糖尿病性黄斑水肿(diabetic macular edema, DME)是糖尿病最常见和最严重的并发症之一，也是中青年劳动人群常见的致盲原因。DME病理生理机制复杂，是多种因素相互作用的结果，控制这些危险因素是降低发病率的关键。DME是全身病相关性眼病，其发生与发展受众多危险因素的影响，但此前文献对其总结不足，本文从全身因素及眼部因素两个方面就DME的危险因素进行综述。全身危险因素主要包括血糖控制欠佳、糖尿病病程长、高血压、血脂代谢紊乱、肥胖、肾功能异常、妊娠状态、降糖药物使用、贫血、阻塞性睡眠呼吸暂停低通气综合征、遗传因素、吸烟、饮酒、高血钙、低血镁等；而其眼部危险因素主要包括白内障、青光眼及玻璃体切割术、全视网膜激光光凝术、合并视网膜静脉阻塞和相关细胞因子等。深入认识和理解这些危险因素，有助于更好地预防和早期治疗DME，同时为治疗糖尿病视网膜病变过程中控制DME进展提供指引和参考。但是，其中一部分因素还存在一定争议，更多的DME危险因素仍有待进一步探索，期望在不久的将来，更多基础和前瞻性临床研究为DME危险因素及治疗提供高质量的证据。

Diabetic macular edema (DME) is one of the most common and severe complications of diabetes, and it is a leading cause of blindness in the working-age population. The pathophysiology of DME is complex, resulting from the interplay of various factors. Controlling these risk factors is crucial in reducing the incidence of DME. As a systemic diseaserelated ocular condition, the onset and progression of DME are influenced by numerous risk factors. However, previous literature has provided insufficient summaries of these factors. This review aims to summarize the risk factors for DME from both systemic and ocular perspectives. The systemic risk factors primarily include poor glycemic control, prolonged duration of diabetes, hypertension, dyslipidemia, obesity, renal dysfunction, pregnancy, the use of hypoglycemic medications, anemia, obstructive sleep apnea-hypopnea syndrome, genetic factors, smoking, alcohol consumption, hypercalcemia, and hypomagnesemia. On the other hand, ocular risk factors include cataracts, glaucoma and vitrectomy, panretinal photocoagulation, coexisting retinal vein occlusion, and related cytokines. A deeper understanding of these risk factors will aid in the better prevention and early treatment of DME, while also providing guidance and reference for controlling the progression of DME during the treatment of diabetic retinopathy. However, some of these factors remain controversial, and additional DME risk factors still need to be explored. It is hoped that, in the near future, more 

foundational and prospective clinical studies will provide high-quality evidence on DME risk factors and treatments.

目的：探讨2003—2023年热休克蛋白(heat shock proteins,HSP)在眼科领域中的研究进展及前沿趋势。方法：利用Web of Science数据库检索2003年1月—2023年12月26日HSP在眼科领域的文献，采用文献计量学方法、应用VOSviewer及CiteSpaces软件对发文量、国家、机构、期刊、作者、关键词以及学科领域等数据进行定量分析及可视化。结果：共纳入1 079篇HSP在眼科领域的相关文献，总体发文量处于波动状态。美国(n =394)是发文量最多的国家，Investigative Ophthalmology & Visual Science(n =80)是发表相关文献最多的期刊。研究热点主要分为三部分，分别为青光眼发病机制、白内障发病机制及HSP在基因层面的眼科疾病机制研究。研究的前沿主题是青光眼、胆固醇、分子伴侣。生物化学与分子生物学、多学科材料科学和细胞生物学学科领域具有最高的中介中心性值，分别为0.60、0.28和0.26。多学科化学(爆发年份：2017—2023年；强度为6.3)是该领域研究前沿涉及的学科。结论：HSP在眼科领域的研究重点是揭示疾病的遗传背景，探究其在青光眼及白内障中的分子机制以及治疗应用。该领域分子机制研究的进展有赖于多学科的合作。

Objective: To investigate the advances and trends of heat shock proteins (HSP) in ophthalmology published from  2003 to 2023. Methods: The Web of Science database was used to retrieve the literature on heat shock proteins in ophthalmology published from January 1, 2003 to December 26, 2023. Bibliometric methods and VOSviewer and CiteSpaces software were used to analyze and visualize data, including publication count, countries, organizations, journals, authors, keywords and subject categories. Results: A total of 1079 publications related to HSP in ophthalmology were included, and the overall number of publications was fluctuating. The United States (n =394) was the leading contributor among countries. Investigative Ophthalmology & Visual Science (n =80) was the journal with the largest number of publications. The pathogenesis of glaucoma, the pathogenesis of cataract and the mechanism of ophthalmic diseases at the genetic level of HSP were identified as the research hotspots. Glaucoma, cholesterol, and molecular chaperones were identified as frontier research topics. Biochemistry & molecular biology, multidisciplinary materials science, and cell biology have the highest betweenness centrality values of 0.60, 0.28, and 0.26, respectively. Multidisciplinary chemistry (burst years: 2017 to 2023; strength = 6.3) was a subject involved in the research frontier of this field. Conclusion: Research on heat shock proteins in ophthalmology mainly focuses on revealing the genetic background of the diseases and exploring the molecular mechanisms and therapeutic applications in glaucoma and cataracts. The advance in the study on molecular mechanisms in this field depends on multidisciplinary collaboration.

Vision serves as the cornerstone of rountine human life activities, wherein approximately 80% of information is perceived visually. Eye diseases, however, frequently culminate in vision impairment or blindness, severely affecting the quality of life. Due to the obscurity of the underlying molecular mechanisms, therapeutic outcomes for various blinding eye diseases remain suboptimal. Over the past decade, the development of single-cell genomics technology has made it possible to obtain multi-dimensional insights into genomes, epigenomes, transcriptomes, and proteomes of tissues and organs at the single-cell level, providing a potent tool for elucidating the molecular mechanisms of eye diseases and advancing precision diagnosis. Meanwhile, single-cell genomics technology has also been harnessed in drug discovery and screening, promising to transform traditional drug development paradigm that is often characterized by high cost ^[1], time-consuming ^[2], and substantial failure rate. This review aims to describe the cutting-edge advances in single-cell omics technology  and its applications in precision diagnosis of eye diseases as well as drug discovery and screening.

Vision serves as the cornerstone of rountine human life activities, wherein approximately 80% of information is perceived visually. Eye diseases, however, frequently culminate in vision impairment or blindness, severely affecting the quality of life. Due to the obscurity of the underlying molecular mechanisms, therapeutic outcomes for various blinding eye diseases remain suboptimal. Over the past decade, the development of single-cell genomics technology has made it possible to obtain multi-dimensional insights into genomes, epigenomes, transcriptomes, and proteomes of tissues and organs at the single-cell level, providing a potent tool for elucidating the molecular mechanisms of eye diseases and advancing precision diagnosis. Meanwhile, single-cell genomics technology has also been harnessed in drug discovery and screening, promising to transform traditional drug development paradigm that is often characterized by high cost ^[1]，time-consuming ^[2], and substantial failure rate. This review aims to describe the cutting-edge advances in single-cell omics technology  and its applications in precision diagnosis of eye diseases as well as drug discovery and screening.

铁离子在维持角膜细胞正常代谢、DNA合成和修复等生理活动中发挥关键作用，但过量的铁离子可能引发铁稳态失衡继而导致细胞毒性损伤和死亡。圆锥角膜是最常见的扩张性角膜疾病，其典型的Fleischer环是铁稳态失衡的直接证据。圆锥角膜与铁代谢相关的前期研究显示，铁稳态失衡有可能是诱发圆锥角膜发生和发展的潜在致病机制。文章总结了人体及角膜中正常的铁代谢循环以及圆锥角膜铁稳态失衡的证据，并从维持铁稳态角度出发探索可能的治疗策略，为扩张性眼病治疗提供新的思路。

Iron ions are essential for normal metabolism, DNA synthesis, and cellular repair in corneal cells. Nevertheless, an excess of these ions can disrupt iron homeostasis, leading to cellular toxicity, damage, and death. Keratoconus, the most prevalent ectatic corneal disorder, is often marked by the Fleischer ring, which indicates an imbalance in iron homeostasis. A review of early studies on keratoconus and iron metabolism suggests that this imbalance may be a potential pathogenic mechanism contributing to the onset and progression of the disease. This article aims to provide a comprehensive overview of normal iron metabolism in the human body and cornea, highlighting the evidence of iron homeostasis imbalance in keratoconus. It also explores potential therapeutic strategies focused on maintaining iron homeostasis, thereby offering novel insights into the treatment of ectatic eye diseases. 

目的：分析某三甲眼科专科医院近5年临床诊疗涉及非手术常规血液检验项目的申请检测情况，为眼科医师了解检验辅助诊断概况、专科医院的实验室项目管理和开展新项目提供依据。方法：从中山大学中山眼科中心医学检验信息管理系统导出2018年1月1日至2022年12月31日期间到院申请进行血液检测的12 866例门诊患者的22 453份样本(共94 081项检验项目)相关检验记录。将申请检测科室及专科医师按照中华医学会眼科学分会推荐分为10个亚专科，对疾病诊断和检测项目等资料进行统计分析，采用文字、柱状图及折线图的形式进行描述。结果：5年间申请进行血液检测的12 866例门诊患者，男性患者6 356例(49.4%)，女性患者6 510例(50.6%)。基于首诊眼病诊断分类，排名前三位的眼病分别为眼整形/眼肿瘤病5 214例 (40.5%)、眼底病 3 487例(27.1%)、角膜病1 711例(13.3%)。申请检测样本量从2018年的3 163份增至2022年的5 903份，总体呈上升趋势。从申请的专科医师分析，眼整形/眼眶病专科医师申请单最多，有6 751份(占30.1%)，其中自身免疫性疾病检测所占比例最高，为49.1%，甲状腺疾病相关检测占41.9%；眼免疫专科医师申请检测量为4 214份(占18.8%)，以自身免疫性疾病检测为主占55.7%，感染性项目检测占32.5%；眼底病专科医师申请检测量为3 629份(16.2%)，其中自身免疫性疾病检测和感染性项目检测分别占47.8%和39.6%；角膜病专科医师申请数为1 436份(占6.4%)，其中过敏性疾病检测比例为41.2%。基于一份申请单可同时检测多个项目，眼整形/眼眶专科申请检测总项最多，有33 513项，甲

状腺疾病检测占65.0%；角膜病专科申请16 482项，过敏性疾病检测占83.4%，眼底病专科和眼免疫专科分别为8 794项和8 047项，均以自身免疫性疾病检测为主，分别占42.5%和40.4%。结论：眼科专科医院中非手术常规检验项目在各亚专科的申请数量明显分布不均，项目构成受亚专科疾病特点的影响。眼科实验室应针对性加强非手术常规检测项目的宣传和管理。

Objective: To analyze the application and testing of non-surgical routine blood test items in clinical diagnosis and treatment in a top-tier ophthalmic hospital over the past five years, providing ophthalmologists with insights into the overview of laboratory-assisted diagnosis, laboratory project management in specialized hospitals, and the basis for launching new projects. Methods: Relevant test records of 22,453 samples (totaling 94,081 test items) from 12,866 outpatient patients who applied for blood tests at the Zhongshan Ophthalmic Center of Sun Yat-sen University from January 1, 2018, to December 31, 2022, were retrieved from the medical laboratory information management system. The departments applying for tests and specialist physicians were divided into 10 subspecialties according to the recommendations of the Ophthalmology Branch of the Chinese Medical Association. Statistical analysis was performed on disease diagnosis and test items, and the results were described in the form of text, bar graphs, and line graphs. Results: Among the 12,866 outpatient patients who applied for blood tests over the five-year period, 6,356 (49.4%) were male and 6,510 (50.6%) were female. Based on the classification of first-visit ophthalmic diseases, the top three were ophthalmic plastic surgery/ocular tumor diseases (5,214 cases, 40.5%), fundus diseases (3,487 cases, 27.1%), and corneal diseases (1,711 cases, 13.3%). The number of samples applied for testing increased from 3,163 in 2018 to 5,903 in 2022, showing an overall upward trend. From the perspective of specialist physicians applying for tests, ophthalmic plastic surgery/orbital disease specialists had the highest number of applications, with 6,751 (30.1%), among which autoimmune disease testing accounted for the highest proportion, at 49.1%, and thyroid disease-related testing accounted for 41.9%. The number of applications from ophthalmic immunology specialists was 4,214 (18.8%), with autoimmune disease testing accounting for 55.7% and infectious disease testing accounting for 32.5%. The number of applications from fundus disease specialists was 3,629 (16.2%), with autoimmune disease testing and infectious disease testing accounting for 47.8% and 39.6%, respectively. The number of applications from corneal disease specialists was 1,436 (6.4%), with allergic disease testing accounting for 41.2%. Since multiple tests could be performed on a single application, the ophthalmic plastic surgery/orbital disease subspecialty had the highest total number of tests applied for, with 33,513 tests, of which thyroid disease testing accounted for 65.0%. The corneal disease subspecialty applied for 16,482 tests, with allergic disease testing accounting for 83.4%. The fundus disease subspecialty and ophthalmic immunology subspecialty respectively applied for 8,794 and 8,047 tests, both primarily focused on autoimmune disease testing, accounting for 42.5% and 40.4%, respectively. Conclusions: The number of applications for non-surgical routine test items in ophthalmic specialized hospitals is significantly unevenly distributed among various subspecialties, and the composition of the items is influenced by the characteristics of diseases in each subspecialty. Ophthalmic laboratories should strengthen the promotion and management of non-surgical routine test items in a targeted manner.

目的：探讨白内障人群角膜屈光力(corneal refractive power,CRP)的分布特点及与眼生物学参数的相关因素分析。方法：回顾性横断面研究福州眼科医院2019年3月至2022年7月就诊的40岁以上白内障人群共23035眼，使用OA-2000测量其眼轴(axial length,AL)、CRP、前房深度(anterior chamber depth,ACD)、晶状体厚度(lens thickness,LT)、角膜水平直径即白到白(white-to-white,WTW)、中央角膜厚度(central corneal thickness,CCT)。绘制各眼生物学参数及年龄Spearman相关性热力图，绘制CRP与AL、CRP与WTW散点拟合图。将CRP与上述参数及年龄进行Spearman相关性分析，分段数据的线性关系使用Pearson分析及线性回归分析。结果：白内障人群CRP为(44.36±1.52)D，在总体数据中CRP与AL为非线性相关；但在分段数据中存在线性相关：当AL≤25.06 mm，CRP与AL负线性相关(R² =0.397，P<0.001)；当AL>25.06 mm，CRP与AL正线性相关(R² =0.045，P<0.001)；无论AL长短，CRP与WTW、CCT均呈负相关。在总体数据中，CRP与WTW也存在非线性关系；但在分段数据中存在线性相关：当10.52 mm≤WTW≤12.46 mm，CRP与WTW负线性相关(R² =0.149，P<0.001)，并与AL、ACD、CCT呈负相关。结论：CRP与AL、WTW呈非线性相关，使用CRP优化计算人工晶状体(intraocular lens,IOL)屈光力时需适当考虑AL、WTW与CRP的相关性。

Objective: To investigate the distribution characteristics of corneal refractive power (CRP), and analyze the correlation between corneal refractive power and ocular biometric parameters in cataract patients. Methods: A retrospective cross-sectional study was conducted on 2,3035 eyes of cataract patients over 40 years old, who visited Fuzhou Eye Hospital during the period between March 2019 and July 2022. The subjects' examination results of axial length (AL), corneal refractive power (CRP), anterior chamber depth (ACD), lens thickness (LT), horizontal corneal diameter (WTW), central corneal thickness (CCT) were measured by OA-2000. Spearman correlation thermograms of bilological parameters and age for each eyes were worked out. The plot scatter fitting plots of CRP and AL, CRP and WTW were made. Spearman correlation analysis was made among CRP, above-mentioned parameters and age. Linear relationships of the segmented data were analyzed with Pearson and linear regression analysis. Results: In the cataract patients, CRP was (44.36 ± 1.52) D. There was a non-linear correlation between CRP and AL in the total data. However, there was a linear relationship in the segmented data. When AL ≤ 25.06 mm, CRP was negatively linearly correlated with AL (R² =0.397, P<0.001). When AL>25.06 mm, CRP was weakly positively correlated with AL (R² =0.045, P<0.001). Regardless of the length of AL, CRP was negatively correlated with WTW and CCT. There was also a nonlinear relationship between CRP and WTW in the total data. But there was a linear correlation in the segmented data.When 10.52 mm ≤ WTW ≤ 12.46 mm, the negative linear correlation was found between CRP and WTW (R² =0.149, P<0.001), while there was negative correlation among CRP, AL, ACD, and CCT. Conclusion: There is a non-linear correlation among CRP, AL and WTW. To optimize the calculation of intraocular lens (IOL) refractive power with CRP, it is necessary to consider the correlation between AL, WTW, and CRP.

该文报道一例激光原位角膜磨镶(laser-assisted in situ keratectomy,LASIK)术后行白内障超声乳化摘除联合多焦点散光矫正型人工晶状体植入术的病例。该患者为42岁女性患者，20年前外院行双眼LASIK手术，现因右眼视物模糊1年就诊。术前IOLMaster检查患者右眼眼轴长度29.66 mm，前房深度3.18 mm，晶状体厚度4.75 mm，白到白距离11.6 mm，前表面及全角膜散光分别为1.01 D@67 °及0.91 D@56 °。Pentacam角膜地形图15 °范围模拟角膜屈光力得到的角膜散光为1.2 D@58.1 °，为规则领结型。患者眼底检查未见明显异常，因其脱镜意愿强烈，植入双焦点散光矫正型IOL(德国Zeiss公司AT LISA toric 909M)。根据Barrett True-K Toric公式测量的后表面散光计算结果进行手术规划，选择+17 D球镜1.5 D柱镜Zeiss 909M IOL，植入轴位55 °。术后1个月患者裸眼远视力0.8，35 cm裸眼近视力1.0，最佳矫正远视力–0.25 DS/–0.5 DC×120 °至1.0，患者满意。提示经过详细的术前评估及规划，并与患者充分沟通，多焦点散光矫正型人工晶状体可以在部分适合的LASIK术后患者中取得良好效果。

It is reported a case of cataract phacoemulsification combined with toric multifocal intraocular lens (IOL) implantation after LASIK surgery in this article. A 42 year-old female patient who underwent bilateral LASIK surgery in other hospital 20 years ago. She visited our hospital due to blurred vision in her right eye for one year. The preoperative IOL Master examination results showed an axial length of 29.66 mm, anterior chamber depth of 3.18 mm, lens thickness of 4.75 mm, white to white distance of 11.6 mm, and anterior surface and total corneal astigmatism of 1.01 D @ 67 ° and 0.91 D @ 56 °, respectively in right eye. The corneal astigmatism measured by Pentacam using 15°range simulated keratometry is 1.2 D@ 58.1 °, which is a regular bow tie shape.No obvious abnormalities was found in the patient's fundus examination. Due to her strong desire to get rid of the glassesa toric bifocal IOL (AT LISA Toric 909M, Zeiss, Germany) was implanted.Based onthe IOL power calculation results of Barrett True-K Toric formula with measured posterior corneal astigmatism, an IOL with Sph 17.0 D/Cyl1.5 D/A 55°was chosen. One month after surgery, the patient's uncorrected distance visual acuity was 20/25, 35 cm uncorrected near visual acuity was 20/20, and the best corrected distance visual acuity was 20/20 with a prescription of –0.25 DS/–0.5 DC × 120 °. The patient was satisfied with the outcome. After detailed preoperative evaluation and design, and sufficient communication with patients, toric multifocal IOL implantation can achieve good results in some apropriated for the patients after LASIK surgery.

肥厚型脉络膜谱系疾病(pachychoroid disease spectrum,PCD)包括肥厚型脉络膜色素上皮病变(pachychoroid pigment epitheliopathy,PPE)、中心性浆液性脉络膜视网膜病变(central serous chorioretinopathy,CSC)、肥厚型脉络膜新生血管病变(pachychoroid neovasculopathy,PNV)、息肉样脉络膜血管病变(polypoidal choroidal vasculopathy,PCV)、局灶性脉络膜凹陷(focal choroidal excavation,FCE)和盘周肥厚型脉络膜综合征(peripapillary pachychoroid syndrome,PPS)。有学者将PCD看作脉络膜功能障碍引发的一系列连续疾病过程，但关于PCD的发病机制、形态改变尚未明确。该文对PCD的脉络膜、涡静脉及巩膜相关改变做一综述。

Pachychoroid disease spectrum include pachychoroid pigment epitheliopathy, central serous chorioretinopathy, pachychoroid neovasculopathy, polypoidal choroidal vasculopathy, focal choroidal excavation, and peripapillary pachychoroid syndrome. Currently, some scholars regard pachychoroid disease spectrum as a series of continuous disease processes caused by choroidal dysfunction, but the pathogenesis and morphological changes of pachychoroid disease spectrum are not yet clear. This paper reviews the changes of choroid, vortex veins and sclera in pachychoroid disease spectrum.

朗格汉斯细胞组织细胞增生症 (Langerhans cell histiocytosis,LCH) 是一种由骨髓细胞肿瘤性增殖引起的罕见疾病，多见于儿童。LCH临床表现多样，以骨骼受累最常见。该文报道了一例儿童颅眶沟通LCH，影像学检查结果提示患儿右侧眉弓处类圆形穿凿样骨质破坏，通过手术切除病灶，送组织病理学检查明确诊断，同时选择通过3D打印聚醚醚酮(polyetheretherketone,PEEK)材料修补颅眶缺损部位，PEEK材料匹配度高、安全性好，改善患儿预后，提升患儿生存质量。

Langerhans cell histiocyte (LCH) is a rare disease caused by the tumor-like proliferation of bone marrow cells, which is mostly seen in children. Its clinical manifestations can be diverse, in which the skeletal system is most involved. This paper reports a case of LCH in cranio-orbital communication of a child. The imaging results suggest that there is a round chisel damage at the patient’s right brow ridge. In terms of definitive diagnosis and treatment, this patient underwent surgical resection and histopathological examination. 3D-printed polyether-ether-ketone (PEEK) material was selected to repair the cranio-orbital defect. The material can achieve better biocompatibility, while 3D-printing technique allows higher matching degree, both help to improve the prognosis and quality of life of the patient.

Blindness prevention has been an important national policy in China. Previous strategies, such as deploying experienced cataract surgeons to rural areas and assisting in building local ophthalmology centers, had successfully decreased the prevalence of visual impairment and blindness. However, new challenges arise with the aging population and the shift of the disease spectrum towards age-related eye diseases and myopia. With the constant technological boom, digital healthcare innovations in ophthalmology could immensely enhance screening and diagnosing capabilities. Artifcial intelligence (AI) and telemedicine have been proven valuable in clinical ophthalmology settings. Moreover, the integration of cutting-edge communication technology and AI in mobile clinics and remote surgeries is on the horizon, potentially revolutionizing blindness prevention and ophthalmic healthcare. The future of blindness prevention in China is poised to undergo signifcant transformation, driven by emerging challenges and new opportunities.

Blindness prevention has been an important national policy in China. Previous strategies, such as deploying experienced cataract surgeons to rural areas and assisting in building local ophthalmology centers, had successfully decreased the prevalence of visual impairment and blindness. However, new challenges arise with the aging population and the shift of the disease spectrum towards age-related eye diseases and myopia. With the constant technological boom, digital healthcare innovations in ophthalmology could immensely enhance screening and diagnosing capabilities. Artifcial intelligence (AI) and telemedicine have been proven valuable in clinical ophthalmology settings. Moreover, the integration of cutting-edge communication technology and AI in mobile clinics and remote surgeries is on the horizon, potentially revolutionizing blindness prevention and ophthalmic healthcare. The future of blindness prevention in China is poised to undergo signifcant transformation, driven by emerging challenges and new opportunities.