白内障术后屈光误差不仅与眼生物参数的精准测量以及人工晶状体计算公式的优化有关，通过前房深度的变化预
测人工晶体有效位置也与其密不可分。临床医生必须多因素考虑来减少术后屈光误差，提高白内障患者的术后视觉质量。

白内障手术；屈光误差；前房深度；人工晶体

[1]Sedaghat MR, Azimi A, Arasteh P, Tehranian N, Bam-

dad S. The Relationship between Anterior Chamber Depth, Ax-

ial Length and Intraocular Lens Power among Candidates for

Cataract Surgery. Electron Physician. 2016;8(10):3127-3131.

DOI:10.19082/3127.

[2]Xu T, Wang B, Liu H, Wang H, Yin P, Dong W, Li J,

Wang YX, Yusufu M, Briant P, et al. Prevalence and caus-

es of vision loss in China from 1990 to 2019: findings from the

Global Burden of Disease Study 2019. Lancet Public Health.

2020;5(12):e682-e691.DOI:10.1016/S2468-2667(20)30254-1.

[3]Song P, Wang H, Theodoratou E, Chan KY, Rudan I.

The national and subnational prevalence of cataract and cataract

blindness in China: a systematic review and meta-analysis. J Glob

Health. 2018;8(1):010804.

[4]Du YF, Liu HR, Zhang Y, Bai WL, Li RY, Sun RZ, Wang

NL. Prevalence of cataract and cataract surgery in urban and rural

Chinese populations over 50 years old: a systematic review and

Meta-analysis. Int J Ophthalmol. 2022;15(1):141-149.

[5] 徐英男 , 龙潭 , 谢立信 .Fuchs 角膜内皮营养不良患者

白内障手术的临床观察 [J]. 中华眼视光学与视觉科学杂志 ,

2014, 16(1):4.DOI:10.3760/cma.j.issn.1674-845X.2014.01.009.

[6]Hara T, Hara T. Clinical results of endocapsular

phacoemulsification and complete in-the-bag intraocular lens fix-

ation. J Cataract Refract Surg. 1987;13(3):279-286.DOI:10.1016/

S0886-3350(87)80071-8.

[7]Angra SK, Vajpayee RB, Titiyal JS, Sharma YR, Sandra-

mouli S, Kishore K. Types of posterior capsular breaks and their

surgical implications. Ophthalmic Surg. 1991;22(7):388-391.

DOI:10.1111/j.1475-1313.1991.tb00539.x.

[8] 王儒杰 , 范钦华 , 郭斌 , 等 . 白内障超声乳化术后

黄斑中心凹下脉络膜厚度的改变 [J]. 临床眼科杂志 , 2016,

24(2):109-112.DOI:10.3969/j.issn.1006-8422.2016.02.004.

[9]Klein R, Klein BE, Wong TY, Tomany SC, Cruickshanks

KJ. The association of cataract and cataract surgery with the long-

term incidence of age-related maculopathy: the Beaver Dam eye

study. Arch Ophthalmol. 2002;120(11):1551-1558.DOI:10.1001/

archopht.120.11.1551.

[10]Cohen JS, Novack GD, Zink JM. Intraocular pressure

and visual field damage as risk factors for visual field pro-

gression in filtering surgery. Ophthalmic Surg Lasers Imaging.

2010;41(4):452-458.DOI:10.3928/15428877-20100525-03.

[11]Satou T, Shimizu K, Tsunehiro S, Igarashi A, Kato S, Ko-

shimizu M, Niida T. Development of a new intraocular lens power

calculation method based on lens position estimated with optical

coherence tomography. Sci Rep. 2020;10(1):6501.

[12] 陈 星 , 于建春 , 周丹英 , 等 . 角膜地形图引

导的个性化切口对白内障超声乳化手术的疗效分析

[J]. 临床眼科杂志 , 2013, 21(6):503-505.DOI:10.3969/

j.issn.1006-8422.2013.06.007.

[13] 王晓莉 , 张然 . 多焦点 IOL 植入联合角膜松解切口

矫正白内障合并角膜散光的分析 [J]. 国际眼科杂志 , 2013,

13(11):3.DOI:10.3980/j.issn.1672-5123.2013.11.47.

[14]Liang J L , Xing X L , Yang X T ,et al.Clinical compari-

son analysis in surgically induced astigmatism of the total, anterior

and posterior cornea after 2.2-mm versus 3.0-mm clear corneal

incision cataract surgery[J].Zhonghua yan ke za zhi Chinese

journal of ophthalmology, 2019, 55(7):495-501.DOI:10.3760/cma.

j.issn.0412-4081.2019.07.004.

[15]Piao J, Joo CK. Site of clear corneal incision in cataract

surgery and its effects on surgically induced astigmatism. Sci Rep.

2020;10(1):3955.DOI:10.1038/s41598-020-60985-5.

[16] 郑虔 , 赵镇南 , 廉恒丽 , 等 . 轴性高度近视眼超声

乳化白内障吸除联合人工晶状体植入术后屈光度数误差分

析 [J]. 中华眼科杂志 , 2015 (4): 276-281.DOI:10.3760/cma.

j.issn.0412-4081.2015.04.009.

[17]Zhu X, He W, Sun X, Dai J, Lu Y. Fixation Stabili-

ty and Refractive Error After Cataract Surgery in Highly My-

opic Eyes. Am J Ophthalmol. 2016;169:89-94.DOI:10.1016/

j.ajo.2016.06.022.

[18]Holladay JT, Prager TC, Ruiz RS, Lewis JW, Rosenthal

H. Improving the predictability of intraocular lens power calcu-

lations. Arch Ophthalmol. 1986;104(4):539-541.DOI:10.1001/

archopht.1986.01050160095020.

[19]Olsen T. Calculation of intraocular lens power: a re-

view. Acta Ophthalmol Scand. 2007;85(5):472-485.DOI:10.1111/

j.1600-0420.2007.00879.x.

[20]Kansal V, Schlenker M, Ahmed IIK. Interocular Axial

Length and Corneal Power Differences as Predictors of Postoper-

ative Refractive Outcomes after Cataract Surgery. Ophthalmology.

2018;125(7):972-981.DOI:10.1016/j.ophtha.2018.01.021.

[21]Zhihua Z , Yuyu M , Xiaoling F ,et al.Accuracy of the

Haigis and SRK/T Formulas in Eyes Longer than 29.0 mm and the

Influence of Central Corneal Keratometry Reading[J].Current Eye

Research, 2018:02713683.2018.1488265-.DOI:10.1080/0271368

3.2018.1488265.

[22]Holladay JT. Standardizing constants for ultrasonic bi-

ometry, keratometry, and intraocular lens power calculations.

J Cataract Refract Surg. 1997;23(9):1356-1370.DOI:10.1016/

S0886-3350(97)80115-0.

[23]Norrby S. Sources of error in intraocular lens pow-

er calculation. J Cataract Refract Surg. 2008;34(3):368-376.

DOI:10.1016/j.jcrs.2007.10.031.

[24]Ning X, Yang Y, Yan H, Zhang J. Anterior chamber

depth - a predictor of refractive outcomes after age-related cat-

aract surgery. BMC Ophthalmol. 2019;19(1):134.DOI:10.1186/

s12886-019-1144-8.

[25]Bilak S, Simsek A, Capkin M, Guler M, Bilgin B. Bi-

ometric and intraocular pressure change after cataract sur-

gery. Optom Vis Sci. 2015;92(4):464-470.DOI:10.1097/

OPX.0000000000000553.

[26]Jonas JB, Nangia V, Gupta R, Khare A, Sinha A, Agar-

wal S, Bhate K. Anterior chamber depth and its associations with

ocular and general parameters in adults. Clin Exp Ophthalmol.

2012;40(6):550-556.DOI:10.1111/j.1442-9071.2011.02748.x.

[27]Sun J, Feng ZH, Xu H. Analysis of the refractive status

in patients with age-related cataract and shallow anterior chamber

after phacoemulsification. Int Eye Sci. 2020;20(10):1775-1779.

[28] 董喆 , 郝洁 , 万月 , 等 . 浅前房对白内障超声乳化

联合人工晶状体植入术后屈光状态的影响 [J]. 眼科 , 2017,

26(6):397-399.DOI:CNKI:SUN:YAKE.0.2017-06-017.

[29] 刘佳 , 王凯 . 影响年龄相关性白内障术后屈光误差

的术前眼球生物学参数特征分析 [J]. 中华眼视光学与视觉科

学杂志 , 2015, 017(008):480-483.DOI:10.3760/cma.j.issn.1674-

845X.2015.08.008.

[30]Gaurisankar ZS, van Rijn GA, Lima JEE, Ilgenfritz AP,

Cheng Y, Haasnoot GW, Luyten GPM, Beenakker JM. Correla-

tions between ocular biometrics and refractive error: A systematic

review and meta-analysis. Acta Ophthalmol. 2019;97(8):735-743.

[31]Muzyka-Woźniak M, Ogar A. Anterior chamber depth

and iris and lens position before and after phacoemulsification

in eyes with a short or long axial length. J Cataract Refract Surg.

2016;42(4):563-568.DOI:10.1016/j.jcrs.2015.12.050.

[32]Binkhorst RD. The optical design of intraocular lens im-

plants. Ophthalmic Surg. 1975;6(3):17-31.

[33] 杨军良 , 方正法 , 蒋雁峰 . Antoine 式中常数项的一

种求解方法 [J]. 湖南师范大学自然科学学报 ,1999,22(3):60-

63. DOI:10.3969/j.issn.1000-2537.1999.03.012.

[34] 冯骅 , 秦虹 , 王珍 , 等 . 不同类型 IOL 植入对白内障

患者术后视觉质量的影响 [J]. 国际眼科杂志 ,2020,20(1):103-

106. DOI:10.3980/j.issn.1672-5123.2020.1.23.

[35] 孙琼琼 , 于 燕 , 方 严 , 等 . Wang-Koch 眼 轴 矫 正

公式计算高度近视合并白内障患者术后屈光度的准确

性 [J]. 国际眼科杂志 ,2023,23(7):1202-1207. DOI:10.3980/

j.issn.1672-5123.2023.7.27.

[36] 王世明 , 文燕 , 何志刚 . 基于全角膜屈光力计算角

膜异常 B/F 值的白内障患者人工晶状体屈光力 [J]. 中华眼视

光学与视觉科学杂志 ,2020,22(2):104-110. DOI:10.3760/cma.

j.issn.1674-845X.2020.02.005.

[37] 邓小慧 , 常平骏 , 黄锦海 , 等 . IOLMaster 700 与

IOLMaster 500 不同计算公式对白内障眼人工晶状体屈光力

计算的准确性比较 [J]. 中华实验眼科杂志 ,2022,40(12):1170-

1175. DOI:10.3760/cma.j.cn115989-20200226-00110.

[38] 张千帆 , 朱珂珂 , 穆红梅 . 不同眼轴长度应用 Kane

公式计算人工晶状体屈光度的准确性研究 [J]. 中华眼外

伤职业眼病杂志 ,2023,45(11):832-836. DOI:10.3760/cma.

j.cn116022-20230612-00193.

[39] 余盈盈 , 元 力 , 曹晓光 , 等 . 基于新型扫频光

源生物测量仪测量的全角膜屈光力和传统角膜屈光力计

算 IOL 度数的准确性比较 [J]. 中华眼视光学与视觉科学

杂 志 ,2022,24(11):812-819. DOI:10.3760/cma.j.cn115909-

20220505-00186.

[40] 吴万民 , 柴飞燕 , 刘杰为 . 角膜正常 B/F Ratio 对

Barrett Universal Ⅱ公式计算 IOL 度数准确性的影响 [J]. 中

华眼视光学与视觉科学杂志 ,2023,25(1):62-67. DOI:10.3760/

cma.j.cn115909-20220503-00183.

[41] 许泽鹏 , 田 妮 , 李松调 , 等 . Olsen 公式对高

度近视合并白内障患者术后屈光力的预测性 [J]. 国

际眼科杂志 ,2020,20(8):1388-1392. DOI:10.3980/

j.issn.1672-5123.2020.8.20.

[42] 陶亮 , 陈旭 , 万超 , 等 . 新一代人工晶状体计算公

式对高度近视行前后段联合手术的准确性分析 [J]. 陆军军

医大学学报 ,2024,46(13):1545-1552. DOI:10.16016/j.2097-

0927.202310065.