = -0.32, p < 0.05), nasal (R = -0.31, p < 0.05) and inferior (R = -0.40, p < 0.05) quadrants.. This study shows that the degree of myopia and elongation of the globe are associated with thinning of most areas of the perifovea. A trend for foveal thickening in the high myopia group is also inferred, although this does not apply to the low and moderate myopia groups.

Topics: Adult; Female; Humans; Macula Lutea; Malaysia; Male; Myopia; Tomography, Optical Coherence; Vitreous Body

Development of myopia among young children is often contributed to the refractive status of the parents. This study was conducted to determine whether myopia can be inherited across the generation among a sample in the Klang Valley. Three generations involved are: G1 (grandparents), G2 (parents) and G3 (children).. Sixty-two families were screened and forty families were selected to participate in this study. The inclusion criterion is having at least one myopic member in any of the three generations. Subjects (G2) were first asked to fill up a questionnaire form before their refractive status was determined by clinical examination that provided acuity of 6/6 or better. Refractive status of G1 was determined using information from the questionnaire while for G2 and G3 through clinical examination.. Generally, the prevalence of myopia is seen to increase throughout the generations from G1 being the lowest (25.6%) to G3 being the highest (41.1%). Strong genetic influence can be found between G1 and G2 as majority of myopes in G2 is when both parents were myopic. However, although the prevalence of myopia increased from G2 to G3, there was no strong genetical influence. Majority of subjects in G3 were non-myopes when both their parents were myopic.. Parental history accounts for a limited proportion of variance in myopia development.

Topics: Adolescent; Adult; Aged; Family Health; Female; Humans; Malaysia; Male; Middle Aged; Myopia; Retrospective Studies; Surveys and Questionnaires; Young Adult

To compare the prevalences of refractive errors in Malay, Chinese and Indian children in Malaysia and Singapore.. Children aged 7-9 years from three schools in the Singapore Cohort study of the Risk factors for Myopia (n = 1962) and similarly aged children from a random cluster sample in the metropolitan Kuala Lumpur area in the Malaysia Refractive Error Study in Children (n = 1752) were compared. Cycloplegic autorefraction was conducted in both countries.. The prevalence of myopia (spherical equivalent of at least -0.5 diopters (D) in either eye) was higher in Singapore Malays (22.1%) than in Malays in Malaysia (9.2%; 95% confidence interval (CI) 11.2 to 14.7; p<0.001). Similarly, Singapore Chinese (40.1%) had higher prevalences than Malaysian Chinese (30.9%; 95% CI 1.5 to 16.9). Singapore Indians had a higher prevalence (34.1%) than Malaysian Indians (12.5%; 95% CI 17.4 to 25.9). The multivariate odds ratio of astigmatism (cylinder at least 0.75 D in either eye) in Singapore Malays compared with Malaysian Malays was 3.47 (95% CI 2.79 to 4.32). Ethnicity-specific hyperopia rates did not differ in Singapore and Malaysia.. The ethnicity-specific prevalences of myopia in Singapore Malays, Chinese and Indians are higher than those in Malaysian Malays, Chinese and Indians. As Malays, Chinese and Indians in Malaysia have genetic make-up similar to that of Malays, Chinese and Indians in Singapore, environmental factors may contribute to the higher myopia rates.

Topics: Asian People; Astigmatism; Child; Educational Status; Female; Humans; Hyperopia; Malaysia; Male; Myopia; Prevalence; Refractive Errors; Singapore; White People

To study interethnic variation in myopia prevalence and severity in young adult males in Singapore and to determine whether these variations are related to differences in education level.. A population-based survey of refractive errors in a cohort of 15,095 military conscripts between July 1996 and June 1997 using noncycloplegic autorefraction and a standard questionnaire. Prevalence rates of myopia (<-0.5 D) and severe myopia (<-6.0 D) were determined for Chinese, Malay, and Indian men; prevalence rate ratios were compared after adjusting for education level.. Singapore has one of the highest prevalences of myopia (79.3%) and severe myopia (13.1%), with Chinese having higher rates (82.2%, 95% confidence interval 81.5, 82.9) compared with Indians (68.7%, 95% confidence interval 65.1, 67.1) and Malays (65.0%, 95% confidence interval 62.9, 67.1). Education was strongly associated with prevalence and severity of myopia. However, significant interethnic variation persisted after adjusting for education.. There is a high prevalence of myopia in Singapore. Although prevalence and severity of myopia were strongly associated with education, interethnic variation observed was not fully explained by differences in education level.

Topics: Adolescent; Adult; China; Cohort Studies; Educational Status; Ethnicity; Female; Humans; India; Malaysia; Male; Myopia; Prevalence; Refraction, Ocular; Singapore; Surveys and Questionnaires

A cross-sectional study on a normal clinical myopic population reveals that there is a difference in the pattern of myopic progression between Malays and Chinese in Malaysia. It shows that while myopia in Malays stays relatively constant throughout 10 to 50 years of age, myopia in Chinese progresses rapidly from 10 to 20 years of age, after which it starts to show hyperopic shift, reaching a level of myopia similar to that of Malays at around 35 years of age. In view of the above finding it is postulated that the difference in myopia between the two races may be due to excessive accommodation in Chinese, causing a temporary increase in crystalline lens power and hence an increase in myopia. Because the magnitude of myopia for both races for 10 +/- 1 years age group is relatively high, i.e. about -2.00 D, it is postulated that myopia in these ethnic groups may start much earlier than 10 years of age.

Topics: Adolescent; Adult; Age Factors; Child; China; Female; Humans; Malaysia; Male; Middle Aged; Myopia

Computerised data of 110,236 Singaporean males aged 15 to 25 (mean 17.75) years who underwent compulsory medical examination from April 1987 to January 1992 were used to estimate the prevalence and severity of myopia among young Chinese, Malay, Indian and Eurasian Singaporean males with different educational levels. The prevalence and severity of myopia amongst the groups with different educational levels were compared. These groups were fairly well-matched for important known confounding factors such as age, sex, race and degree of urbanisation of place of residence. Our data showed a positive association between educational attainment and both the prevalence and severity of myopia. Both the prevalence of myopia and the proportion of myopes with severe myopia were in general higher among those with more years of formal education.

Topics: Adolescent; Adult; China; Cohort Studies; Cross-Sectional Studies; Educational Status; Humans; India; Malaysia; Male; Myopia; Prevalence; Refraction, Ocular; Retrospective Studies; Singapore; Visual Acuity

A cross-sectional study of 753 Melanesian children in Vanuatu and 904 Malay children in Malaysia included measurement of refractive error and ocular dimensions. All children were between the ages of 6 and 17 years. The prevalence of myopia in Malay children was 4.3% at 7-8 years and 25.6% at 15-16 years with corresponding figures of 0.8% and 4.3% for Melanesian children. The range of refractive error was greater for Malay children at all ages. Mean refractive error for Malay children showed greater hypermetropia, together with a shorter axial length at 6 years, than Melanesian children, but at 17 years the situation reversed and Malay children had more myopia and longer axial lengths than their Melanesian counterparts.

Topics: Adolescent; Age Factors; Anthropometry; Child; Cross-Sectional Studies; Eye; Female; Humans; Hyperopia; Malaysia; Male; Myopia; Refractive Errors; Vanuatu

Topics: Adolescent; Adult; Child; Child, Preschool; Eye Injuries; Follow-Up Studies; Humans; Malaysia; Myopia; Retinal Detachment; Retinal Perforations

Topics: Adolescent; Adult; Aged; Asian People; Child; Child, Preschool; China; Humans; Hyperopia; India; Malaysia; Middle Aged; Myopia; Refractive Errors