Luyao Ye1,2,3, Shanshan Li2, Ya Shi1,2,3, Yao Yin2, Jiangnan He2, Jianfeng Zhu2, Xun Xu1,2,3. 1. Department of Ophthalmology, Shanghai General Hospital, Shanghai Jiao Tong University, Shanghai, China. 2. Shanghai Eye Disease Prevention and Treatment Centre, Shanghai Eye Hospital, Shanghai, China. 3. National Clinical Research Centre for Eye Diseases, Shanghai Key Laboratory of Ocular Fundus Diseases, Shanghai Engineering Centre for Visual Science and Photomedicine, Shanghai Engineering Centre for Precise Diagnosis and Treatment of Eye Diseases, Shanghai, China.
Abstract
CLINICAL RELEVANCE: In clinical practice, 1% atropine and 1% cyclopentolate are used as cycloplegia agents to diagnose refractive error. The influence of 1% atropine on ocular biometry is obscure, and the impact of 1% cyclopentolate remains controversial. BACKGROUND: This study aims to compare the effects of atropine versus cyclopentolate cycloplegia on ocular biometry in myopic children and to determine the sites of action for atropine. METHODS: A total of 207 myopic children aged 6-12-years were included in the analysis. All participants underwent comprehensive eye examinations before and after cyclopentolate cycloplegia, after which they were randomly assigned into two groups, A and B, in a ratio of 1:1, to receive 1% or 0.01% atropine, respectively. The treatment was administered once every night for a week. Participants were re-examined one week later. RESULTS: Cyclopentolate cycloplegia caused a decrease in choroidal thickness (-3 ± 9 μm, p = 0.001), elongation of axial length (9 ± 16 μm, p < 0.001), loss of lens power (-0.14 ± 0.37 dioptre, p < 0.001), and a hyperopic shift (0.14 ± 0.22 dioptre, p < 0.001) in both groups. However, ocular biometry showed different changes after one-week use of 1% or 0.01% atropine (all p < 0.001). In Group A, choroid thickening (24 ± 13 μm, p < 0.001) and reduced axial length (-30 ± 27 μm, p < 0.001) were observed after atropine cycloplegia, with greater changes in lens power (0.50 ± 0.37 dioptre, p < 0.001) and spherical equivalent (0.52 ± 0.23 dioptre, p < 0.001). Group B showed a slight increase in choroidal thickness following one-week use of 0.01% atropine (6 ± 9 μm, p < 0.001), but other biometric measures showed no significant changes. CONCLUSION: Cyclopentolate and atropine cycloplegia have different effects on ocular biometry. Both 1% cyclopentolate cycloplegia and 0.01% atropine resulted in choroidal thickening, indicating that the choroid may be a site of action for atropine.
CLINICAL RELEVANCE: In clinical practice, 1% atropine and 1% cyclopentolate are used as cycloplegia agents to diagnose refractive error. The influence of 1% atropine on ocular biometry is obscure, and the impact of 1% cyclopentolate remains controversial. BACKGROUND: This study aims to compare the effects of atropine versus cyclopentolate cycloplegia on ocular biometry in myopic children and to determine the sites of action for atropine. METHODS: A total of 207 myopic children aged 6-12-years were included in the analysis. All participants underwent comprehensive eye examinations before and after cyclopentolate cycloplegia, after which they were randomly assigned into two groups, A and B, in a ratio of 1:1, to receive 1% or 0.01% atropine, respectively. The treatment was administered once every night for a week. Participants were re-examined one week later. RESULTS: Cyclopentolate cycloplegia caused a decrease in choroidal thickness (-3 ± 9 μm, p = 0.001), elongation of axial length (9 ± 16 μm, p < 0.001), loss of lens power (-0.14 ± 0.37 dioptre, p < 0.001), and a hyperopic shift (0.14 ± 0.22 dioptre, p < 0.001) in both groups. However, ocular biometry showed different changes after one-week use of 1% or 0.01% atropine (all p < 0.001). In Group A, choroid thickening (24 ± 13 μm, p < 0.001) and reduced axial length (-30 ± 27 μm, p < 0.001) were observed after atropine cycloplegia, with greater changes in lens power (0.50 ± 0.37 dioptre, p < 0.001) and spherical equivalent (0.52 ± 0.23 dioptre, p < 0.001). Group B showed a slight increase in choroidal thickness following one-week use of 0.01% atropine (6 ± 9 μm, p < 0.001), but other biometric measures showed no significant changes. CONCLUSION: Cyclopentolate and atropine cycloplegia have different effects on ocular biometry. Both 1% cyclopentolate cycloplegia and 0.01% atropine resulted in choroidal thickening, indicating that the choroid may be a site of action for atropine.