执行的重要公共卫生项目
1.上海市公共卫生三年行动计划(2020-2022年)“儿童青少年近视智慧精准综合干预模式创建”(1120万)
2. 上海市公共卫生三年行动计划(2015-2017年)“青少年近视干预”(1500万元)
3. 上海市公共卫生三年行动计划(2011-2013年)“儿童近视综合防治-建立屈光发育档案”(3210万元)
Implementation of public health projects
1. Shanghai Three-Year Action Plan for Public Health (2020-2022) ‘Creation of an Intelligent, Precise and Comprehensive Intervention Model for Myopia in Children and Adolescents’ (11.2 million RMB)
2. Shanghai Public Health Three-Year Action Plan (2015-2017) ‘Youth Myopia Intervention’ (15 million RMB)
3. Shanghai Public Health Three-Year Action Plan (2011-2013) ‘Comprehensive Prevention and Treatment of Childhood Myopia - Establishment of Refractive Development Records’ (32.1 million RMB)
本人承担的重要课题
1.国家自然科学基金委员会,面上项目,8227120378,低强度红光暴露防控儿童青少年近视的作用及脉络膜机制研究,2023-01 至 2026-12 ,52万,在研
2.科技部, 国家重点研发计划子课题, 2021YFC2702104, 大数据、人工智能与预测模型, 2021-12 至 2024-11, 282万元,在研
3.上海市科学技术委员会,上海市2022年度“科技创新行动计划”优秀学术/技术带头人计划项目, 22XD1422900,脉络膜血流介导户外光暴露预防儿童青少年近视的作用研究,2022-9 至 2025-8,40万,在研
4.上海市卫生健康委员会,上海市卫生健康学科带头人人才计划项目,2022XD032,学龄前儿童屈光发育规律及干预研究, 2023-01 至 2025-12, 45万元,在研
5.上海市科学技术委员会,“科技创新行动”生物医药支撑专项, 21S31900800,基于时域光学相干断层扫描研发近视筛查眼轴测量仪,2021-08 至2024-07,25万元,在研
6.上海申康医院发展中心,医企融合创新成果转化专项 ,SHDC2022CRD015,基于眼轴的儿童青少年近视精准监测研究与转化,2022-08至2024-08,40万元,在研
7.上海市卫生健康委员会,上海市公卫优秀学科带头人培养计划,GWV-10.2-XD09,儿童青少年近视防控“5P”干预模式创建与实践,2020-07至2022-06,72万元,结题
8.国家卫生健康委员会医政医管局,任务委托课题,高度近视现状、危害和干预策略,SKHT2020-04 ,2020-06至2021-06,8万元,结题
9.上海市公共卫生三年行动计划(2020-2022年)“儿童青少年近视智慧精准综合干预模式创建”(1120万)
10.中国医学科学院, 中国医学科学院中央级公益性科研院所基本科研项目, 2019HY320001, 青少年近视 防治适宜技术探索和模式创建, 2019-12 至 2020-12, 18万元, 结题
11.上海市卫生健康委员会,标准预研制项目,2020WB13 ,儿童青少年视力和远视储备正常参考值,2019-07至2020-07,5万元,结题
12.上海市卫生健康委员会,上海市卫计系统优秀医学青年人才培养计划,2017YQ019,儿童青少年高度近视登记研究,2017-07至2020-06,50万元,结题
13.上海市科学技术委员会,“科技创新行动”科普项目, 17dz2309600,“目”浴阳光 预防近视青少年眼健康科普行动,2017-05至2019-04,50万,结题
14.国家自然科学基金委员会,青年项目,81402695,青春期激素水平对儿童屈光发育调控研究, 2015-01至2017-12,23万,结题
Important Projects
1. National Natural Science Foundation of China, Top Project, 8227120378, Study on the Role and Choroidal Mechanism of Low-Intensity Red Light Exposure in the Prevention and Control of Myopia in Children and Adolescents, 2023-01 to 2026-12, 520,000RMB, under research.
2. Ministry of Science and Technology, National Key Research and Development Programme, 2021YFC2702104, Big Data, Artificial Intelligence and Predictive Modelling, 2021-12 to 2024-11, 2.82 million RMB, under research.
3. Shanghai Municipal Science and Technology Commission, Shanghai Municipal Science and Technology Innovation Action Plan 2022 Outstanding Academic/Technical Leaders Programme, 22XD1422900, Choroidal blood flow-mediated prevention of myopia in children and adolescents exposed to outdoor light, 2022-9 to 2025-8, 0.4 million RMB, under research.
4. Shanghai Municipal Health Commission, Shanghai Health Leaders Programme, 2022XD032, Refractive Development and Intervention in Preschool Children, 2023-01 to 2025-12, 450,000 RMB, under research.
5. Shanghai Science and Technology Commission, ‘Science and Technology Innovation Action’ Biomedical Support Special Project, 21S31900800, Based on Time Domain Optical Coherence Tomography to Develop Eye Axis Measuring Instrument for Myopia Screening, 2021-08 to 2024-07, 250,000 RMB, under research.
6. Shanghai Shenkang Hospital Development Centre, Special Project on Transformation of Innovative Achievements of Medical Enterprise Integration, SHDC2022CRD015, Research and Transformation of Accurate Monitoring of Myopia in Children and Adolescents Based on the Eye Axis, 2022-08 to 2024-08, 400,000 RMB, under research.
7. Shanghai Municipal Health Commission, Shanghai Municipal Public Health Excellent Discipline Leader Cultivation Programme, GWV-10.2-XD09, Creation and Practice of 5P Intervention Model for Prevention and Control of Myopia in Children and Adolescents, 2020-07 to 2022-06, 720,000 RMB, completed.
8. Medical Affairs Bureau of the National Health Commission, commissioned by the task, the current situation of high myopia, hazards and intervention strategies, SKHT2020-04, 2020-06 to 2021-06, 80,000 RMB, completed.
9. Shanghai Public Health Three-Year Action Plan (2020-2022), ‘Creating an Intelligent, Precise and Comprehensive Intervention Model for Myopia in Children and Adolescents’, 11.2 million RMB.
10. Chinese Academy of Medical Sciences (CAMS), Basic Research Project of CAMS Central Public Welfare Research Institutes, 2019HY320001, Exploration of Appropriate Techniques for Prevention and Treatment of Adolescent Myopia and Creation of a Model, 2019-12 to 2020-12, 180,000 RMB, completed
11. Shanghai Municipal Health Commission, Standard Pre-development Project, 2020WB13, Normal Reference Values of Visual Acuity and Hyperopia Reserve for Children and Adolescents, 2019-07 to 2020-07, 50,000 RMB, final project.
12. Shanghai Municipal Health Commission, Shanghai Municipal Healthcare System Excellent Medical Young Talent Training Programme, 2017YQ019, Study on the Registration of High Myopia in Children and Adolescents, 2017-07 to 2020-06, 500,000 RMB, completed
13.Shanghai Municipal Science and Technology Commission, ‘Science and Technology Innovation Action’ Popularisation Project, 17dz2309600, ‘Bathing in the Sun to Prevent Myopia’ Youth Eye Health Popularisation Action, 2017-05 to 2019-04, 500,000 RMB, completed.
14. National Natural Science Foundation of China, Youth Project, 81402695, Study on the Regulation of Refractive Development of Children by Hormone Levels during Puberty, 2015-01 to 2017-12, 230,000RMB, completed.
重要奖项
1.何鲜桂(2/14);上海市科学技术奖:“目”浴阳光-儿童早期视觉健康系列绘本《快乐的大眼睛》及衍生科普作品,科学技术普及奖,一等奖,2024(许迅、何鲜桂、邹海东、杨金柳行、王菁菁、徐新、罗春燕、魏晓敏、周类思、朱剑锋、陆丽娜、陈军、高玮、甘海峰)
2.何鲜桂(1/10);上海市预防医学会科学技术奖: 数智驱动“6P”医防融合青少年近视管理模式的构建与实践,二等奖,2023.(何鲜桂、王菁菁、陈军、罗春燕、徐新、魏晓敏、史慧静、朱剑锋、邹海东、许迅)
3.何鲜桂;上海科普教育创新奖:用高效的方式守护光明—让预防近视做得到,科普管理优秀奖二等奖,2022
4.何鲜桂;上海市卫健系统第十八届“银蛇奖”三等奖(上海市卫生医务青年人才最高荣誉奖),上海市卫生系统人才奖励基金会,2021
Important awards
1. He Xiangui (2/14); Shanghai Science and Technology Award: ‘Eyes’ Bathing in the Sun - Early Childhood Visual Health Series Picture Book ‘Happy Big Eyes’ and Derivative Science and Technology Popularisation Works, Science and Technology Popularisation Award, First Prize, 2024 (Xu Xun, He Xiangui, Zou Haidong, Yang Jinliu Xing, Wang Jingjing, Xu Xin, Luo Chunyan, Wei Xiaomin, Zhou Zuansi, Zhu Jianfeng, Lu Liwei, Zhu Jianfeng, Zhou Lixiang, Zhou Lixiang, Zhou Lixian). Si, Zhu Jianfeng, Lu Lina, Chen Jun, Gao Wei, Gan Haifeng)
2. He Xiangui (1/10); Science and Technology Award of Shanghai Preventive Medicine Association: Construction and Practice of ‘6P’ Medical and Prevention Integration Myopia Management Model for Adolescents Driven by Numerical Intelligence, Second Prize, 2023 (He Xiangui, Wang Jingjing, Chen Jun, Luo Chunyan, Xu Xin, Wei Xiaomin, Shi Huijing, Zhu Jianfeng, Zou Haidong, Xu Xun)
3. He Xiangui; Shanghai Science Education Innovation Award: Guarding Light in an Efficient Way - Making Prevention of Nearsightedness Doable, Second Prize of Excellence in Popular Science Management, 2022
4. He Xianggui; Third Prize of the 18th ‘Silver Snake Award’ of Shanghai Municipal Healthcare System (Shanghai Municipal Healthcare Young Talents' Highest Honour), Shanghai Municipal Healthcare System Talent Reward Foundation, 20
第一作者/通讯作者发表论文/著作 First author/corresponding author publications
[1]Qi Z, Li T, Chen J, Yam J Huang, G, Zhong H, He M, Zhu D, Dai R, Qian B, Wang J, Qian C, Wang W, Zheng Y, Zhang J, Yi X, Wang Z, Zhang B, Liu C, Cheng T, Yang X, Li J, Pan Y-T, Ding X, Xiong R, Wang Y, Zhou Y, Feng D, Liu S, Du L, Yang J, Zhu Z, Bi L, Kim J, Tang F, Zhang Y, Zhang X, Zou H, Ang M, Tham C.C, Cheung C.Y, Pang C.P*, Sheng B*, He X*, Xu X*. A deep learning system for myopia onset prediction and intervention effectiveness evaluation in children. NPJ Digit Med 2024.7, 206. (IF:12.4)
[2]Chen J, Wang J, Qi Z, Liu S, Zhao L, Zhang B, Dong K, Du L, Yang J, Zou H, He X*, Xu X*. Smartwatch measures of outdoor exposure and myopia in children. JAMA network open 2024.7, e2424595. (IF:10.5)
[3]Deng J, Xu Xian, Pan C.W, Wang J, He M, Zhang B, Yang J, Hou X.-W, Zhu Z, Borchert G, Chen J, Cheng T, Yu S, Fan Y, Liu K, Zou H*, Xu Xun*, He X*. Myopic maculopathy among Chinese children with high myopia and its association with choroidal and retinal changes: The SCALE-HM study. Brit. J. Ophthalmol. 2024. 108, 720–728. (IF:3.7)
[4]Chen D, Du Y, Liu Y, Hong J, Yin X, Zhu Z, Wang J, Zhang J, Chen J, Zhang B, Du L, Yang J, He X*, Xu X*. Development and validation of a smartwatch algorithm for differentiating physical activity intensity in health monitoring. Sci. Rep. 2024. 14, 9530. (IF:3.8)
[5]Du L, Ding L, Chen J, Wang J, Yang J, Liu S, Xu X, He X* Huang J*, Zhu M*. Efficacy of weekly dose of 1% atropine for myopia control in Chinese children. Br J Ophthalmol.2024. bjo-2023-324615. (IF:3.7)
[6]Gong W, Cheng T, Wang J, Zhang B, Chen J, Zhu J, Zou H, Liu K, He X*, Xu X*. Role of corneal radius of curvature in early identification of fundus tessellation in children with low myopia. Brit. J. Ophthalmol. 2023.107, 1532–1537 . (IF:3.7)
[7]He X#, Wang J#, Zhu Z, Xiang K, Zhang X, Zhang B, Chen J, Yang J, Du L, Niu C, Leng M, Huang J, Liu K, Zou H, He M, Xu X. Effect of repeated low-level red light on myopia prevention among children in China with premyopia: A randomized clinical trial. JAMA Netw. Open.2023.6, e239612. (IF:10.5)
[8]Wang J, Qi Z, Feng Y, Chen J, Du L, Yang J, Xie H, Zhu J, Zou H, He X*, Xu X*. Normative value of hyperopia reserve and myopic shift in Chinese children and adolescents aged 3-16 years. Brit. J. Ophthalmol. 2024. 108, 1024–1029. (IF:3.7)
[9]Xu Y, Deng J, Zhang B, Xu Xian, Cheng T, Wang J, Xiong S, Luan M, Zou H, He X*, Tang C*, Xu Xun*. Higher-order aberrations and their association with axial elongation in highly myopic children and adolescents. Brit. J. Ophthalmol. 2023. 107, 862–868. (IF:3.7)
[10]Yang J.-L.-X., Li , Chen J, Wang J, Du L, Liu S, He X*, Pan C.W*. Effect modification of time spent outdoors on the association between early childhood overweight and myopia: a one-year follow-up study. J. Public Health (Oxf. Engl.) 2024. 46, 107–115. (IF:3.6)
[11]He X, Sankaridurg P, Wang J, Chen J, Naduvilath T, He M, Zhu Z, Li W, Morgan IG, Xiong S, Zhu J, Zou H, Rose KA, Zhang B, Weng R, Resnikoff S, Xu X. Time Outdoors in Reducing Myopia: A School-Based Cluster Randomized Trial with Objective Monitoring of Outdoor Time and Light Intensity. Ophthalmology. 2022 Nov;129(11):1245-1254.(IF:14.28)
[12]Wang J, Sankaridurg P, Naduvilath T, Li W, Morgan IG, Rose KA, Weng R, Xu X, He X*.Time outdoors positively associates with academic performance: a school-based study with objective monitoring of outdoor time.BMC Public Health. 2023 Apr 4;23(1):645. doi: 10.1186/s12889-023-15532-y.
[13]Deng J, Jin J, Zhang B, Zhang S, Wang J, Xiong S, Cheng T, Liu K, Huang J, He X*, Xu X*. Effect of Ocular Magnification on Macular Choroidal Thickness Measurements Made Using Optical Coherence Tomography in Children. Curr Eye Res. 2022 Nov;47(11):1538-1546.(IF:2.56)
[14]Chen J, Liu S, Zhu Z, Bulloch G, Naduvilath T, Wang J, Du L, Yang J, Zhang B, Zou H, Xu X, He X*. Axial length changes in progressive and non-progressive myopic children in China. Graefes Arch Clin Exp Ophthalmol. 2022 Nov 30.(IF:3.54)
[15]He X, Sankaridurg P, Naduvilath T, Wang J, Xiong S, Weng R, Du L, Chen J, Zou H, Xu X.Normative data and percentile curves for axial length and axial length/corneal curvature in Chinese children and adolescents aged 4–18 years. Br J Ophthalmol, 2021. Online ahead of print. (IF:4.761)
[16]Wang J, Xie H, Morgan I, Chen J, Yao C, Zhu J, Zou H, Liu K, Xu X, He X*. How to Conduct School Myopia Screening: Comparison Among Myopia Screening Tests and Determination of Associated Cutoffs. Asia Pac J Ophthalmol (Phila), 2022, 11(1):12-18. (IF:2.878)
[17]He X, Sankaridurg P, Xiong S, Li W, Naduvilath T, Lin S, Weng R, Lv M, Ma Y, Lu L, Wang J, Zhao R, Resnikoff S, Zhu J, Zou H, Xu X. Prevalence of myopia and high myopia, and the association with education: Shanghai Child and Adolescent Large-scale Eye Study (SCALE): a cross-sectional study.BMJ Open, 2021, 11(12): e048450.(IF:2.692)
[18]Cheng T,Deng J, Xu X, Zhang B, Wang J, Xiong S, Du Y, Yu S, Gong W, Zhao H, Luan M, Fan Y, Zhu J, Zou H, Xu X, He X*.Prevalence of fundus tessellation and its associated factors in Chinese children and adolescents with high myopia.Acta Ophthalmogica, 2021 Dec;99(8):e1524-e1533. doi: 10.1111/aos.14826.(IF:3.362)
[19]He X#, Deng J#, Xu X,Wang J,Cheng T, Zhang B,Zhao H,Luan M, Fan Y,Xiong S, Zhu J, Zou H, Xu X.Design and pilot data of the high myopia registration study: shanghai child and adolescent large-scale eye study(SCALE-HM). Acta Ophthalmol. 2021 Jun;99(4):e489-e500. DOI:10.1111/aos.14617 (IF:3.324)
[20]Wang J, Cheng T,Zhang B,Xiong S,Zhao H,Li Q,He X*.Puberty could regulate the effects of outdoor time on refractive development in Chinese children and adolescents. Br J Ophthalmol. 2021 Feb;105(2):191-197. (IF:3.611)
[21]Xiong S, He X*, Bo Zhang, Deng J, Zhu J, Zou H, Xu X. Changes in choroidal thickness varied by age and refraction in children and adolescents: a one-year longitudinal study. Am J Ophthalmol., 2020, 213: 46–56 (IF:4.483)
[22]Cheng T, Wang J, Xiong S, Zhang B, Li Q, Xu X,He X*. Association of IGF-1 Single-Nucleotide Polymorphisms with Myopia in Chinese Children .Peer.J. 2020, 8: e8436. (IF:2.353)
[23]Ye B, Liu K, Cao S, Sankaridurg P, Li W, Luan M, Zhang B, Zhu J, Zou H, Xu X, He X*. Discrimination of indoor versus outdoor environmental state with machine learning algorithms in myopia observational studies.J Transl Med, 2019,17(1), 314-325. (IF:4.098)
[24]He XG, Deng JJ, Yin Y, Zhang B, Xiong SY, Zhu JF, Zou HD, Xu X, Wang L*. Macular choroidal thickness in Chinese preschool children: decrease with axial length but no evident change with age., Int J Ophthalmol, 2019,12(9), 1465-1473. (IF:1.189)
[25]He X#, Sankaridurg P#, Shuyu X, Li W, Zhang B, Weng R, Zhu J, Naduvilath T, Resnikoff S, Zou H ,Xu X*. Shanghai Time Outside to Reduce Myopia trial: design and baseline data. Clin Exp Ophthalmol. 2019 Mar;47(2):171-178 (IF:3.217)
[26]Jin P, Zou H, Xu X, Chang TC, Zhu J, Deng J, Lv M, Jin J, Sun S, Wang L, He X*. The longitudinal changes in choroidal and retinal thicknesses in children with myopic shift. Retina. 2019 Jun;39(6):1091-1099. (IF:4.013)
[27]Deng J,Xiao L,Jin J,Zhang B,Zhu J,Zou H,Xu X,Xie J,Wang L,Zhu S*,He X*.Distribution pattern of choroidal thickness at the posterior pole in Chinese children with myopia.Invest Ophthalmol Vis Sci. 2018.March, 59(3):1577-1586 (IF:3.388)
[28]Ma Y,Zou H,Lin S,Xu X,Zhao R,Lu L,Zhao H,Li Q,Wang L,Zhu J*,He X*.Cohort Study with 4-year Follow-up of Myopia and Refractive Parameters in Primary School Children in Baoshan District, Shanghai . Clin Exp Ophthalmol. 2018 Nov;46(8):861-872. (IF:3.217)
[29]Wang J, He XG*, Xu X.The measurement of time spent outdoors in child myopia research: a systematic review.Int J Ophthalmol. 2018 Jun 18;11(6):1045-1052. (IF:1.166)
[30]He X, Zhao R, Sankaridurg P, Zhu J, Naduvilath T, Ma Y, Lu L, Lv M, Smith EL 3rd, Resnikoff S, Naidoo K, Zou H*, Xu X*.Design and methodology of the Shanghai child and adolescent large-scale eye study (SCALE).Clin Exp Ophthalmol. 2018 May;46(4):329-338.(IF:3.217)
[31]Xiong S, Lv M, Zou H,Zhu J,Lu L, Zhang B,Deng J, Yao C, He X*, Xu X.Comparison of Refractive Measures of Three Autorefractors in Children. Optom Vis Sci. 2017 Sep;94(9):894-902 (IF:1.499)
[32]Xiong S,Sankaridurg P,Naduvilath T,Zang J, Zou H,Zhu J,Lv M,He X*,Xun X.Time Spent in Outdoor Activities in Relation to Myopia Prevention and Control: A Meta-Analysis and Systematic Review. Acta Ophthalmol. 2017Sep; 95(6):551-566 .(IF:3.324)
[33]He X#, Jin P#, Zou H, Li Q, Jin J, Lu L, Zhao H, He J, Xu X, Wang M, Zhu J*.Choroidal Thickness in Healthy Chinese Children Aged 6 to 12:The Shanghai Children Eye Study.Retina. 2017 Feb;37(2):368-375. (IF:4.013)
[34]Jin P, Zou H, Zhu J, Xu X, Jin J, Chang TC, Lu L, Yuan H, Sun S, Yan B, He J, Wang M, He X*.Choroidal and Retinal Thickness in Children With Different Refractive Status Measured by Swept-Source Optical Coherence Tomography.Am J Ophthalmol. 2016 Aug;168:164-76. (IF:5.052)
[35]Jin P, Zhu J, Zou H, Lu L, Zhao H, Li Q, He X*. Screening for significant refractive error using a combination of distance visual acuity and near visual acuity. PLoS One. 2015,17;10(2):e0117399. (IF:3.057)
[36]He X,Zou H,Lu L,Zhao R, Zhao H, Li Q, Zhu J*.Axial length/corneal radius ratio: association with refractive state and role on myopia detection combined with visual acuity in Chinese schoolchildren.PLoS One. 2015 18;10(2):e0111766. (IF:3.057)
[37]Zhao W, Wang J, Chen J, Xie H, Yang J, Liu K, He X*, Xu X*.The rate of orthokeratology lens use and associated factors in 33,280 children and adolescents with myopia: a cross-sectional study from Shanghai.Eye (Lond). 2023 Oct;37(15):3263-3270. doi: 10.1038/s41433-023-02503-1.
[38]Du L, Chen J, Ding L, Wang J, Yang J, Xie H, Xu X, He X*, Zhu M*.Add-On Effect of 0.01% Atropine in Orthokeratology Wearers for Myopia Control in Children: A 2-Year Retrospective Study.Ophthalmol Ther. 2023 Oct;12(5):2557-2568. doi: 10.1007/s40123-023-00755-4. Epub 2023 Jul 5.
[39]Ma Y, Wen Y, Zhong H, Lin S, Liang L, Yang Y, Jiang H, Chen J, Huang Y, Ying X, Resnikoff S, Lu L, Zhu J, Xu X, He X*, Zou H*.Healthcare utilization and economic burden of myopia in urban China: A nationwide cost-of-illness study.J Glob Health. 2022 Mar 19;12:11003. doi:10.7189/jogh.12.11003. eCollection 2022.
[40]Qi Z, Du L, Chen J, Xu X, He X*, Qiang J*. Accommodative responses under various viewing conditions in surgical patients with intermittent exotropia: an institutional, retrospective study. BMC Ophthalmol. 2022 May 4;22(1):203.
[41]Ma Y, Lin S, Morgan I G, Rozema J J, IribarrenR, Zhu J, Zhang Bo,Yin Y,Shao Y,He X*, Xu X*,Zou H*. Eyes grow towards mild hyperopia rather than emmetropia in Chinese preschool children.Acta Ophthalmol. 2021 Dec;99(8):e1274-e1280. doi: 10.1111/aos.14810. (IF:3.362)
[42]Cheng L, Wang M, Deng J, Lv M, Jiang W, Xiong S, Sun S, Zhu J, Zou Haidong, He X*, Xu X*.Macular Ganglion Cell-Inner Plexiform Layer, Ganglion Cell Complex, and Outer Retinal Layer Thicknesses in a Large Cohort of Chinese Children. Invest Ophthalmol Vis Sci. 2019,60(14):4792-4802 (IF:3.812)
[43]Lin S#, Ma Y#, He X*, Zhu J*, Zou H*. Using Decision Curve Analysis to Evaluate Common Strategies for Myopia Screening in School-Aged Children. Ophthalmic Epidemiol. 2019 Aug;26(4):286-294. (IF:1.297)
[44]Liu X#,He X*,Yin Y,Zhang B,Sun S,Zhu J,Zou H,Wang L,Xu X*.Retinal Oxygen Saturation in 1461 healthy children aged 7-19 and its associated factors. Acta Ophthalmol. 2019 May;97(3):287-295. doi: 10.1111/aos.14043. (IF:3.153)
[45]Deng J#, He X#, Zhang B, Xiong S, Zhu J, Wang L, Wang M*, Xu X.Increased Asymmetry of Macular Retinal Layers in Myopic Chinese Children. Curr Eye Res. 2019 Feb;44(2):225-235. (IF:2.12)
[46]Deng J,Jin J,Lv M,Jiang W,Sun S,Yao C,Zhu J,Zou H,Wang L,He X*,Xu X*. Distribution of scleral thickness and associated factors in 810 Chinese children and adolescents: a swept-source optical coherence tomography study. Acta Ophthalmol. 2019 May;97(3):e410-e418. (IF:3.324)
[47]Zhang L#, He X#, Qu X*, You X, Wang B, Shi H, Tan H, Zou H, Zhu J.Refraction and Ocular Biometry of Preschool Children in Shanghai, China. J Ophthalmol. 2018 Mar 5;2018:5205946. doi: 10.1155/2018/5205946. eCollection 2018. (IF:1.68)
[48]Ma Y, Lin S, Zhu J, Xu X, Lu L, Zhao R, Zhao H, Li Q, Hou Z*, He X*, Zou H*.Different patterns of myopia prevalence and progression between internal migrant and local resident school children in Shanghai, China: a 2-year cohort study.BMC Ophthalmol 2018 Feb 23;18(1):53. (IF:1.770)
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[50]Sankaridurg P, He X*, Naduvilath T, Lv M, Ho A, Smith E, Erickson P, Zhu J*, Zou H, Xu X.Comparison of non-cycloplegic and cycloplegic autorefraction in categorizing refractive error data in children. Acta Ophthalmol. 2017 Nov;95(7):e633-e640. (IF:3.324)
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