角膜和全眼高阶波前像差的特点及年龄相关性变化的研究

Objective To investigate age-related changes in corneal and ocular monochromatic high-er-order aberrations and elucidate the distribution of corneal primary spherical in Chinese. Methods Using Traeey-iTrace visual function analyzer (EyeSys corneal topography combined with a ray-tracing aberrometer),113 normal eyes of 59 Chinese,mean age of 33.81+20.50 years (range,5-73 years),were evaluated for corneal and ocular monochromatic total higher-order aberrations (HOAs), primary spherical aberration (Z40),total spherical (TS),total coma (TC),and total trefoil aberration (TT) in the central 6mm diameter. Correla-tion analysis was also performed to assess the association between age and both corneal and oeular higher-order aberrations. Results The mean Zemike coefficient of Z40 was (0.27±0.07) ?m (range,0.130～0.451). Al-though corneal Z40 increased slightly with age,the correlation was small and insignificant (r =0.172,p =0.069 ). However, ocular Z40 had a positive correlation with age (r =0.545,p =0.000 ). Analyzer showed positive correlations with age for both corneal (r=0.499,p =0.000) and ocular (r=0.427,p =0.000) HOAs. Positive correlations were also observed between age and both corneal (r=0.149,p =0.021 ) and ocular (r=0.253,p =0.007) TC. Corneal and ocular TT (r =0.344,p =0.000; r=0.185,p =0.050,respectively) were increased with age. No significant correlation was found between corneal TS and age (r =0.180,p =0.057 ), but TS of the whole eye in-creased with age (r =0.560,p =0.000). There was a positive correlation between corneal and ocular HOAs (r =0.327,p=0.000),TC (r=0.233 ,p=0.013),and TT (r=0.481 ,p=0.000) aberration. Conclusions These re-suits also suggest that the ocular HOAs,TC,and TT increase with age,mainly because of the increase in corneal HOAs,TC,and TT; and the ZAO aberration increases with age,mainly because of the increase in Z40 in the internal optics. Individual variability in corneal primary spherical aberration was observed in Chinese.Therefore, preoperative measurement of corneal Z40 is crucial to the selection of aspheric IOL.     

角膜和全眼高阶波前像差的特点及年龄相关性变化的研究

Objective To investigate age-related changes in corneal and ocular monochromatic high-er-order aberrations and elucidate the distribution of corneal primary spherical in Chinese. Methods Using Traeey-iTrace visual function analyzer (EyeSys corneal topography combined with a ray-tracing aberrometer),113 normal eyes of 59 Chinese,mean age of 33.81+20.50 years (range,5-73 years),were evaluated for corneal and ocular monochromatic total higher-order aberrations (HOAs), primary spherical aberration (Z40),total spherical (TS),total coma (TC),and total trefoil aberration (TT) in the central 6mm diameter. Correla-tion analysis was also performed to assess the association between age and both corneal and oeular higher-order aberrations. Results The mean Zemike coefficient of Z40 was (0.27±0.07) ?m (range,0.130～0.451). Al-though corneal Z40 increased slightly with age,the correlation was small and insignificant (r =0.172,p =0.069 ). However, ocular Z40 had a positive correlation with age (r =0.545,p =0.000 ). Analyzer showed positive correlations with age for both corneal (r=0.499,p =0.000) and ocular (r=0.427,p =0.000) HOAs. Positive correlations were also observed between age and both corneal (r=0.149,p =0.021 ) and ocular (r=0.253,p =0.007) TC. Corneal and ocular TT (r =0.344,p =0.000; r=0.185,p =0.050,respectively) were increased with age. No significant correlation was found between corneal TS and age (r =0.180,p =0.057 ), but TS of the whole eye in-creased with age (r =0.560,p =0.000). There was a positive correlation between corneal and ocular HOAs (r =0.327,p=0.000),TC (r=0.233 ,p=0.013),and TT (r=0.481 ,p=0.000) aberration. Conclusions These re-suits also suggest that the ocular HOAs,TC,and TT increase with age,mainly because of the increase in corneal HOAs,TC,and TT; and the ZAO aberration increases with age,mainly because of the increase in Z40 in the internal optics. Individual variability in corneal primary spherical aberration was observed in Chinese.Therefore, preoperative measurement of corneal Z40 is crucial to the selection of aspheric IOL.     

角膜和全眼高阶波前像差的特点及年龄相关性变化的研究

Objective To investigate age-related changes in corneal and ocular monochromatic high-er-order aberrations and elucidate the distribution of corneal primary spherical in Chinese. Methods Using Traeey-iTrace visual function analyzer (EyeSys corneal topography combined with a ray-tracing aberrometer),113 normal eyes of 59 Chinese,mean age of 33.81+20.50 years (range,5-73 years),were evaluated for corneal and ocular monochromatic total higher-order aberrations (HOAs), primary spherical aberration (Z40),total spherical (TS),total coma (TC),and total trefoil aberration (TT) in the central 6mm diameter. Correla-tion analysis was also performed to assess the association between age and both corneal and oeular higher-order aberrations. Results The mean Zemike coefficient of Z40 was (0.27±0.07) ?m (range,0.130～0.451). Al-though corneal Z40 increased slightly with age,the correlation was small and insignificant (r =0.172,p =0.069 ). However, ocular Z40 had a positive correlation with age (r =0.545,p =0.000 ). Analyzer showed positive correlations with age for both corneal (r=0.499,p =0.000) and ocular (r=0.427,p =0.000) HOAs. Positive correlations were also observed between age and both corneal (r=0.149,p =0.021 ) and ocular (r=0.253,p =0.007) TC. Corneal and ocular TT (r =0.344,p =0.000; r=0.185,p =0.050,respectively) were increased with age. No significant correlation was found between corneal TS and age (r =0.180,p =0.057 ), but TS of the whole eye in-creased with age (r =0.560,p =0.000). There was a positive correlation between corneal and ocular HOAs (r =0.327,p=0.000),TC (r=0.233 ,p=0.013),and TT (r=0.481 ,p=0.000) aberration. Conclusions These re-suits also suggest that the ocular HOAs,TC,and TT increase with age,mainly because of the increase in corneal HOAs,TC,and TT; and the ZAO aberration increases with age,mainly because of the increase in Z40 in the internal optics. Individual variability in corneal primary spherical aberration was observed in Chinese.Therefore, preoperative measurement of corneal Z40 is crucial to the selection of aspheric IOL.     

角膜和全眼高阶波前像差的特点及年龄相关性变化的研究

Objective To investigate age-related changes in corneal and ocular monochromatic high-er-order aberrations and elucidate the distribution of corneal primary spherical in Chinese. Methods Using Traeey-iTrace visual function analyzer (EyeSys corneal topography combined with a ray-tracing aberrometer),113 normal eyes of 59 Chinese,mean age of 33.81+20.50 years (range,5-73 years),were evaluated for corneal and ocular monochromatic total higher-order aberrations (HOAs), primary spherical aberration (Z40),total spherical (TS),total coma (TC),and total trefoil aberration (TT) in the central 6mm diameter. Correla-tion analysis was also performed to assess the association between age and both corneal and oeular higher-order aberrations. Results The mean Zemike coefficient of Z40 was (0.27±0.07) ?m (range,0.130～0.451). Al-though corneal Z40 increased slightly with age,the correlation was small and insignificant (r =0.172,p =0.069 ). However, ocular Z40 had a positive correlation with age (r =0.545,p =0.000 ). Analyzer showed positive correlations with age for both corneal (r=0.499,p =0.000) and ocular (r=0.427,p =0.000) HOAs. Positive correlations were also observed between age and both corneal (r=0.149,p =0.021 ) and ocular (r=0.253,p =0.007) TC. Corneal and ocular TT (r =0.344,p =0.000; r=0.185,p =0.050,respectively) were increased with age. No significant correlation was found between corneal TS and age (r =0.180,p =0.057 ), but TS of the whole eye in-creased with age (r =0.560,p =0.000). There was a positive correlation between corneal and ocular HOAs (r =0.327,p=0.000),TC (r=0.233 ,p=0.013),and TT (r=0.481 ,p=0.000) aberration. Conclusions These re-suits also suggest that the ocular HOAs,TC,and TT increase with age,mainly because of the increase in corneal HOAs,TC,and TT; and the ZAO aberration increases with age,mainly because of the increase in Z40 in the internal optics. Individual variability in corneal primary spherical aberration was observed in Chinese.Therefore, preoperative measurement of corneal Z40 is crucial to the selection of aspheric IOL.     

角膜和全眼高阶波前像差的特点及年龄相关性变化的研究

Objective To investigate age-related changes in corneal and ocular monochromatic high-er-order aberrations and elucidate the distribution of corneal primary spherical in Chinese. Methods Using Traeey-iTrace visual function analyzer (EyeSys corneal topography combined with a ray-tracing aberrometer),113 normal eyes of 59 Chinese,mean age of 33.81+20.50 years (range,5-73 years),were evaluated for corneal and ocular monochromatic total higher-order aberrations (HOAs), primary spherical aberration (Z40),total spherical (TS),total coma (TC),and total trefoil aberration (TT) in the central 6mm diameter. Correla-tion analysis was also performed to assess the association between age and both corneal and oeular higher-order aberrations. Results The mean Zemike coefficient of Z40 was (0.27±0.07) ?m (range,0.130～0.451). Al-though corneal Z40 increased slightly with age,the correlation was small and insignificant (r =0.172,p =0.069 ). However, ocular Z40 had a positive correlation with age (r =0.545,p =0.000 ). Analyzer showed positive correlations with age for both corneal (r=0.499,p =0.000) and ocular (r=0.427,p =0.000) HOAs. Positive correlations were also observed between age and both corneal (r=0.149,p =0.021 ) and ocular (r=0.253,p =0.007) TC. Corneal and ocular TT (r =0.344,p =0.000; r=0.185,p =0.050,respectively) were increased with age. No significant correlation was found between corneal TS and age (r =0.180,p =0.057 ), but TS of the whole eye in-creased with age (r =0.560,p =0.000). There was a positive correlation between corneal and ocular HOAs (r =0.327,p=0.000),TC (r=0.233 ,p=0.013),and TT (r=0.481 ,p=0.000) aberration. Conclusions These re-suits also suggest that the ocular HOAs,TC,and TT increase with age,mainly because of the increase in corneal HOAs,TC,and TT; and the ZAO aberration increases with age,mainly because of the increase in Z40 in the internal optics. Individual variability in corneal primary spherical aberration was observed in Chinese.Therefore, preoperative measurement of corneal Z40 is crucial to the selection of aspheric IOL.     

角膜和全眼高阶波前像差的特点及年龄相关性变化的研究

Objective To investigate age-related changes in corneal and ocular monochromatic high-er-order aberrations and elucidate the distribution of corneal primary spherical in Chinese. Methods Using Traeey-iTrace visual function analyzer (EyeSys corneal topography combined with a ray-tracing aberrometer),113 normal eyes of 59 Chinese,mean age of 33.81+20.50 years (range,5-73 years),were evaluated for corneal and ocular monochromatic total higher-order aberrations (HOAs), primary spherical aberration (Z40),total spherical (TS),total coma (TC),and total trefoil aberration (TT) in the central 6mm diameter. Correla-tion analysis was also performed to assess the association between age and both corneal and oeular higher-order aberrations. Results The mean Zemike coefficient of Z40 was (0.27±0.07) ?m (range,0.130～0.451). Al-though corneal Z40 increased slightly with age,the correlation was small and insignificant (r =0.172,p =0.069 ). However, ocular Z40 had a positive correlation with age (r =0.545,p =0.000 ). Analyzer showed positive correlations with age for both corneal (r=0.499,p =0.000) and ocular (r=0.427,p =0.000) HOAs. Positive correlations were also observed between age and both corneal (r=0.149,p =0.021 ) and ocular (r=0.253,p =0.007) TC. Corneal and ocular TT (r =0.344,p =0.000; r=0.185,p =0.050,respectively) were increased with age. No significant correlation was found between corneal TS and age (r =0.180,p =0.057 ), but TS of the whole eye in-creased with age (r =0.560,p =0.000). There was a positive correlation between corneal and ocular HOAs (r =0.327,p=0.000),TC (r=0.233 ,p=0.013),and TT (r=0.481 ,p=0.000) aberration. Conclusions These re-suits also suggest that the ocular HOAs,TC,and TT increase with age,mainly because of the increase in corneal HOAs,TC,and TT; and the ZAO aberration increases with age,mainly because of the increase in Z40 in the internal optics. Individual variability in corneal primary spherical aberration was observed in Chinese.Therefore, preoperative measurement of corneal Z40 is crucial to the selection of aspheric IOL.     

角膜和全眼高阶波前像差的特点及年龄相关性变化的研究

Objective To investigate age-related changes in corneal and ocular monochromatic high-er-order aberrations and elucidate the distribution of corneal primary spherical in Chinese. Methods Using Traeey-iTrace visual function analyzer (EyeSys corneal topography combined with a ray-tracing aberrometer),113 normal eyes of 59 Chinese,mean age of 33.81+20.50 years (range,5-73 years),were evaluated for corneal and ocular monochromatic total higher-order aberrations (HOAs), primary spherical aberration (Z40),total spherical (TS),total coma (TC),and total trefoil aberration (TT) in the central 6mm diameter. Correla-tion analysis was also performed to assess the association between age and both corneal and oeular higher-order aberrations. Results The mean Zemike coefficient of Z40 was (0.27±0.07) ?m (range,0.130～0.451). Al-though corneal Z40 increased slightly with age,the correlation was small and insignificant (r =0.172,p =0.069 ). However, ocular Z40 had a positive correlation with age (r =0.545,p =0.000 ). Analyzer showed positive correlations with age for both corneal (r=0.499,p =0.000) and ocular (r=0.427,p =0.000) HOAs. Positive correlations were also observed between age and both corneal (r=0.149,p =0.021 ) and ocular (r=0.253,p =0.007) TC. Corneal and ocular TT (r =0.344,p =0.000; r=0.185,p =0.050,respectively) were increased with age. No significant correlation was found between corneal TS and age (r =0.180,p =0.057 ), but TS of the whole eye in-creased with age (r =0.560,p =0.000). There was a positive correlation between corneal and ocular HOAs (r =0.327,p=0.000),TC (r=0.233 ,p=0.013),and TT (r=0.481 ,p=0.000) aberration. Conclusions These re-suits also suggest that the ocular HOAs,TC,and TT increase with age,mainly because of the increase in corneal HOAs,TC,and TT; and the ZAO aberration increases with age,mainly because of the increase in Z40 in the internal optics. Individual variability in corneal primary spherical aberration was observed in Chinese.Therefore, preoperative measurement of corneal Z40 is crucial to the selection of aspheric IOL.     

角膜和全眼高阶波前像差的特点及年龄相关性变化的研究

Objective To investigate age-related changes in corneal and ocular monochromatic high-er-order aberrations and elucidate the distribution of corneal primary spherical in Chinese. Methods Using Traeey-iTrace visual function analyzer (EyeSys corneal topography combined with a ray-tracing aberrometer),113 normal eyes of 59 Chinese,mean age of 33.81+20.50 years (range,5-73 years),were evaluated for corneal and ocular monochromatic total higher-order aberrations (HOAs), primary spherical aberration (Z40),total spherical (TS),total coma (TC),and total trefoil aberration (TT) in the central 6mm diameter. Correla-tion analysis was also performed to assess the association between age and both corneal and oeular higher-order aberrations. Results The mean Zemike coefficient of Z40 was (0.27±0.07) ?m (range,0.130～0.451). Al-though corneal Z40 increased slightly with age,the correlation was small and insignificant (r =0.172,p =0.069 ). However, ocular Z40 had a positive correlation with age (r =0.545,p =0.000 ). Analyzer showed positive correlations with age for both corneal (r=0.499,p =0.000) and ocular (r=0.427,p =0.000) HOAs. Positive correlations were also observed between age and both corneal (r=0.149,p =0.021 ) and ocular (r=0.253,p =0.007) TC. Corneal and ocular TT (r =0.344,p =0.000; r=0.185,p =0.050,respectively) were increased with age. No significant correlation was found between corneal TS and age (r =0.180,p =0.057 ), but TS of the whole eye in-creased with age (r =0.560,p =0.000). There was a positive correlation between corneal and ocular HOAs (r =0.327,p=0.000),TC (r=0.233 ,p=0.013),and TT (r=0.481 ,p=0.000) aberration. Conclusions These re-suits also suggest that the ocular HOAs,TC,and TT increase with age,mainly because of the increase in corneal HOAs,TC,and TT; and the ZAO aberration increases with age,mainly because of the increase in Z40 in the internal optics. Individual variability in corneal primary spherical aberration was observed in Chinese.Therefore, preoperative measurement of corneal Z40 is crucial to the selection of aspheric IOL.     

角膜和全眼高阶波前像差的特点及年龄相关性变化的研究

Objective To investigate age-related changes in corneal and ocular monochromatic high-er-order aberrations and elucidate the distribution of corneal primary spherical in Chinese. Methods Using Traeey-iTrace visual function analyzer (EyeSys corneal topography combined with a ray-tracing aberrometer),113 normal eyes of 59 Chinese,mean age of 33.81+20.50 years (range,5-73 years),were evaluated for corneal and ocular monochromatic total higher-order aberrations (HOAs), primary spherical aberration (Z40),total spherical (TS),total coma (TC),and total trefoil aberration (TT) in the central 6mm diameter. Correla-tion analysis was also performed to assess the association between age and both corneal and oeular higher-order aberrations. Results The mean Zemike coefficient of Z40 was (0.27±0.07) ?m (range,0.130～0.451). Al-though corneal Z40 increased slightly with age,the correlation was small and insignificant (r =0.172,p =0.069 ). However, ocular Z40 had a positive correlation with age (r =0.545,p =0.000 ). Analyzer showed positive correlations with age for both corneal (r=0.499,p =0.000) and ocular (r=0.427,p =0.000) HOAs. Positive correlations were also observed between age and both corneal (r=0.149,p =0.021 ) and ocular (r=0.253,p =0.007) TC. Corneal and ocular TT (r =0.344,p =0.000; r=0.185,p =0.050,respectively) were increased with age. No significant correlation was found between corneal TS and age (r =0.180,p =0.057 ), but TS of the whole eye in-creased with age (r =0.560,p =0.000). There was a positive correlation between corneal and ocular HOAs (r =0.327,p=0.000),TC (r=0.233 ,p=0.013),and TT (r=0.481 ,p=0.000) aberration. Conclusions These re-suits also suggest that the ocular HOAs,TC,and TT increase with age,mainly because of the increase in corneal HOAs,TC,and TT; and the ZAO aberration increases with age,mainly because of the increase in Z40 in the internal optics. Individual variability in corneal primary spherical aberration was observed in Chinese.Therefore, preoperative measurement of corneal Z40 is crucial to the selection of aspheric IOL.     

角膜和全眼高阶波前像差的特点及年龄相关性变化的研究

Objective To investigate age-related changes in corneal and ocular monochromatic high-er-order aberrations and elucidate the distribution of corneal primary spherical in Chinese. Methods Using Traeey-iTrace visual function analyzer (EyeSys corneal topography combined with a ray-tracing aberrometer),113 normal eyes of 59 Chinese,mean age of 33.81+20.50 years (range,5-73 years),were evaluated for corneal and ocular monochromatic total higher-order aberrations (HOAs), primary spherical aberration (Z40),total spherical (TS),total coma (TC),and total trefoil aberration (TT) in the central 6mm diameter. Correla-tion analysis was also performed to assess the association between age and both corneal and oeular higher-order aberrations. Results The mean Zemike coefficient of Z40 was (0.27±0.07) ?m (range,0.130～0.451). Al-though corneal Z40 increased slightly with age,the correlation was small and insignificant (r =0.172,p =0.069 ). However, ocular Z40 had a positive correlation with age (r =0.545,p =0.000 ). Analyzer showed positive correlations with age for both corneal (r=0.499,p =0.000) and ocular (r=0.427,p =0.000) HOAs. Positive correlations were also observed between age and both corneal (r=0.149,p =0.021 ) and ocular (r=0.253,p =0.007) TC. Corneal and ocular TT (r =0.344,p =0.000; r=0.185,p =0.050,respectively) were increased with age. No significant correlation was found between corneal TS and age (r =0.180,p =0.057 ), but TS of the whole eye in-creased with age (r =0.560,p =0.000). There was a positive correlation between corneal and ocular HOAs (r =0.327,p=0.000),TC (r=0.233 ,p=0.013),and TT (r=0.481 ,p=0.000) aberration. Conclusions These re-suits also suggest that the ocular HOAs,TC,and TT increase with age,mainly because of the increase in corneal HOAs,TC,and TT; and the ZAO aberration increases with age,mainly because of the increase in Z40 in the internal optics. Individual variability in corneal primary spherical aberration was observed in Chinese.Therefore, preoperative measurement of corneal Z40 is crucial to the selection of aspheric IOL.     

近视眼患者眼内高阶像差对角膜高阶像差补偿作用的研究

目的：探讨青年中、低度近视眼患者眼内高阶像差对角膜高阶像差的补偿作用。

方法：收集2012-04/05在我院准分子激光中心接受角膜屈光手术的近视眼患者76例152眼,用OPD Scan ARK-10000测量瞳孔直径6mm时角膜前表面和全眼球3～6阶总高阶像差(total higher-order aberrations,HOAs)、总彗差(total coma aberration,TC)、总三叶草(total trefoil aberration,TT)、总球差(total spherical aberration,TS)均方根值(root mean square,RMS)及三阶彗差(Z₃^-1,Z₃¹)、三叶草(Z₃^-3,Z₃³)、四阶球差(Z₄⁰)的Zernike系数,计算补偿因子(compensation factor,CF)。

结果：角膜球差均为正值,33眼(21.7%)全眼球差为负值; 角膜TC均方根值及Z₃^-1 ,Z₃¹小于全眼像差,补偿因子为负值; 角膜HOAs,TT,TS均方根值及Z₃^-3,Z₃³,Z₄⁰均高于全眼像差,补偿因子为正值。

结论：眼内高阶像差对角膜高阶像差主要表现为补偿作用; 眼内球差对角膜球差有补偿作用,可降低全眼球差; 眼内彗差、三叶草对角膜高阶像差的作用个体差异较大,可表现为部分补偿、过度补偿和叠加,其中彗差以叠加作用为主,三叶草以补偿作用为主。     

Ocular higher-order aberrations in eyes with supernormal vision

PURPOSE: To quantify ocular higher-order aberrations (HOAs) in eyes with supernormal vision, that is, natural uncorrected visual acuity (UCVA) > or = 20/15, to analyze the correlation between ocular HOAs and age in these eyes, and to investigate the correlation of HOAs between right and left eyes. DESIGN: Observational case series. METHODS: Ocular HOAs were examined across a naturally dilated pupil with a diameter > or = 6.0 mm in 70 eyes of 35 subjects with > or = 20/15 UCVA (mean age 24.3 years +/- 7.7 [SD]) using the Nidek OPD scan wavefront aberrometer. Root-mean-square (RMS) values of HOA, total spherical aberration (TSA), total coma (TC), and total trefoil (TT) were analyzed. Correlation analysis was performed to assess the association between ocular HOAs and age and the correlation of HOAs between right and left eyes. RESULTS: Mean RMS values were 0.334 +/- 0.192 microm for HOA, 0.110 +/- 0.077 microm for TSA, 0.136 +/- 0.081 microm for TC, and 0.268 +/- 0.220 microm for TT. There were no significant differences in the mean values of HOA, TSA, TC, and TT between right and left eyes. The Pearson correlation coefficient between right and left eyes for TSA was 0.764 (P<.0001). No significant correlation was found between right and left eyes for HOA, TC, and TT. No significant correlation was found between each of the ocular aberrations and age. CONCLUSIONS: The amount of ocular HOAs in eyes with natural supernormal vision is not negligible, and is comparable to the reported amount of HOAs in myopic eyes.     

Ocular higher-order aberrations in myopia and skiascopic wavefront repeatability

PURPOSE: To study the distribution of ocular higher-order aberrations (HOAs) in a myopic population and to assess the repeatability of HOA measurements determined by a commercially available skiascopic wavefront sensor. SETTING: Department of Ophthalmology, Assaf Harofeh Medical Center, Zerifin, Israel. METHODS: Ocular HOAs were examined 3 times across a 6.0 mm naturally dilated pupil in 61 eyes using the Optical Path Difference (OPD)-scan wavefront aberrometer. Root-mean-square (RMS) values of HOAs, total spherical aberration (TSA), total coma (TC), and total trefoil (TT) were analyzed. Correlation analysis was performed to assess the aberration symmetry between right and left eyes. The repeatability of the OPD-scan measurements was assessed by calculating Pearson r correlation coefficients between each pair of measurements and the interclass correlation coefficients between the 3 measurements of each score. RESULTS: The mean RMS values of HOAs, TSA, TC, and TT were 0.347 microm +/- 0.252 (SD), 0.120 +/- 0.174 microm, 0.165 +/- 0.168 microm, and 0.252 +/- 0.157 microm, respectively. The HOAs, TSA, TC, and TT changed slightly and not significantly with increasing refractive error (all P>.05). The RMS level of HOAs and TTR of the 3rd measurement was significantly different from the 1st and 2nd measurements (P<.05), with overall low correlation between the 3 measurements for the HOAs, TSA, TC, and TT. CONCLUSIONS: The ocular wavefront aberrations varied greatly from subject to subject. Ocular HOAs were not correlated with refractive error. The repeatability of HOAs measurements with the OPD-aberrometry was low.     

Age-related changes in corneal and ocular higher-order wavefront aberrations

PURPOSE: To investigate age-related changes in ocular and corneal higher-order wavefront aberrations and elucidate relative contributions of the cornea and the lens in the age-related changes. DESIGN: Observational case series. METHODS: Corneal and ocular higher-order wavefront aberrations in the central 6 mm diameter were measured with videokeratography and the Hartmann-Shack wavefront aberrometer in 75 normal eyes of 75 patients with a mean age of 43.5 +/- 11.7 years (range, 18-69 years). Higher-order wavefront aberrations were calculated with Zernike polynomials up to sixth order. From the Zernike coefficients, we calculated root mean square (RMS) of coma and spherical aberration. To examine age-related changes of the polarity of spherical aberration, the changes of the Zernike coefficient Z(4)(0) was also investigated. RESULTS: Both corneal (r =.307, P =.007) and ocular (r =.334, P =.0033) coma RMS showed positive correlations with age. There was a positive correlation between corneal and ocular coma RMS (r =.468, P <.0001). The RMS of corneal spherical aberration did not change with aging (r =.153, P =.1895), whereas the RMS of ocular spherical aberration had a positive correlation with aging (r =.308, P =.0068). CONCLUSIONS: These results suggest that the ocular coma increases with age, mainly because of the increase in the corneal coma, and the ocular spherical aberration increases with age, mainly because of the increase in the spherical aberration in the internal optics.     

经上皮准分子激光角膜表面切削术（TransPRK）对角膜光密度与角膜高阶像差的影响

目的　观察经上皮准分子激光角膜表面切削术（transepithelial photorefractive keratectomy,TransPRK）对角膜光密度与角膜高阶像差的影响,并分析二者的相关性。方法　选取于2017年3月至7月在新乡医学院第一附属医院眼科行TransPRK治疗近视及近视散光的患者80例,均选取右眼纳入研究。对比患眼术前与术后1个月、3个月、6个月角膜光密度与高阶像差的变化情况。术前与术后不同时间点差异的比较采用LSD-t检验,角膜光密度和高阶像差之间的相关性应用Pearson相关分析。结果　在TransPRK术后1个月、3个月、6个月以角膜顶点为中心≤2 mm、＞2~6 mm和＞6~10 mm区域内角膜光密度均较术前明显增高,差异均有统计学意义（均为P＜0.05）。术后1个月、3个月、6个月,总高阶像差、彗差、球差均较术前明显升高,差异均有统计学意义（均为P＜0.05）;三叶草像差在术后1个月、3个月与术前相比差异均有统计学意义（均为P＜0.05）;二级散光差在术后1个月与术前相比差异有统计学意义（P＜0.05）。术后3个月以角膜顶点为中心≤2 mm区域内角膜光密度的变化值与球差的变化值存在负相关性（r=-0.252,P=0.024）。以角膜顶点为中心＞2 ~6 mm区域内角膜光密度变化值与总高阶像差、彗差的变化值均存在正相关性（r=0.403、0.567,均为P=0.000）;与球差的变化值存在负相关性（r=-0.607,P=0.000）。术后6个月时以角膜顶点为中心≤2 mm区域内角膜光密度的变化值与球差的变化值存在负相关性（r=-0.257,P=0.021）;以角膜顶点为中心＞2 ~6 mm区域内角膜光密度变化值与彗差的变化值存在正相关性（r=0.244,P=0.029）,与球差的变化值存在负相关性（r=-0.374,P=0.001）。结论　角膜光密度可以作为评判角膜健康情况的定量客观指标,其可以评估TransPRK术后患者角膜的恢复情况,并且预测或者提示术后高阶像差的变化。     

Ocular higher-order aberrations in individuals screened for refractive surgery

PURPOSE: To explore the distribution of ocular higher-order aberrations (HOAs, 3rd to 6th orders) in the population, evaluate the symmetry of ocular aberrations between right and left eyes in each subject using a Hartmann-Shack wavefront sensor, and study the differences in aberration as a function of age. SETTING: Cullen Eye Institute, Baylor College of Medicine, Houston, Texas, USA. METHODS: Ocular HOAs were examined across a 6.0 mm pupil in 532 eyes of 306 subjects (mean age 41 years +/- 10 [SD] [range 20 to 71 years]; mean WaveScan spherical equivalent -3.39 +/- 2.84 diopters [D] [range -11.56 to 7.60 D]) using the WaveScan system (Visx, Inc.). Zernike coefficients and root-mean-square (RMS) values of HOAs, spherical aberration (SA, Z(4)(0) and Z(6)(0)), and coma (Z(3)(-1), Z(3)(1), Z(5)(-1), and Z(5)(1)) were analyzed. Correlation analysis was performed to assess the association between ocular HOAs and age and investigate the aberration symmetry between right and left eyes. RESULTS: For individual terms, the highest mean absolute values were for 4th-order SA (Z(4)(0)), 3rd-order coma, and trefoil terms. The mean RMS values of HOA, SA, and coma were 0.305 +/- 0.095 microm, 0.128 +/- 0.074 microm, and 0.170 +/- 0.089 microm, respectively. Moderate to high correlations were found between the right and left eyes for HOA, SA, and coma (Pearson correlation coefficient = 0.601, 0.776, and 0.511, respectively; all P<.001). Thirteen of the 22 Zernike terms (59%) were significantly correlated across eyes (Bonferroni correction, P'<.05/22). Higher-order aberrations, SA, and coma were weakly correlated with age (r = 0.317, 0.273, and 0.176, respectively; all P<.002). CONCLUSION: Wavefront aberrations varied widely among subjects and increased slightly with age. A moderate to high degree of mirror symmetry existed between right and left eyes.     

Optical aberrations of the human anterior cornea

PURPOSE: (1). To investigate the distribution of anterior corneal higher-order aberrations (HOAs, 3rd to 6th orders) in the population; (2). to evaluate the symmetry of anterior corneal aberrations between right and left eyes of individuals; and (3). to study the variations in anterior corneal aberrations with aging. SETTING: Cullen Eye Institute, Baylor College of Medicine, Houston, Texas, USA. METHODS: Using the CTView program (Sarver and Associates, Inc.), corneal HOAs were computed from the central 6.0 mm zone of the corneal topographic maps (Humphrey Atlas, Carl Zeiss, Inc.) of 228 eyes of 134 subjects (mean age 50 years +/- 17 (SD); range 20 to 79 years; manifest spherical equivalent between -3.0 and +3.0 diopters [D]). Correlation analysis was performed to investigate the aberration symmetry between the right and left eyes and to assess the association between anterior corneal HOAs and age. RESULTS: There was wide individual variability in aberrations with ranges of individual Zernike terms from -0.579 to +0.572 microm. The mean coefficient of the 4th-order spherical aberration (SA) (Z(4)(0)) was 0.280 +/- 0.086 microm and was positive in all corneas. The mean root-mean-square (RMS) values were 0.479 +/- 0.124 microm for HOA, 0.281 +/- 0.086 microm for SA (Z(4)(0)and Z(6)(0)), and 0.248 +/- 0.135 microm for coma (Z(3)(-1), Z(3)(1), Z(5)(-1), and Z(5)(1)). Moderate to high correlations were found between right and left eyes for HOA, SA, and coma (Pearson r = 0.565, 0.751, and 0.565, respectively; all P<.001); 8 of the 9 Zernike terms in the 3rd and 4th orders were significantly correlated between eyes (Bonferroni correction P'<.05/22). Higher-order aberration RMS and coma RMS increased with aging (r = 0.434 and 0.290, respectively; both P<.001); SA RMS was not correlated with change in age (r = 0.034). CONCLUSION: Anterior corneal wavefront aberrations varied greatly among subjects and increased slightly with aging. All corneas had positive 4th-order SAs, and the values did not change with aging. A moderate to high degree of mirror symmetry existed between right and left eyes.     

学龄儿童角膜非球面特性及相关因素研究

目的 了解学龄儿童角膜非球面光学特性及其相关因素。设计 横断面研究。研究对象 对北京市昌平区7所小学、初中、高中进行整群抽样,随机抽取学龄儿童（7~16岁）950名。年龄为（10.87±2.58）岁。方法 采用Aladdin眼前节生物测量仪对儿童进行角膜Q值及眼部生物学测量,观察Q值的分布特征及其与眼部参数（眼轴、眼压、角膜曲率、球差等）和全身参数（年龄、性别、身高、体重）的相关性。主要指标 角膜Q值、球差、慧差、角膜曲率、眼轴、眼压、角膜水平直径、前房深度。结果 角膜Q值平均为-0.18±0.14,呈正态分布;Q值在性别（P=0.839）眼别（P=0.373）之间无统计学差异;与年龄（r=0.110, P=0.000）、身高（r=0.118, P=0.000）、体重（r=0.117, P=0.000）、球差（r=0.113, P=0.001）、慧差（r=0.087, P=0.009）呈正相关,其中7~11岁年龄段角膜Q值较12~16岁年龄段小（t=-5.51, P=0.000）;角膜Q值与角膜曲率、角膜水平直径、前房深度、眼轴、眼压无相关性（P均>0.05）。结论 学龄儿童角膜前表面形态呈长椭圆形,角膜Q值与年龄、身高、体重、球差、慧差呈正相关。     

Einfluss des Alters auf die optischen Aberrationen des menschlichen Auges

BACKGROUND: Currently the influence of age on corneal and ocular aberrations is still insufficiently known. The aim of this clinical study was to compare age-related aberrations of human eyes. METHODS: In a prospective study 98 eyes of 49 healthy patients ranging from 17 to 65 years of age (38.6+/-10.0 years) were consecutively examined. The best corrected visual acuity ranged from 0.8 to 1.6; 48 eyes were emmetropic (SE+/-0.5 D), 42 eyes myopic (SE <-0.5 to -6.75 D), and 8 eyes hyperopic (SE >+0.5 to +3.88 D). The corneal aberrations were derived from corneal topography (Keratron Scout, Optikon). The measurement of ocular aberrations was performed with a Tscherning wavefront aberrometer (ORK, Schwind). The aberrations of the Zernike coefficients and RMS values (1st to 4th order) were determined. RESULTS: The mean corneal and ocular Zernike coefficients of higher order were smaller than 0.2 microm. There was an evident decrease of wavefront aberrations with increasing order. Higher order corneal aberrations were larger than the corresponding ocular aberrations. With increasing age higher optical errors increased in complexity, and the correlation of corneal and ocular aberrations decreased with significant differences. Although the corneal ocular RMS value of the 3rd and 4th order correlated in the younger group (r=0.51, p=0.0001), there was no correlation in the older group (r=-0.48, p=0.832). The influence of age caused a significant increase of ocular aberrations of the 3rd and 4th order, in particular a tenfold extension of coma (C07) (p=0.002), a twofold extension of spherical aberration (C12) (p=0.0001), and an increase of the 3rd and 4th order RMS values (p=0.001). CONCLUSIONS: Increased age induced an increase in optical aberrations of the eye, which demonstrates the influence of the lens on ocular aberrations. The combination of corneal and ocular diagnostic methods is recommendable for a better understanding of visual performance.     

近视散光眼角膜像差的特征及其影响因素分析

目的 研究近视散光眼角膜像差与屈光度、年龄的关系以及左右眼的对称关系,为眼部疾病的临床诊断和治疗提供客观依据.方法 随机选择大连医科大学附属第一医院眼科屈光中心欲行近视眼准分子激光手术的患者96例192只眼,术前进行眼科常规检查以及角膜波阵面像差检查.年龄18～48岁,平均(25.8±4.0)岁;包括男性54例108只眼,女性42例84只眼;球镜为-2.59～-10.74D,平均(-3.82±2.21)D;柱镜为-0.05～-2.44D,平均(-0.71±0.51)D.分析角膜像差与年龄、屈光度的关系以及角膜像差在左右眼之间的关系.结果 (1)Z13 RMS3项角膜像差随年龄增长而增加.(2)角膜球差和球镜屈光度呈正相关(r = 0.375,P < 0.01),角膜彗差和柱镜屈光度呈负相关(r = -0.335,P < 0.05),高度近视组角膜彗差和球镜屈光度呈负相关(r = -0.468,P < 0.01).(3)左右眼角膜像差呈对称关系.结论 角膜前表面波前像差分析,彗差与年龄呈正相关,球差和彗差分别与球镜度数和柱镜度数呈负相关,高度近视患者彗差与球镜屈光度呈负相关,双眼角膜像差有明显对称性.