Epidemiologic study of age-related cataracts among an elderly Chinese population in Shih-Pai, Taiwan.

PURPOSE The purpose of this study was to determine the prevalence and risk factors for age-related cataracts in a metropolitan elderly Chinese population in Shihpai, Taipei, Taiwan. DESIGN Population-based cross-sectional study. PARTICIPANTS A total of 2045 subjects at least 65 years of age were invited to participate, and 1361 (66.6%) participated in the survey. METHODS An eye examination, including lens opacity grading, was conducted by ophthalmologists using the Lens Opacity Classification System III (LOCS III). A structured questionnaire was used for data collection. Interviewers also collected information on subjects' blood pressure, lifestyle (cigarette smoking and alcohol intake), medical history, and waist and hip circumferences. MAIN OUTCOME MEASURES Subjects were defined as having age-related cataracts if there was any type of lens opacity with an LOCS III grade of more than 2 in one or both eyes. When both eyes of an individual had age-related cataracts, the more affected eye was used for analysis. RESULTS Among the 1361 participants, 806 were diagnosed with age-related cataracts. The prevalence was 59.2% (95% confidence interval, 56.6%-61.8%). Women had a higher prevalence of cataracts than men (64.0% vs. 56.1%, P = 0.004). The prevalence of age-related cataracts increased with age (P = 0.001). Nuclear opacity was the most prevalent type (38.9%), followed by cortical opacity (21.9%) and posterior subcapsular opacity (9.2%). On the basis of the final logistic regression model, after controlling for all other covariates, increased age and female gender were factors that were associated with an increased risk for all types of cataracts. Besides age and gender, the most significant risk factor for nuclear cataracts was current cigarette smoking; the significant predictors for cortical cataracts were higher systolic blood pressure, a history of cigarette smoking in the past, and history of diabetes; the significant predictor for posterior subcapsular cataracts was higher systolic blood pressure. CONCLUSIONS The increasing prevalence of age-related cataracts with age highlights the need to seek appropriate medical services and for preventative interventions. Elderly people often ignore the importance of seeking vision services and care to prevent blindness or visual impairment. These findings suggest that the elderly need to be educated regarding the importance of eye care by physicians and hygiene authorities in Taiwan.

[1]  L B Ellwein,et al.  Measurements of vision function and quality of life in patients with cataracts in southern India. Report of instrument development. , 1997, Archives of ophthalmology.

[2]  L. Smeeth,et al.  Effectiveness of screening older people for impaired vision in community setting: systematic review of evidence from randomised controlled trials , 1998, BMJ.

[3]  R. Cumming,et al.  Alcohol, smoking, and cataracts: the Blue Mountains Eye Study. , 1997, A M A Archives of Ophthalmology.

[4]  K Bandeen-Roche,et al.  Functional status and quality of life measurement among ophthalmic patients. , 1994, Archives of ophthalmology.

[5]  B. Thylefors,et al.  The World Health Organization's programme for the prevention of blindness , 1990, International Ophthalmology.

[6]  L T Chylack,et al.  The Lens Opacities Case-Control Study. Risk factors for cataract. , 1991, Archives of ophthalmology.

[7]  R. Klein,et al.  Cigarette smoking and lens opacities: the Beaver Dam Eye Study. , 1993, American journal of preventive medicine.

[8]  B. Munoz,et al.  Hormone replacement therapy and lens opacities: the Salisbury Eye Evaluation project. , 2001, Archives of ophthalmology.

[9]  M. C. Leske,et al.  The Lens Opacities Classification System III , 1993 .

[10]  R. Sperduto,et al.  The prevalence of nuclear, cortical, and posterior subcapsular lens opacities in a general population sample. , 1984, Ophthalmology.

[11]  R. Sperduto,et al.  Senile lens and senile macular changes in a population-based sample. , 1980, American journal of ophthalmology.

[12]  B. Rovner,et al.  Depression and Disability Associated with Impaired Vision: The MoVIES Project , 1998, Journal of the American Geriatrics Society.

[13]  L. Ellwein,et al.  Prevalence of blindness and cataract surgery in Shunyi County, China. , 1998, American journal of ophthalmology.

[14]  R. Klein,et al.  Reproductive exposures, incident age-related cataracts, and age-related maculopathy in women: the beaver dam eye study. , 2000, American journal of ophthalmology.

[15]  B Rosner,et al.  A prospective study of cigarette smoking and risk of cataract in men. , 1992, JAMA.

[16]  M. C. Leske,et al.  Diabetes, hypertension, and central obesity as cataract risk factors in a black population. The Barbados Eye Study. , 1999, Ophthalmology.

[17]  F. Lee,et al.  Population-based study on prevalence and risk factors of age-related cataracts in Peitou, Taiwan. , 2000, Zhonghua yi xue za zhi = Chinese medical journal; Free China ed.

[18]  B. Schwartz,et al.  Association of systemic hypertension and diabetes mellitus with cataract extraction. A case-control study. , 1989, Ophthalmology.

[19]  M. C. Leske,et al.  Prevalence of lens opacities in the Barbados Eye Study. , 1997, Archives of ophthalmology.

[20]  H. Luukinen,et al.  Prevalence and risk factors of lens opacities in the elderly in Finland. A population-based study. , 1995, Ophthalmology.

[21]  A. Fletcher,et al.  Visual acuity and quality of life outcomes in patients with cataract in Shunyi County, China. , 1998, American journal of ophthalmology.

[22]  R. Cumming,et al.  Visual Impairment and Falls in Older Adults: The Blue Mountains Eye Study , 1998, Journal of the American Geriatrics Society.

[23]  R. Hays,et al.  The impact of blurred vision on functioning and well-being. , 1997, Ophthalmology.

[24]  H. Taylor,et al.  The epidemiology of cataract in Australia. , 1999, American journal of ophthalmology.

[25]  P. Mitchell,et al.  Diabetes, fasting blood glucose and age-related cataract: the Blue Mountains Eye Study , 2000, Ophthalmic epidemiology.

[26]  S. Leeder,et al.  A population based study , 1993, The Medical journal of Australia.

[27]  S. Tsai,et al.  Associated risk factors of diabetes in Kin-Hu, Kinmen. , 1994, Diabetes research and clinical practice.

[28]  R. Cumming,et al.  Hormone replacement therapy, reproductive factors, and cataract. The Blue Mountains Eye Study. , 1997, American journal of epidemiology.

[29]  R. Klein,et al.  Diabetes, cardiovascular disease, selected cardiovascular disease risk factors, and the 5-year incidence of age-related cataract and progression of lens opacities: the Beaver Dam Eye Study. , 1998, American journal of ophthalmology.

[30]  N. Brown,et al.  The lens opacities case-control study. , 1991, Archives of ophthalmology.

[31]  K L Linton,et al.  Prevalence of age-related lens opacities in a population. The Beaver Dam Eye Study. , 1992, Ophthalmology.

[32]  L T Chylack,et al.  Evaluation of lens opacities classification system III applied at the slitlamp. , 1993, Optometry and vision science : official publication of the American Academy of Optometry.

[33]  R. Klein,et al.  Incident cataract after a five-year interval and lifestyle factors: the Beaver Dam eye study. , 1999, Ophthalmic epidemiology.

[34]  R. Cumming,et al.  Prevalence of cataract in Australia: the Blue Mountains eye study. , 1997, Ophthalmology.

[35]  D D Duncan,et al.  Racial differences in lens opacities: the Salisbury Eye Evaluation (SEE) project. , 1998, American journal of epidemiology.

[36]  B. Munoz,et al.  Cigarette smoking and risk of nuclear cataracts. , 1989, Archives of ophthalmology.