AIM: To explore the distribution pattern of macular choroidal thickness(ChT) and its association with age as well as refractive status in Chinese preschoolers.METHODS: School-based, cross-sectional study. A total of 5...AIM: To explore the distribution pattern of macular choroidal thickness(ChT) and its association with age as well as refractive status in Chinese preschoolers.METHODS: School-based, cross-sectional study. A total of 550 healthy preschool children aged 3 to 6 years old from 6 kindergartens were enrolled. Comprehensive ocular examinations, including measurement of visual acuity, axial length, intraocular pressure and slit-lamp examination before cycloplegia, as well as refraction measurement and sweptsource optical coherence tomography(SS-OCT) examination after cycloplegia, were performed. The macular ChT in each sector of the ETDRS grid was measured by the builtin software of SS-OCT.RESULTS: The mean central ChT of the participants was 312±59 μm. The mean axial length and spherical equivalent refraction were 22.36±0.72 mm and 1.51±0.83 D, respectively. Axial length increased with age(P<0.001), while the spherical equivalent refraction was similar among different age groups. Similarly, no significant difference was observed in ChT in all sectors among different age groups(all P>0.05). The central ChT of 3-4, 5 and 6 years old children was 314±59 μm, 312±60 μm and 312±59 μm, respectively(P=0.920). No difference was observed in ChT in most of the sectors between genders. No statistical significant difference was observed among different refractive groups(all P>0.05), though the ChT of each sector seemed to be smaller in myopic children. Axial length and weight were the independent factors of central Ch T. Children with longer axial length(β=-21.184, P<0.001) and smaller weight(β=1.502, P=0.041) tended to have thinner choroid.CONCLUSION: In preschool children, the ChT remains relatively stable with age, while a negative association between ChT and axial length existed. This will be helpful to elucidate the characteristics of ChT during the early refractive development.展开更多
To the Editor: Reduced vision impacts not only the individual but also the family, community, and public health. It leads to a significant economic burden, including increased education cost, reduced personal income,...To the Editor: Reduced vision impacts not only the individual but also the family, community, and public health. It leads to a significant economic burden, including increased education cost, reduced personal income, and loss of productivity for caregivers, and numerous intangible consequences, such as loss of independence, reduced quality of life, and excess morbidity for individuals. An estimated 19 million of the world's children are visually impaired, while 1.4 million are blind, according to the World Health Organization (WHO) criteria. Therefore, the control of visual impairment or blindness (VI/BL) in children is still one of the priority areas of the WHO's "Vision 2020: the Right to Sight" program.展开更多
Background:To investigate the associations of lens power with age,axial length(AL),and Type 2 diabetes mellitus(DM)in Chinese adults aged 50 and above.Methods:Random clustering sampling was used to identify adults age...Background:To investigate the associations of lens power with age,axial length(AL),and Type 2 diabetes mellitus(DM)in Chinese adults aged 50 and above.Methods:Random clustering sampling was used to identify adults aged 50 years and above in urban regions of Shanghai.The participants underwent a comprehensive ophthalmic examination including subjective refraction,autorefraction,and IOL-Master.The crystalline lens power was calculated using Bennett’s formula.Results:A total of 4177 adults were included.A linear decrease in lens power was observed both with age and with AL,followed by a stop of lens power loss after the age of 70 or when AL≥25 mm,respectively.Participants with Type 2 DM presented higher lens power(0.43 diopter(D),p<0.001)and thicker lens thickness(0.06 mm,p<0.001).In multivariate regression models,there was a positive correlation between lens power and Type 2 DM when age<75 years(p<0.001)or AL<25 mm(p<0.001)after adjusting for other factors,while no significant association was found in participants aged≥75 years(p=0.122)or with AL≥25 mm(p=0.172).Conclusions:The lens power in adults aged 50 and above exhibited two stages with age and with AL.Type 2 DM caused an increase in lens power,which was not seen in participants aged≥75 years or with AL≥25 mm.展开更多
Background:To investigate the associations of lens power with age,axial length(AL),and type 2 diabetes mellitus(DM)inChineseadultsaged5oandabove.Methods:Random clustering sampling was used to identify adults aged 50 y...Background:To investigate the associations of lens power with age,axial length(AL),and type 2 diabetes mellitus(DM)inChineseadultsaged5oandabove.Methods:Random clustering sampling was used to identify adults aged 50 years and above in urban regions of Shanghai.The participants underwent a comprehensive ophthalmic examination including subjective refraction,autorefraction,and IOL-Master.The crystalline lens power was calculated using Bennett's formula.Results:A total of 4177 adults were included.A linear decrease in lens power was observed both with age and with AL,followed by a stop of lens power loss after the age of 70 or when AL≥25 mm,respectively.Participants with type 2 DM presented higher lens power(0.43 diopter(D),P<0.001)and thicker lens thickness(0.06 mm,P<0.001).In multivariate regression models,there was a positive correlation between lens power and type 2 DM when age<75 years(P<0.001)or AL<25 mm(P<0.001)after adjusting for other factors,while no significant association was found in participants aged≥75 years(P=0.122)or with AL≥25 mm(P=0.172).Conclusions:The lens power in adults aged 50 and above exhibited two stages with age and with AL.Type 2 DM caused an increase in lens power,which was not seen in participants aged≥75 years or with AL≥25 mm.展开更多
基金Supported by Municipal Human Resources Development Program for Outstanding Young Talents in Medical and Health Sciences in Shanghai(No.2017YQ019)Key Discipline of Public Health-Eye health in Shanghai(No.15GWZK0601)Overseas High-end Research Team-Eye health in Shanghai(No.GWTD2015S08)
文摘AIM: To explore the distribution pattern of macular choroidal thickness(ChT) and its association with age as well as refractive status in Chinese preschoolers.METHODS: School-based, cross-sectional study. A total of 550 healthy preschool children aged 3 to 6 years old from 6 kindergartens were enrolled. Comprehensive ocular examinations, including measurement of visual acuity, axial length, intraocular pressure and slit-lamp examination before cycloplegia, as well as refraction measurement and sweptsource optical coherence tomography(SS-OCT) examination after cycloplegia, were performed. The macular ChT in each sector of the ETDRS grid was measured by the builtin software of SS-OCT.RESULTS: The mean central ChT of the participants was 312±59 μm. The mean axial length and spherical equivalent refraction were 22.36±0.72 mm and 1.51±0.83 D, respectively. Axial length increased with age(P<0.001), while the spherical equivalent refraction was similar among different age groups. Similarly, no significant difference was observed in ChT in all sectors among different age groups(all P>0.05). The central ChT of 3-4, 5 and 6 years old children was 314±59 μm, 312±60 μm and 312±59 μm, respectively(P=0.920). No difference was observed in ChT in most of the sectors between genders. No statistical significant difference was observed among different refractive groups(all P>0.05), though the ChT of each sector seemed to be smaller in myopic children. Axial length and weight were the independent factors of central Ch T. Children with longer axial length(β=-21.184, P<0.001) and smaller weight(β=1.502, P=0.041) tended to have thinner choroid.CONCLUSION: In preschool children, the ChT remains relatively stable with age, while a negative association between ChT and axial length existed. This will be helpful to elucidate the characteristics of ChT during the early refractive development.
基金This study was supported by grants from Shanghai Health and Family Planning Commission Youth Project (No. 20144Y0210) and the National Natural Science Foundation of China (No. 81400388).
文摘To the Editor: Reduced vision impacts not only the individual but also the family, community, and public health. It leads to a significant economic burden, including increased education cost, reduced personal income, and loss of productivity for caregivers, and numerous intangible consequences, such as loss of independence, reduced quality of life, and excess morbidity for individuals. An estimated 19 million of the world's children are visually impaired, while 1.4 million are blind, according to the World Health Organization (WHO) criteria. Therefore, the control of visual impairment or blindness (VI/BL) in children is still one of the priority areas of the WHO's "Vision 2020: the Right to Sight" program.
基金This study was funded by the National Natural Science Foundation of China(Grant No.:81670898 and 81703287,Beijing,China)the Shanghai Three-Year Public Health Action Program(Project Nos.GWIV-3.3 and GWIV-13.1,Shanghai,China)+7 种基金the Shanghai High-level Overseas Training Team Program on Eye Public Health(Project No.GWTD2015S08,Shanghai,China)Shanghai Municipal Education Commission—Gaofeng Clinical Medicine Grant Support(Project No.20172022,Shanghai,China)Shanghai General Hospital,Clinical Research(Project No.CTCCR-2018Z01,Shanghai,China)the Shanghai Science and Technology Commission Research Project(Project No.17ZR1426900,Shanghai,China)the Shanghai Municipal Planning Commission of Science and Research Fund(Project No.201640090,Shanghai,China)National Key R&D Program of China(Project No.2016YFC0904800,2019YFC0840607)National Science and Technology Major Project of China(Project No.2017ZX09304010)The sponsors or funding organizations had no role in the design or conduct of this research.
文摘Background:To investigate the associations of lens power with age,axial length(AL),and Type 2 diabetes mellitus(DM)in Chinese adults aged 50 and above.Methods:Random clustering sampling was used to identify adults aged 50 years and above in urban regions of Shanghai.The participants underwent a comprehensive ophthalmic examination including subjective refraction,autorefraction,and IOL-Master.The crystalline lens power was calculated using Bennett’s formula.Results:A total of 4177 adults were included.A linear decrease in lens power was observed both with age and with AL,followed by a stop of lens power loss after the age of 70 or when AL≥25 mm,respectively.Participants with Type 2 DM presented higher lens power(0.43 diopter(D),p<0.001)and thicker lens thickness(0.06 mm,p<0.001).In multivariate regression models,there was a positive correlation between lens power and Type 2 DM when age<75 years(p<0.001)or AL<25 mm(p<0.001)after adjusting for other factors,while no significant association was found in participants aged≥75 years(p=0.122)or with AL≥25 mm(p=0.172).Conclusions:The lens power in adults aged 50 and above exhibited two stages with age and with AL.Type 2 DM caused an increase in lens power,which was not seen in participants aged≥75 years or with AL≥25 mm.
基金This study was funded by the National Natural Science Foundation of China(Grant Nos.81670898 and 81703287)the Shanghai Three-Year Public Health Action Program(Project.Nos.GWIV-3.3 and GWIV-13.1)+6 种基金the Shanghai High-level Overseas Training Team Programon Eye Public Health(Project No.GWTD2015S08)the Shanghai Municipal Education Commission-Gaofeng Clinical Medicine Grant Support(Project No.20172022)the Shanghai General Hospital,Clinical Research(Project No.CTCCR-2018Z01)the Shanghai Science and Technology Commission Research Project(Project No.17ZR1426900)the Shanghai Municipal Planning Commission of Science and Research Fund(Project No.201640090)the National Key R&D Program of China(Project Nos.2016YFC0904800,2019YFC0840607)the National Science and Technology Major Project of China(Project No.2017ZX09304010).
文摘Background:To investigate the associations of lens power with age,axial length(AL),and type 2 diabetes mellitus(DM)inChineseadultsaged5oandabove.Methods:Random clustering sampling was used to identify adults aged 50 years and above in urban regions of Shanghai.The participants underwent a comprehensive ophthalmic examination including subjective refraction,autorefraction,and IOL-Master.The crystalline lens power was calculated using Bennett's formula.Results:A total of 4177 adults were included.A linear decrease in lens power was observed both with age and with AL,followed by a stop of lens power loss after the age of 70 or when AL≥25 mm,respectively.Participants with type 2 DM presented higher lens power(0.43 diopter(D),P<0.001)and thicker lens thickness(0.06 mm,P<0.001).In multivariate regression models,there was a positive correlation between lens power and type 2 DM when age<75 years(P<0.001)or AL<25 mm(P<0.001)after adjusting for other factors,while no significant association was found in participants aged≥75 years(P=0.122)or with AL≥25 mm(P=0.172).Conclusions:The lens power in adults aged 50 and above exhibited two stages with age and with AL.Type 2 DM caused an increase in lens power,which was not seen in participants aged≥75 years or with AL≥25 mm.
