CONTEXT: Age-related macular degeneration (AMD) is the leading cause of irreversible blindness among older individuals in many parts of the world. The relative importance of genes and environment in the etiology of this major public health problem is not well understood. OBJECTIVE: To investigate the impact of genetic and environmental factors. PARTICIPANTS: Living twins in the National Academy of Sciences-National Research Council World War II Veteran Twin Registry born between 1917 and 1927. METHODS: Twins were surveyed for the known presence of macular degeneration. Enrolled twins underwent a standardized examination and fundus photography. Age-related macular degeneration evaluation was completed for 840 elderly male twins, 210 monozygotic and 181 dizygotic complete twin pairs, both concordant and discordant for presence or absence of AMD, and 58 singletons. A bivariate twin model incorporating initial screening ascertainment and age effects was employed to partition variation in liability to AMD and signs of maculopathy into additive genetic, common environment, and unique environment components. MAIN OUTCOME MEASURE: Heritability of AMD grade and signs of maculopathy based on clinical examination and fundus photographs. RESULTS: Of the 840 twins, 331 had no signs of maculopathy and 241 had early signs, while 162 had intermediate AMD and 106 had advanced AMD. Heritability (additive genetic) estimates were significant for overall AMD grade (0.46) and for intermediate (0.67) and advanced (0.71) AMD. Significant unique environmental proportions of variance were also observed for these AMD variables (0.37, 0.19, and 0.24, respectively). Shared or common environmental contributions were not significant (0.05-0.17). For specific macular drusen and retinal pigment epithelial characteristics, significant genetic (0.26-0.71) and unique environmental (0.28-0.64) proportions of variance were detected. CONCLUSIONS: Genetic factors play a substantial role in the etiology of AMD and associated macular characteristics, explaining 46% to 71% of the variation in the overall severity of the disease. Environmental factors unique to each twin also contribute to the occurrence of this disease. This quantification of relative genetic and environmental contributions to the development of AMD should guide future research on this important cause of blindness.
CONTEXT: Age-related macular degeneration (AMD) is the leading cause of irreversible blindness among older individuals in many parts of the world. The relative importance of genes and environment in the etiology of this major public health problem is not well understood. OBJECTIVE: To investigate the impact of genetic and environmental factors. PARTICIPANTS: Living twins in the National Academy of Sciences-National Research Council World War II Veteran Twin Registry born between 1917 and 1927. METHODS: Twins were surveyed for the known presence of macular degeneration. Enrolled twins underwent a standardized examination and fundus photography. Age-related macular degeneration evaluation was completed for 840 elderly male twins, 210 monozygotic and 181 dizygotic complete twin pairs, both concordant and discordant for presence or absence of AMD, and 58 singletons. A bivariate twin model incorporating initial screening ascertainment and age effects was employed to partition variation in liability to AMD and signs of maculopathy into additive genetic, common environment, and unique environment components. MAIN OUTCOME MEASURE: Heritability of AMD grade and signs of maculopathy based on clinical examination and fundus photographs. RESULTS: Of the 840 twins, 331 had no signs of maculopathy and 241 had early signs, while 162 had intermediate AMD and 106 had advanced AMD. Heritability (additive genetic) estimates were significant for overall AMD grade (0.46) and for intermediate (0.67) and advanced (0.71) AMD. Significant unique environmental proportions of variance were also observed for these AMD variables (0.37, 0.19, and 0.24, respectively). Shared or common environmental contributions were not significant (0.05-0.17). For specific macular drusen and retinal pigment epithelial characteristics, significant genetic (0.26-0.71) and unique environmental (0.28-0.64) proportions of variance were detected. CONCLUSIONS: Genetic factors play a substantial role in the etiology of AMD and associated macular characteristics, explaining 46% to 71% of the variation in the overall severity of the disease. Environmental factors unique to each twin also contribute to the occurrence of this disease. This quantification of relative genetic and environmental contributions to the development of AMD should guide future research on this important cause of blindness.
Authors: Gwenole Quellec; Stephen R Russell; Johanna M Seddon; Robyn Reynolds; Todd Scheetz; Vinit B Mahajan; Edwin M Stone; Michael D Abràmoff Journal: Invest Ophthalmol Vis Sci Date: 2011-11-25 Impact factor: 4.799
Authors: Li Tang; Todd E Scheetz; David A Mackey; Alex W Hewitt; John H Fingert; Young H Kwon; Gwenole Quellec; Joseph M Reinhardt; Michael D Abràmoff Journal: Invest Ophthalmol Vis Sci Date: 2010-05-26 Impact factor: 4.799
Authors: Jingsheng Tuo; Baitang Ning; Christine M Bojanowski; Zhong-Ning Lin; Robert J Ross; George F Reed; Defen Shen; Xiaodong Jiao; Min Zhou; Emily Y Chew; Fred F Kadlubar; Chi-Chao Chan Journal: Proc Natl Acad Sci U S A Date: 2006-06-05 Impact factor: 11.205
Authors: Pancy O S Tam; Tsz Kin Ng; David T L Liu; Wai Man Chan; Sylvia W Y Chiang; Li Jia Chen; Andrew DeWan; Josephine Hoh; Dennis S C Lam; Chi Pui Pang Journal: Invest Ophthalmol Vis Sci Date: 2008-03-03 Impact factor: 4.799
Authors: Lars G Fritsche; Robert N Fariss; Dwight Stambolian; Gonçalo R Abecasis; Christine A Curcio; Anand Swaroop Journal: Annu Rev Genomics Hum Genet Date: 2014-04-16 Impact factor: 8.929