[1]刘彬泉,石东,叶亲颖.角膜塑形镜的应用及其效果评价研究进展[J].眼科新进展,2024,44(6):499-504.[doi:10.13389/j.cnki.rao.2024.0096]
 LIU Binquan,SHI Dong,YE Qinying.Research progress on the orthokeratology’s application and effect evaluation[J].Recent Advances in Ophthalmology,2024,44(6):499-504.[doi:10.13389/j.cnki.rao.2024.0096]
点击复制

角膜塑形镜的应用及其效果评价研究进展/HTML
分享到:

《眼科新进展》[ISSN:1003-5141/CN:41-1105/R]

卷:
44卷
期数:
2024年6期
页码:
499-504
栏目:
文献综述
出版日期:
2024-06-03

文章信息/Info

Title:
Research progress on the orthokeratology’s application and effect evaluation
作者:
刘彬泉石东叶亲颖
524000 广东省湛江市,广东医科大学附属医院(刘彬泉,石东);524000 广东省湛江市,广东医科大学附属第二医院(叶亲颖)
Author(s):
LIU Binquan1SHI Dong1YE Qinying2
1.Affiliated Hospital of Guangdong Medical University,Zhanjiang 524000,Guangdong Province,China
2.The Second Affiliated Hospital of Guangdong Medical University,Zhanjiang 524000,Guangdong Province,China
关键词:
角膜塑形镜近视效果评价
Keywords:
orthokeratology myopia effect evaluation
分类号:
R778.1
DOI:
10.13389/j.cnki.rao.2024.0096
文献标志码:
A
摘要:
目前,我国是一个近视高发国,青少年的近视患病率逐年上升,角膜塑形镜的使用率也逐年提高,为了提高其近视控制效果,眼科医生采取了包括优化镜片设计、联合治疗等方案,为青少年近视控制保驾护航。本文将结合国内外相关文献对角膜塑形镜多样的临床应用及其治疗效果进行综述。
Abstract:
China is a country with a high prevalence of myopia,and the incidence of myopia among adolescents is increasing year by year.The usage rate of orthokeratology is also increasing year by year.In order to improve the effectiveness of myopia control,ophthalmologists have adopted plans such as optimizing lens design and combined treatment to provide protection for adolescent myopia control.This article reviews the diverse clinical applications of orthokeratology and their effectiveness based on national and international literature.

参考文献/References:

[1] MORGAN I G,LAN W.New clinical and public health perspectives on myopia prevention and control in China[J].Eye (Lond),2024,38(1):8-9.
[2] TANG K,SI J,WANG X,LU X,BI H.Orthokeratology for slowing myopia progression in children:a systematic review and meta-analysis of randomized controlled trials[J].Eye Contact Lens,2023,49(9):404-410.
[3] ZHU Q,YIN J,LI X,HU M,XUE L,ZHANG J,et al.Effects of long-term wear and discontinuation of orthokeratology lenses on the eyeball parameters in children with myopia[J].Int J Med Sci,2023,20(1):50-56.
[4] LI T,CHEN Z,SHE M,ZHOU X.Relative peripheral refraction in myopic children wearing orthokeratology lenses using a novel multispectral refraction topographer[J].Clin Exp Optom,2023,106(7):746-751.
[5] HU Y,WEN C,LI Z,ZHAO W,DING X,YANG X.Areal summed corneal power shift is an important determinant for axial length elongation in myopic children treated with overnight orthokeratology[J].Br J Ophthalmol,2019,103(11):1571-1575.
[6] WU H,PENG T,ZHOU W,HUANG Z,LI H,WANG T,et al.Choroidal vasculature act as predictive biomarkers of long-term ocular elongation in myopic children treated with orthokeratology:a prospective cohort study[J].Eye Vis(Lond),2023,10(1):27.
[7] GIFFORD K L,GIFFORD P,HENDICOTT P L,SCHMID K L.Stability of peripheral refraction changes in orthokeratology for myopia[J].Cont Lens Anterior Eye,2020,43(1):44-53.
[8] HUGHES R P,VINCENT S J,READ S A,COLLINS M J.Higher order aberrations,refractive error development and myopia control:a review[J].Clin Exp Optom,2020,103(1):68-85.
[9] LIN W,LI N,LU K,LI Z,ZHUO X,WEI R.The relationship between baseline axial length and axial elongation in myopic children undergoing orthokeratology[J].Ophthalmic Physiol Opt,2023,43(1):122-131.
[10] CHEN X,XIONG Y,LIU F,WANG J,YANG B,LIU L.Factors determining the myopia control effect of an orthokeratology lens:a two-year multi-level model[J].Ophthalmic Physiol Opt,2022,42(4):786-796.
[11] XIANG K,CHEN J,ZHAO W,ZHU Z,DING L,BULLOCH G,et al.Changes of corneal biomechanics in children using orthokeratology and their roles in predicting axial length progression-a prospective 2-year study[J].Acta Ophthalmol,2023,101(7):755-765.
[12] RAN Z,MOORE J,JIANG F,GUO H,ELIASY A,LOPES B T,et al.A new approach for quantifying epithelial and stromal thickness changes after orthokeratology contact lens wear[J].R Soc Open Sci,2021,8(12):211108.
[13] CHEN Y,DING C,LI X,HUANG Y,ZHOU F,DROBE B,et al.Comparison of visual performance between peripheral gradient high-addition multifocal soft contact lenses and orthokeratology[J].Ophthalmic Physiol Opt,2023,43(4):874-884.
[14] LI J,HU J,LI X,TANG J,LI Y,WANG K,et al.Long-term variations and influential factors of the treatment zone of wearing orthokeratology lenses[J].Cont Lens Anterior Eye,2023,46(4):101867.
[15] GRUHL J,WIDMER F,NAGL A,BANDLITZ S.Factors influencing treatment zone size in orthokeratology[J].Cont Lens Anterior Eye,2023,46(4):101848.
[16] GUO B,CHO P,CHEUNG S W,KOJIMA R,VINCENT S.Optical changes and association with axial elongation in children wearing orthokeratology lenses of different back optic zone diameter[J].Eye Vis(Lond),2023,10(1):25.
[17] TANG T,LI X,CHEN S,XU Q,ZHAO H,WANG K,et al.Long-term follow-up of changes in ocular biometric parameters in orthokeratology lens wearers with relatively large-scale axial length reduction[J].Eye Vis(Lond),2023,10(1):6.
[18] GUO B,CHEUNG S W,KOJIMA R,CHO P.One-year results of the Variation of Orthokeratology Lens Treatment Zone (VOLTZ) study:a prospective randomised clinical trial[J].Ophthalmic Physiol Opt,2021,41(4):702-714.
[19] PAUN J,FONTS S,RODRGUEZ L,QUEIRS A.The role of back optic zone diameter in myopia control with orthokeratology lenses[J].J Clin Med,2021,10(2):336.
[20] LI N,LIN W,ZHANG K,LI B,SU Q,DU B,et al.The effect of back optic zone diameter on relative corneal refractive power distribution and corneal higher-order aberrations in orthokeratology[J].Cont Lens Anterior Eye,2023,46(1):101755.
[21] ZHU M J,DING L,DU L L,CHEN J,HE X G,LI S S,et al.Photopic pupil size change in myopic orthokeratology and its influence on axial length elongation[J].Int J Ophthalmol,2022,15(8):1322-1330.
[22] CHU M,ZHAO Y,HU P,CHEN D,YU Y,NI H.Is orthokeratology treatment zone decentration effective and safe in controlling myopic progression?[J].Eye Contact Lens,2023,49(4):147-151.
[23] EHSAEI A,MALLEN E A H,CHISHOLM C M,PACEY I E.Cross-sectional sample of peripheral refraction in four meridians in myopes and emmetropes[J].Invest Ophthalmol Vis Sci,2011,52(10):7574-7585.
[24] LIN Z,XI X,WEN L,LUO Z,ARTAL P,YANG Z,et al.Relative myopic defocus in the superior retina as an indicator of myopia development in children[J].Invest Ophthalmol Vis Sci,2023,64(4):16.
[25] ROTOLO M,MONTANI G,MARTIN R.Myopia onset and role of peripheral refraction[J].Clin Optom,2017,9:105-111.
[26] LEIGHTON R E,BRESLIN K M,RICHARDSON P,DOYLE L,MCCULLOUGH S J,SAUNDERS K J.Relative peripheral hyperopia leads to greater short-term axial length growth in White children with myopia[J].Ophthalmic Physiol Opt,2023,43(5):985-996.
[27] DING W,LU W,JI R,TIAN Y,HUANG S,ZHAO C,et al.Effects of orthokeratology lens decentration induced by paracentral corneal asymmetry on axial length elongation[J].Eye Contact Lens,2023,49(5):181-187.
[28] HUANG Y,LI X,DING C,CHEN Y,MAO X,CHEN H,et al.Comparison of peripheral refraction and higher-order aberrations between orthokeratology and multifocal soft contact lens designed with highly addition[J].Graefes Arch Clin Exp Ophthalmol,2022,260(5):1755-1762.
[29] ZHAO G P,ZHAI H T,XIANG H Z,WU L M,CHEN Q O,CHEN C,et al.Biomechanical study of cornea response under orthokeratology lens therapy:a finite element analysis[J].Int J Numer Method Biomed Eng,2023,39(10):e3691.
[30] LIANG J B,LIN W P,WU R,CHEN C.Correlation of accommodation and lens location with higher-order aberrations and axial length elongation during orthokeratology lens wear[J].Int J Optomechatronics,2021,15(1):1-9.
[31] HIRAOKA T,KOTSUKA J,KAKITA T,OKAMOTO F,OSHIKA T.Relationship between higher-order wavefront aberrations and natural progression of myopia in schoolchildren[J].Sci Rep,2017,7(1):7876.
[32] XU Y,DENG J,ZHANG B,XU X,CHENG T,WANG J,et al.Higher-order aberrations and their association with axial elongation in highly myopic children and adolescents[J].Br J Ophthalmol,2023,107(6):862-868.
[33] HIRAOKA T,KAKITA T,OKAMOTO F,OSHIKA T.Influence of ocular wavefront aberrations on axial length elongation in myopic children treated with overnight orthokeratology[J].Ophthalmology,2015,122(1):93-100.
[34] LAU J K,VINCENT S J,CHEUNG S W,CHO P.Higher-order aberrations and axial elongation in myopic children treated with orthokeratology[J].Invest Ophthalmol Vis Sci,2020,61(2):22.
[35] SANTODOMINGO-RUBIDO J,VILLA-COLLAR C,GILMARTIN B,GUTIRREZ-ORTEGA R,SUZAKI A.Short- and long-term changes in corneal aberrations and axial length induced by orthokeratology in children are not correlated[J].Eye Contact Lens,2017,43(6):358-363.
[36] LU W,DING W,JI R,TIAN Y,ZHAO C,LI H,et al.Repeatability and correlation of corneal biomechanical measurements obtained by Corvis ST in orthokeratology patients[J].Cont Lens Anterior Eye,2023,46(3):101793.
[37] ZHANG Z,CHEN Z,ZHOU J,PAUN J,XUE F,ZENG L,et al.The effect of lens design on corneal power distribution in orthokeratology[J].Optom Vis Sci,2022,99(4):363-371.
[38] QUEIRS A,LOPES-FERREIRA D,YEOH B,ISSACS S,AMORIM-DE-SOUSA A,VILLA-COLLAR C,et al.Refractive,biometric and corneal topographic parameter changes during 12 months of orthokeratology[J].Clin Exp Optom,2020,103(4):454-462.
[39] HUANG Z,ZHAO W,MAO Y Z,HU S,DU C X.Factors influencing axial elongation in myopic children using overnight orthokeratology[J].Sci Rep,2023,13(1):7715.
[40] YU S,DU L,JI N,LI B,PANG X,LI X,et al.Combination of orthokeratology lens with 0.01% atropine in slowing axial elongation in children with myopia:a randomized double-blinded clinical trial[J].BMC Ophthalmol,2022,22(1):438.
[41] CHEN C,MA W,WANG J,YANG B,LIU T,LIU L.Higher-order aberrations and visual performance in myopic children treated with aspheric base curve-designed orthokeratology[J].Eye Contact Lens,2023,49(2):71-76.
[42] ZHANG Z,CHEN Z,CHEN Z,ZHOU J,ZENG L,XUE F,et al.Change in corneal power distribution in orthokeratology:a predictor for the change in axial length[J].Transl Vis Sci Technol,2022,11(2):18.
[43] LIU T,MA W,WANG J,YANG B,DONG G,CHEN C,et al.The effects of base curve aspheric orthokeratology lenses on corneal topography and peripheral refraction:a randomized prospective trial[J].Cont Lens Anterior Eye,2023,46(3):101814.
[44] ZHANG Z,ZHOU J,ZENG L,XUE F,ZHOU X,CHEN Z.The effect of corneal power distribution on axial elongation in children using three different orthokeratology lens designs[J].Cont Lens Anterior Eye,2023,46(1):101749.
[45] JIANG F,HUANG X,XIA H,WANG B,LU F,ZHANG B,et al.The spatial distribution of relative corneal refractive power shift and axial growth in myopic children:orthokeratology versus multifocal contact lens[J].Front Neurosci,2021,15:686932.
[46] LOERTSCHER M,BACKHOUSE S,PHILLIPS J R.Multifocal orthokeratology versus conventional orthokeratology for myopia control:a paired-eye study[J].J Clin Med,2021,10(3):447.
[47] TANG W T,LI S B,LI Y J,TANG Z P,MA D.Clinical observation of orthokeratology with increased compression factor in the treatment of myopia[J].Chin J Ophthalmol,2022,58(11):907-913.
[48] WAN K,LAU J K K,CHEUNG S W,CHO P.Orthokeratology with increased compression factor (OKIC):study design and preliminary results[J].BMJ Open Ophthalmol,2020,5(1):e000345.
[49] WAN K,LAU J K K,CHEUNG S W,CHO P.Refractive and corneal responses of young myopic children to short-term orthokeratology treatment with different compression factors[J].Cont Lens Anterior Eye,2020,43(1):65-72.
[50] LAU J K,WAN K,CHO P.Orthokeratology lenses with increased compression factor (OKIC):a 2-year longitudinal clinical trial for myopia control[J].Cont Lens Anterior Eye,2023,46(1):101745.
[51] LEE E J,LIM D H,CHUNG T Y,HYUN J,HAN J.Association of axial length growth and topographic change in orthokeratology[J].Eye Contact Lens,2018,44(5):292-298.
[52] LAU J K,WAN K,CHEUNG S W,VINCENT S J,CHO P.Weekly changes in axial length and choroidal thickness in children during and following orthokeratology treatment with different compression factors[J].Transl Vis Sci Technol,2019,8(4):9.
[53] TANG W T,ZHANG L,ZHANG H D,LI S B,LIANG H.Orthokeratology with increased compression factor in adolescent myopia control:a 2-year prospective randomized clinical trial[J].Int J Ophthalmol,2023,16(5):770-777.
[54] 孙笑笑,张钰,陈跃国.角膜塑形镜诱导角膜高阶像差改变与控制儿童近视性屈光参差的相关性研究[J].中华眼科杂志,2022,58(4):250-258.
SUN X X,ZHANG Y,CHEN Y G.Correlation between the increase in corneal higher-order aberrations and the control of children’s myopic anisometropia after wearing orthokeratology lenses[J].Chin J Ophthalmol,2022,58(4):250-258.
[55] 曾彩琼,周炼红,易贝茜,蔡丽,梁晓翠,叶美红.周边视网膜相对屈光度与近视的相关性研究[J].中国斜视与小儿眼科杂志,2017,25(4):20-22,55.
ZENG C Q,ZHOU L H,YI B X,CAI L,LIANG X C,YE M H.The association between relative peripheral refraction and myopia[J].Chin J Strab Pediatr Ophthalmol,2017,25(4):20-22,55.
[56] REN Q,YANG B,LIU L,CHO P.Orthokeratology in adults and factors affecting success:study design and preliminary results[J].Cont Lens Anterior Eye,2020,43(6):595-601.
[57] TAN Q,CHO P,NG A L K,CHENG G P M,WOO V C P,VINCENT S J.Retinal image quality in myopic children undergoing orthokeratology alone or combined with 0.01% atropine[J].Eye Vis(Lond),2023,10(1):21.
[58] TAN Q,NG A L,CHENG G P,WOO V C,CHO P.Combined 0.01% atropine with orthokeratology in childhood myopia control (AOK) study:a 2-year randomized clinical trial[J].Cont Lens Anterior Eye,2023,46(1):101723.
[59] TSAI H R,WANG J H,HUANG H K,CHEN T L,CHEN P W,CHIU C J.Efficacy of atropine,orthokeratology,and combined atropine with orthokeratology for childhood myopia:a systematic review and network meta-analysis[J].J Formos Med Assoc,2022,121(12):2490-2500.
[60] XU S,LI Z,ZHAO W,ZHENG B,JIANG J,YE G,et al.Effect of atropine,orthokeratology and combined treatments for myopia control:a 2-year stratified randomised clinical trial[J].Br J Ophthalmol,2023,107(12):1812-1817.
[61] VINCENT S J,TAN Q,NG A L K,CHENG G P M,WOO V C P,CHO P.Higher order aberrations and axial elongation in combined 0.01% atropine with orthokeratology for myopia control[J].Ophthalmic Physiol Opt,2020,40(6):728-737.
[62] KOTHARI M,RATHOD V.Efficacy of 1% atropine eye drops in retarding progressive axial myopia in Indian eyes[J].Indian J Ophthalmol,2017,65(11):1178-1181.
[63] HAO Q,ZHAO Q.Changes in subfoveal choroidal thickness in myopic children with 0.01% atropine,orthokeratology,or their combination[J].Int Ophthalmol,2021,41(9):2963-2971.
[64] JIANG J,LONG W,HU Y,ZHAO F,ZHAO W,ZHENG B,et al.Accommodation and vergence function in children using atropine combined with orthokeratology[J].Cont Lens Anterior Eye,2023,46(1):101704.
[65] CHEN Z,ZHOU J,XUE F,QU X,ZHOU X.Two-year add-on effect of using low concentration atropine in poor responders of orthokeratology in myopic children[J].Br J Ophthalmol,2022,106(8):1069-1072.
[66] ZHENG N N,TAN K W.The synergistic efficacy and safety of combined low-concentration atropine and orthokeratology for slowing the progression of myopia:a meta-analysis[J].Ophthalmic Physiol Opt,2022,42(6):1214-1226.
[67] 李萍,刘婷,孙先桃.角膜塑形镜联合0.01%硫酸阿托品眼用凝胶对小儿近视的疗效及影响因素分析[J].国际眼科杂志,2021,21(4):698-701.
LI P,LIU T,SUN X T.Effect of orthokeratology combined with 0.01% Atropine Sulfate Ophthalmic Gel on curative effect and analysis influencing factors on children’s myopia[J].Int Eye Sci,2021,21(4):698-701.
[68] YU H,YUAN Y,WU W,ZENG W,TONG L,ZHANG Y,et al.Orthokeratology lens wear for 2 years in children did not alter tear film lipid thickness by non-invasive interferometry[J].Front Med,2022,9:821106.
[69] 郑杰,张钰,陈跃国,张纯.基线近视屈光度对角膜塑形镜控制青少年儿童近视进展的影响[J].中华眼视光学与视觉科学杂志,2018,20(10):582-587.
ZHENG J,ZHANG Y,CHEN Y G,ZHANG C.Influence of baseline myopic refraction on myopia control in youngsters wearing orthokeratology lenses[J].Chin J Optom Ophthalmol Vis Sci,2018,20(10):582-587.
[70] LYU T,WANG L,ZHOU L,QIN J,MA H,SHI M.Regimen study of high myopia-partial reduction orthokeratology[J].Eye Contact Lens,2020,46(3):141-146.
[71] 吕天斌,王丽娅,覃建,马慧,石梦海.角膜塑形镜配戴矫治高度近视的回顾性队列研究[J].中华实验眼科杂志,2018,36(2):144-149.
L T B,WANG L Y,QIN J,MA H,SHI M H.A retrospective cohort study on orthokeratology for high myopia progression[J].Chin J Exp Ophthalmol,2018,36(2):144-149.
[72] ZHAO C,CAI C,DAI H,ZHANG J.Effect of the combined application of orthokeratology and single-vision spectacles on slowing the progression of high myopia:a systematic review and meta-analysis[J].Medicine,2022,101(33):e30178.

相似文献/References:

[1]计垣.近视的分子遗传学研究进展[J].眼科新进展,2012,32(6):000.
[2]张卫霞 曾照年 唐秀侠 孙宏霞 李洪润.Zywave波前像差仪在近视屈光不正测量中的应用[J].眼科新进展,2012,32(7):000.
[3]闵红波 刘小红 花雷 韩文龙 储明慧 邵娟英.近视对OCT测量视网膜神经纤维层厚度的影响[J].眼科新进展,2012,32(12):000.
[4]刘太祥 李海祥 石容 王铮.ORK程序中两种切削模式治疗近视术后角膜像差变化及对视觉功能的影响[J].眼科新进展,2013,33(1):000.
[5]陈月芹 黄振平 薛春燕 葛轶睿.有晶状体眼虹膜固定型人工晶状体植入术后房角宽度的改变[J].眼科新进展,2013,33(6):000.
[6]王凌飞 杨瑞波 赵少贞.CACHET有晶状体眼人工晶状体植入术后视觉质量的临床评价[J].眼科新进展,2013,33(6):000.
[7]胡裕坤 李文静 高晓唯 董晶 郭云林.飞秒激光微小切口角膜基质透镜切除术治疗近视对角膜波前像差的影响[J].眼科新进展,2013,33(7):000.
[8]许瑶 曾骏文.近视眼药物治疗研究进展[J].眼科新进展,2013,33(7):000.
[9]汤勇 刘才远.LASIK、Epi-LASIK、SBK、Fem-LASIK及SMILE术中角膜切削误差的对比研究[J].眼科新进展,2013,33(9):000.
[10]吴玉伟 李筱荣 张琰 赵雅丽 王晓燕.无酒精LASEK治疗近视和近视散光的临床疗效[J].眼科新进展,2013,33(9):000.
[11]谷天瀑,魏瑞华,林伟平,等. 双通道视觉分析系统评估配戴角膜塑形镜前后的视觉质量和眼内散射[J].眼科新进展,2015,35(5):445.[doi:10.13389/j.cnki.rao.2015.0121]
 GU Tian-Pu,WEI Rui-Hua,LIN Wei-Ping,et al. Assessment of optical quality and intraocular scattering before and after orthokeratology with a doublepass opticfd quality analysis system[J].Recent Advances in Ophthalmology,2015,35(6):445.[doi:10.13389/j.cnki.rao.2015.0121]
[12]王秀,魏瑞华,张红梅,等.非侵入式眼表综合分析仪评估近视青少年干眼和睑板腺功能障碍[J].眼科新进展,2016,36(1):031.[doi:10.13389/j.cnki.rao.2016.0009]
 WANG Xiu,WEI Rui-Hua,ZHANG Hong-Mei,et al.Evaluation of dry eye and meibomian gland dysfunction in myopic teenagers by noninvasive keratograph[J].Recent Advances in Ophthalmology,2016,36(6):031.[doi:10.13389/j.cnki.rao.2016.0009]
[13]连燕,金婉卿,毛欣杰,等.框架眼镜与角膜塑形镜矫正的近视儿童脉络膜厚度差异比较研究[J].眼科新进展,2017,37(5):431.[doi:10.13389/j.cnki.rao.2017.0109]
 LIAN Yan,JIN Wan-Qing,MAO Xin-Jie,et al.Comparison of choroid thickness difference between myopia children corrected by spectacles and orthokeratology[J].Recent Advances in Ophthalmology,2017,37(6):431.[doi:10.13389/j.cnki.rao.2017.0109]
[14]李秀红,王敏,吕勇,等.不同光学矫正方式对青少年近视的控制效果研究[J].眼科新进展,2017,37(7):636.[doi:10.13389/j.cnki.rao.2017.0161]
 LI Xiu-Hong,WANG Min,LV Yong,et al.Control effects of different optical correction methods on adolescent myopia[J].Recent Advances in Ophthalmology,2017,37(6):636.[doi:10.13389/j.cnki.rao.2017.0161]
[15]王静,张月强,尹连荣,等.夜戴型角膜塑形镜治疗青少年近视的效果[J].眼科新进展,2019,39(8):772.[doi:10.13389/j.cnki.rao.2019.0176]
 WANG Jing,ZHANG Yue-Qiang,YIN Lian-Rong,et al.Two-year follow-up outcomes of overnight orthokeratology for myopia correction and control in adolescents[J].Recent Advances in Ophthalmology,2019,39(6):772.[doi:10.13389/j.cnki.rao.2019.0176]
[16]陈晓琴,刘金丽,张姝贤,等.青少年近视患者配戴角膜塑形镜5年的有效性及安全性[J].眼科新进展,2021,41(3):236.[doi:10.13389/j.cnki.rao.2021.0049]
 CHEN Xiaoqin,LIU Jinli,ZHANG Shuxian,et al.Efficacy and security of orthokeratology lens on myopia progression in teenagers for 5 years[J].Recent Advances in Ophthalmology,2021,41(6):236.[doi:10.13389/j.cnki.rao.2021.0049]
[17]刘莉,邝国平,彭婧利.低浓度阿托品联合角膜塑形镜对青少年低中度近视患者治疗效果、泪膜功能及SF-36量表评分的影响[J].眼科新进展,2021,41(6):575.[doi:10.13389/j.cnki.rao.2021.0120]
 LIU Li,KUANG Guoping,PENG Jingli.Effects of low-dose Atropine combined with orthokeratology on vision correction, tear film function and SF-36 score in adolescents with low to moderate myopia[J].Recent Advances in Ophthalmology,2021,41(6):575.[doi:10.13389/j.cnki.rao.2021.0120]
[18]陈颖,刘晓庆,周瑜峰,等.脉络膜厚度在角膜塑形镜和周边离焦型镜片框架镜控制近视患者中的差异[J].眼科新进展,2023,43(2):131.[doi:10.13389/j.cnki.rao.2023.0026]
 CHEN Ying,LIU Xiaoqing,ZHOU Yufeng,et al.Difference in choroidal thicknesses under myopia control using the orthokeratology lens and peripheral defocus spectacle lens[J].Recent Advances in Ophthalmology,2023,43(6):131.[doi:10.13389/j.cnki.rao.2023.0026]
[19]申笛,周堃,孙西宇,等.角膜塑形镜联合0.1 g·L阿托品延缓儿童近视进展分析[J].眼科新进展,2023,43(11):882.[doi:10.13389/j.cnki.rao.2023.0177]
 SHEN Di,ZHOU Kun,SUN Xiyu,et al.Efficacy of orthokeratology combined with 0.1 g·L atropine in slowing the progression of myopia in children[J].Recent Advances in Ophthalmology,2023,43(6):882.[doi:10.13389/j.cnki.rao.2023.0177]
[20]甘露,王季芳,赵武校.角膜塑形镜偏位对近视眼视网膜周边离焦量的影响[J].眼科新进展,2024,44(4):287.[doi:10.13389/j.cnki.rao.2024.0056]
 GAN Lu,WANG Jifang,ZHAO Wuxiao.Influence of orthokeratology lens decentration on periretinal defocus in myopic eyes[J].Recent Advances in Ophthalmology,2024,44(6):287.[doi:10.13389/j.cnki.rao.2024.0056]

备注/Memo

备注/Memo:
广东省湛江市科技计划项目(编号:2021A05114)
更新日期/Last Update: 2024-06-05