切换至 "中华医学电子期刊资源库"
高级检索
中华眼科医学杂志(电子版)

中华眼科医学杂志(电子版) ›› 2023, Vol. 13 ›› Issue (05) : 311 -315. doi: 10.3877/cma.j.issn.2095-2007.2023.05.011

综述

近视眼与干眼相关性的研究进展
王霜, 接英()   
  1. 100730 首都医科大学附属北京同仁医院2021级硕士研究生
    100730 首都医科大学附属北京同仁医院 北京同仁眼科中心 北京市眼科研究所 北京市眼科学与视觉科学重点实验室
  • 收稿日期:2023-09-10 出版日期:2023-10-28
  • 通信作者: 接英
  • 基金资助:
    首都卫生发展科研专项项目(首发2022-1-1081)

Research progress of the correlation between myopia and dry eye

Shuang Wang, Ying Jie()   

  1. Master′s degree 2021, Beijing Tongren Hospital, Capital Medical University, Beijing 100730, China
    Beijing Tongren Eye Center, Beijing Tongren Hospital, Capital Medical University, Beijing Institute of Ophthalmology, Beijing Ophthalmology & Visual Sciences Key Laboratory, Beijing 100730, China
  • Received:2023-09-10 Published:2023-10-28
  • Corresponding author: Ying Jie
全文 ( ) 下载PDF ( ) 导出引用
引用本文:

王霜, 接英. 近视眼与干眼相关性的研究进展[J]. 中华眼科医学杂志(电子版), 2023, 13(05): 311-315.

Shuang Wang, Ying Jie. Research progress of the correlation between myopia and dry eye[J]. Chinese Journal of Ophthalmologic Medicine(Electronic Edition), 2023, 13(05): 311-315.

近视眼和干眼是全球范围内两大常见眼病,可严重影响患者的生活质量。近年来,近视眼与干眼正受到广泛关注,越来越多的证据表明二者之间可能有关联。近视眼与干眼的发病机制复杂且存在重叠。本文中笔者从危险因素、发病机制、临床研究、预防及改善方法等方面对近视眼与干眼可能的相关性研究进行综述,以期为临床诊疗提供新思路。

关键词: 近视眼, 干眼, 相关性

Myopia and dry eye are the two major common eye diseases worldwide, which can seriously affect the life quality of patients. In recent years, myopia and dry eye have been paid wide attention. It has been demonstrated that there may be some association between them. The pathogenesis of myopia and dry eye are complex and overlapping. The literatures about potental correlations between myopia and dry eye from the aspects of risk factors, pathogenesis, clinical researches, preventions and improvements was summarized in this paper, which to provide new ideas for clinical diagnoses and treatments.

Key words: Myopia, Dry eye, Correlation
[1]
Holden BA, Fricke TR, Wilson DA, et al. Global prevalence of myopia and high myopia and temporal trends from 2000 through 2050[J]. Ophthalmology, 2016, 123(5): 1036-1042.
[2]
Papas EB. The global prevalence of dry eye disease: A Bayesian view[J]. Ophthalmic Physiol Opt, 2021, 41(6): 1254-1066.
[3]
Yang W, Luo Y, Wu S, et al. Estimated annual economic burden of dry eye disease based on a multi-center analysis in china: a retrospective study[J]. Front Med (Lausanne), 20218: 771352.
[4]
Lin HT, Zheng CM, Fang YA, et al. Prevalence and risk factors for myopia in Taiwanese diabetes mellitus patients: a multicenter case-control study in Taiwan[J]. Sci Rep, 2021, 11(1): 8195.
[5]
Akil H, Bulus AD, Andiran N, et al. Ocular manifestations of Type 1 diabetes mellitus in pediatric population[J]. Indian J Ophthalmol, 2016, 64(9): 654-658.
[6]
Kan S, Acar U, Kizilgul M, et al. The effects of blood glucose regulation on tear function tests in diabetic patients[J]. J Fr Ophtalmol, 2017, 40(6): 499-504.
[7]
Benyi E, Savendahl L. The physiology of childhood growth: hormonal regulation[J]. Horm Res Paediatr, 2017, 88(1): 6-14.
[8]
Zidan HE, Rezk NA, Fouda SM, et al. Association of insulin-like growth factor-1 gene polymorphisms with different types of myopia in Egyptian patients[J]. Genet Test Mol Biomarkers, 2016, 20(6): 291-296.
[9]
Jarusaitiene D, Verkauskiene R, Jasinskas V, et al. Predictive factors of development of Graves′ ophthalmopathy for patients with juvenile Graves′ disease[J]. Int J Endocrinol, 2016, PMID: 27413373.
[10]
Alhawari HH, Khader YS, Alhawari HH, et al. Autoimmune thyroid disease and keratoconus:is there an association?[J]. Int J Endocrinol, 2018, PMID: 30154844.
[11]
Lin HJ, Wei CC, Chang CY, et al. Role of chronic inflammation in myopia progression: clinical evidence and experimental validation[J]. EBio Medicine, 2016, 10: 269-281.
[12]
亚洲干眼协会中国分会海峡两岸医药卫生交流协会眼科学专业委员会眼表与泪液病学组中国医师协会眼科医师分会眼表与干眼学组. 中国干眼专家共识:免疫性疾病相关性干眼(2021年) [J]. 中华眼科杂志202157(12):898-907.
[13]
Li Y, Ou S, Lin S, et al. Meibomian gland alteration in patients with systemic lupus erythematosus[J]. Lupus, 2022, 31(4): 407-414.
[14]
Jee D, Morgan IG, Kim EC. Inverse relationship between sleep duration and myopia[J]. Acta Ophthalmol, 2016, 94(3): e204-e210.
[15]
Chakraborty R, Ostrin LA, Nickla DL, et al. Circadian rhythms, refractive development, and myopia[J]. Ophthal Physl Opt, 2018, 38(3): 217-245.
[16]
Wang MTM, Craig JP, Vidal-Rohr M, et al. Impact of digital screen use and lifestyle factors on dry eye disease in the paediatric population[J]. Ocul Surf, 2022, 24: 64-66.
[17]
Wu PC, Chen CT, Chang LC, et al. Increased time outdoors is followed by reversal of the long-term trend to reduced visual acuity in Taiwan primary school students[J]. Ophthalmology, 2020, 127(11): 1462-1469.
[18]
史千惠,刘琳,何晴. 近视防控门诊7~14岁儿童干眼的患病率及危险因素分析[J]. 国际眼科杂志202323(2): 339-344.
[19]
Chua SYL, Ikram MK, Tan CS, et al. Is there a link between passive smoke exposure and early-onset myopia in preschool Asian children?[J]. Ophthalmic Physiol Opt, 2016, 36(4): 370-380.
[20]
Wickham LA, Gao J, Toda I, et al. Identification of androgen, estrogen and progesterone receptor mRNAs in the eye [J]. Acta Ophthalmol Scand, 2000, 78(2): 146-153.
[21]
Wen K, Shao XF, Li YH, et al. The plasminogen protein is associated with high myopia as revealed by the iTRAQ-based proteomic analysis of the aqueous humor[J]. Sci Rep, 2021, 11(1): 8789.
[22]
Golebiowski B, Badarudin N, Eden J, et al. Does endogenous serum oestrogen play a role in meibomian gland dysfunction in postmenopausal women with dry eye?[J]. Brit J Ophthalmol, 2017, 101(2): 218-222.
[23]
Terasaki H, Yamashita T, Yoshihara N, et al. Association of lifestyle and body structure to ocular axial length in Japanese elementary school children[J]. BMC Ophthalmol, 2017, 17(1): 123.
[24]
González-Padilla E, Dias AJ, Ramne S, et al. Association between added sugar intake and micronutrient dilution: a cross-sectional study in two adult Swedish populations[J]. Nutr Metab (Lond), 2020, 17: 15.
[25]
Gupta PK, Venkateswaran N, Heinke J, et al. Association of meibomian gland architecture and body mass index in a pediatric population[J]. Ocul Surf, 2020, 18(4): 657-662.
[26]
Wu Y, Wu J, Bu J, et al. High-fat diet induces dry eye-like ocular surface damages in murine[J]. Ocul Surf, 2020, 18(2): 267-276.
[27]
Zhao H, Li Q, Ye M, et al. Tear luminex analysis in dry eye patients[J]. Med Sci Monit, 2018, 24: 7595-7602.
[28]
Aksoy-Aydemir G, Ilhan C, Pehlłvanoglu B, et al. Conjunctival Histopathological Changes in Children With Vitamin D Deficiency[J]. Eye Contact Lens, 2022, 48(7): 289-294.
[29]
Yuan J, Wu S, Wang Y, et al. Inflammatory cytokines in highly myopic eyes[J]. Sci Rep, 2019, 9(1): 3517.
[30]
Zhao H, Li Q, Ye M, et al. Tear luminex analysis in dry eye patients[J]. Med Sci Monit, 2018, 24: 7595-7602.
[31]
Baratta RO, Schlumpf E, Del-Buono BJ, et al. Corneal collagen as a potential therapeutic target in dry eye disease[J]. Surv Ophthalmol, 2022, 67(1): 60-67.
[32]
Wu X, Chen X, Ma Y, et al. Analysis of tear inflammatory molecules and clinical correlations in evaporative dry eye disease caused by meibomian gland dysfunction[J]. Int Ophthalmol, 2020, 40(11): 3049-3058.
[33]
Wei CC, Kung YJ, Chen CS, et al. Allergic Conjunctivitis-induced retinal inflammation promotes myopia progression[J]. EBioMedicine, 2018, 28: 274-286.
[34]
李锡谦,康平,周玉. 阿托品对形觉剥夺性近视模型大鼠的改善作用及作用机制[J]. 河北医学202329(1): 76-81.
[35]
Fong PY, Shih KC, Lam PY, et al. Role of tear film biomarkers in the diagnosis and management of dry eye disease[J]. Taiwan J Ophthalmol, 2019, 9(3): 150-159.
[36]
吕晓彤,宋彦铮,张丰菊. 近视眼相关Lumican基因突变对人巩膜成纤维细胞中bFGF和TGF-β2的影响[J]. 中华眼科杂志202157(4): 7.
[37]
李玉红,马凌葵. 干眼症患者泪液中溶菌酶及转化生长因子β-2的检验分析[J]. 临床眼科杂志201927(4): 319-321.
[38]
Yan Y. Research progress on etiology and pathogenesis of myopia[J]. ACM, 2022, 10(11): 2561-2566.
[39]
Shoari A, Rasaee MJ, Rezaei-Kanavi M, et al. In vivo effect of rsh-12, a novel selective mmp-9 inhibitor peptide, in the treatment of experimentally induced dry eye model[J]. Curr Eye Res, 2021, 46(1): 7-13.
[40]
Merida S, Villar VM, Navea A, et al. Imbalance between oxidative stress and growth factors in human high myopia[J]. Front Physiol, 2020, 11: 463.
[41]
Park B, Jo K, Lee TG, et al. Polydatin inhibits NLRP3 inflammasome in dry eye disease by attenuating oxidative stress and inhibiting the NF-kappaB pathway[J]. Nutrients, 2019, 11(11): 2792.
[42]
Jiang L, Long K, Schaeffel F, et al. Effects of dopaminergic agents on progression of naturally occurring myopia in albino guinea pigs (Cavia porcellus)[J]. Invest Ophthalmol Vis Sci, 2014, 55(11): 7508-7519.
[43]
Ji YW, Kang HG, Song JS, et al. The dopaminergic neuronal system regulates the inflammatory status of mouse lacrimal glands in dry eye disease[J]. Invest Ophthalmol Vis Sci, 2021, 62(4): 14.
[44]
郭元懿,李若溪. 儿童屈光状态对干眼的影响[J]. 中国实用眼科杂志2017, 35(3): 295-298.
[45]
Fahmy RM, Aldarwesh A. Correlation between dry eye and refractive error in Saudi young adults using noninvasive Keratograph 4[J]. Indian J Ophthalmol, 2018, 66(5): 653-656.
[46]
Dhungel D, Shrestha GS. Visual symptoms associated with refractive errors among Thangka artist s of Kathmandu valley[J]. BMC Ophthalmol, 2017, 17(1): 258.
[47]
贺贵云,李秋霞. Keratograph眼表综合分析仪对高度近视患者眼表功能的评估[J]. 陕西医学杂志2017, 46(10): 1444-1446.
[48]
Ilhan N, Ilhan O, Ayhan-Tuzcu E, et al. Is there a relationship between pathologic myopia and dry eye syndrome?[J]. Cornea, 2014, 33(2): 169-171.
[49]
Yotsukura E, Torii H, Inokuchi M, et al. Current prevalence of myopia and association of myopia with environmen tal factors among schoolchildren in Japan[J]. JAMA Ophthalmol, 2019, 137(11): 1233-1239.
[50]
Hazra D, Yotsukura E, Torii H, et al. Relation between dry eye and myopia based on tear film breakup time, higher order aberration, choroidal thickness, and axial length[J]. Sci Rep, 2022, 12(1): 10891.
[51]
Shi J, Tan X, Yang J, et al. Influence of astaxanthin in refractive status and pathohistology of myopia models caused by concave lens of guinea pigs[J]. J Jilin University Med Ed, 2017, 43(5): 932-936.
[52]
Tian L, Wen Y, Li S, et al. Benefits and safety of astaxanthin in the treatment of mild-to-moderate dry eye disease[J]. Front Nutr, 2022, 8: 796951.
[53]
Pan M, Zhao F, Xie B, et al. Dietary omega-3 polyunsaturated fatty acids are protective for myopia[J]. Proc Natl Acad Sci U S A, 2021, 118(43): e2104689118.
[54]
候燕,张雯. Omega-3必需脂肪酸饮食干预用于治疗干眼症患者的Meta分析[J]. 解放军护理杂志201734(8):16-21.
[1] 张巧梅, 孙小平, 李冠胜, 邓扬嘉. 针灸对大鼠呼吸机相关性肺炎中性粒细胞归巢及胞外诱捕网的影响[J]. 中华危重症医学杂志(电子版), 2023, 16(04): 265-271.
[2] 张晓燕, 肖东琼, 高沪, 陈琳, 唐发娟, 李熙鸿. 转录因子12过表达对脓毒症相关性脑病大鼠大脑皮质的保护作用及其机制[J]. 中华妇幼临床医学杂志(电子版), 2023, 19(05): 540-549.
[3] 魏徐, 张鸽, 伍金林. 新生儿脓毒症相关性凝血病的监测和治疗[J]. 中华妇幼临床医学杂志(电子版), 2023, 19(04): 379-386.
[4] 崔占斌, 乔军利, 张丽丽, 韩明强. 尿碘水平与甲状腺乳头状癌患者术后复发危险度分层的相关性[J]. 中华普外科手术学杂志(电子版), 2023, 17(06): 615-618.
[5] 高静, 严学倩, 及月茹, 郝淼旺, 刘苍春. 胃癌患者以慢性贫血为首发表现的高危因素Logistic分析[J]. 中华普外科手术学杂志(电子版), 2023, 17(05): 534-537.
[6] 李晓晖, 上官昌盛, 向英, 裴芝皆, 车俊志, 谢飞. 3D腹腔镜袖状胃切除术后机体能量代谢与多囊卵巢综合征患者性激素水平关系[J]. 中华普外科手术学杂志(电子版), 2023, 17(05): 538-541.
[7] 安钱, 徐彬, 陈志祥, 徐晶晶, 黄丹丹. PCT、CRP及SAA对呼吸机相关性肺炎病情严重程度和预后分析[J]. 中华肺部疾病杂志(电子版), 2023, 16(04): 544-546.
[8] 潘春江, 李科, 李新楼, 杨博, 任雪玲. 高龄老人骨转换代谢标志物与肾功能的相关性研究[J]. 中华肾病研究电子杂志, 2023, 12(05): 260-264.
[9] 尹磊, 李仕明, 柳鹏领, 孙金艳, 任芳芳, 谢红丽, 丁艳, 宋艳伟, 魏士飞. 郑州市小学生近视眼进展的纵向研究[J]. 中华眼科医学杂志(电子版), 2023, 13(05): 273-278.
[10] 王文莹, 田磊, 潘志强. 3%地夸磷索钠滴眼液治疗干眼前后自觉症状改善和体征变化关系的临床研究[J]. 中华眼科医学杂志(电子版), 2023, 13(05): 279-284.
[11] 娜荷雅, 朱丹. 红光疗法在儿童近视眼防控中的研究进展[J]. 中华眼科医学杂志(电子版), 2023, 13(04): 252-256.
[12] 张郁妍, 胡滨, 张伟红, 徐楣, 朱慧, 羊馨玥, 刘海玲. 妊娠中期心血管超声参数与肝功能的相关性及对不良妊娠结局的预测价值[J]. 中华消化病与影像杂志(电子版), 2023, 13(06): 499-504.
[13] 魏红涛, 普布仓决, 格桑央宗, 黎燕, 益西旺扎, 李鹏. 拉萨地区上消化道溃疡患者幽门螺杆菌感染及治疗分析[J]. 中华临床医师杂志(电子版), 2023, 17(06): 662-665.
[14] 王燕, 郭蕊, 王淑杰. 老年烧伤气管切开患者死亡风险诊断模型构建及对策分析[J]. 中华诊断学电子杂志, 2023, 11(04): 249-253.
[15] 王昊, 明倩文, 王斌, 卢太坤, 张海宁. 利奈唑胺致黑毛舌的临床诊断学特征[J]. 中华诊断学电子杂志, 2023, 11(04): 254-260.
阅读次数
全文


摘要

版权所有 中华医学会 中华医学电子音像出版社有限责任公司  京ICP备14006079号-1  网络出版服务许可证:(署)网出证(京)字第075号