球形晶状体是一种罕见的先天性晶状体悬韧带疾病，表现为晶状体前后径增加，赤道半径减小，类似球形。临床特点包括浅前房、晶状体源性高度近视、晶状体脱位及继发青光眼等。治疗上早期可以通过验光配镜提高视力，当继发晶状体脱位及青光眼时需尽早进行手术治疗。本例报道一例72岁男性患者，因右眼视力下降2年入院。既往近视，近视逐渐加深，近2年患者双眼配镜-10D，视力无明显改善。就诊后考虑球形晶状体所致晶状体不全脱位合并白内障，入院后行囊袋拉钩固定下白内障超声乳化+人工晶状体悬吊+前段玻璃体切除术。患者术后1个月后复诊，发现黄斑水肿，予以复方平地木颗粒口服，溴芬酸钠滴眼液滴眼。2周后复诊视力及黄斑水肿明显好转。

Microspherophakia (MSP) is a rare congenital zonular dysplasia characterized by increased anteroposterior lens thickness and reduced equatorial diameter, resembling a spherical shape. The related ocular manifestations of MSP include shallow anterior chamber, lens derived high myopia, ectopia lentis and secondary glaucoma. In the early stage of MSP, vision acuity may be improved by glasses. Cataract surgery is necessary once secondary lens dislocation and glaucoma occur. A 72-year-old male hospitalized patient was reported who complained increased blurred vision of his right eye for 2 years. In the past 2 years, the power of his binocular glasses was increased to -10 diopters without significant improvement in visual acuity. Lens dislocation and phakic insufficiency caused by MSP was diagnosed after he attending clinics at the Eye and ENT Hospital of Fudan University, Shanghai, China. Phacoemulsification with scleral sutured intraocular lens (IOL) implantation surgery and anterior vitrectomy were performed. One month after operation, macular edema was found at first follow-up. Compound pingdingmu granule was taken orally and Bromfenac sodium eye drops were applied three times a day. Two weeks later, visual acuity of his right eye was improved significantly and macular edema was eliminated dramatically.

玻璃体视网膜疾病并发白内障患者行玻璃体切割术联合超声乳化白内障摘除术，即前后节联合手术，是高效的手术方式，而后囊膜破裂(posterior capsular rupture,PCR)是超声乳化白内障摘除术的术中并发症之一，能够及时、有效地处理PCR，稳定、安全地植入人工晶状体(intraocular lens,IOL)，对于顺利完成后段手术，减少术后并发症十分重要。本文将对前后段联合手术中后囊膜破裂的术中处理、以及IOL光学部夹持固定法植入IOL的手术技术要点进行总结。

Combined surgery of pars plana vitrectomy (PPV) and phacoemulsification is an effective and safe way for management of retinal diseases complicated with cataract. Posterior capsular rupture (PCR) is one of the common intraoperative complications of phacoemulsification, and it is thus very important to deal with it promptly and efficiently, and ensure the subsequent procedures of intraocular lens (IOL) implantation as well as PPV. We will summarize the key points of the surgical technique for management of PCR and capture of IOL optic during combined surgery.

眼部移植物抗宿主病发生在超过一半的慢性移植物抗宿主病患者中，涉及眼表持续的炎症以及纤维化改变，最常见的表现为干燥性角膜结膜炎。严重的眼部移植物抗宿主病不但影响患者的工作和生活质量，同时也增加了其他眼部并发症的风险。慢性眼部移植物抗宿主病的治疗主要包括局部应用人工泪液、血清类制剂、抗炎药物等药物治疗，佩戴隐形眼镜、睑板腺按摩等物理治疗、封闭泪点、重建眼表等手术治疗。随着对眼部移植物抗宿主病发病机制的深入研究，许多新的治疗药物和治疗手段涌现临床。总结目前慢性眼部移植物抗宿主病在药物治疗、物理治疗、手术治疗方面的最新研究进展，将有助于为慢性眼部移植物抗宿主病的治疗带来更多选择和更新的研究思路。

More than half of the patients developed chronic graft-versus-host disease after accepting allogeneic hematopoietic stem cell transplantation suffer from ocular graft-versus-host disease. Ocular graft-versus-host disease involves persistent inflammation and fibrosis of the ocular surface and keratoconjunctivitis sicca is the most common symptom. Severe ocular graft-versus-host disease not only affects patients’ life quality, but also increases the risk of other ocular complications. The treatment of chronic ocular graft-versus-host disease mainly includes drug treatment, such as local application of artificial tears, serum eye drops and anti-inflammatory drugs; physical treatment, such as wearing contact lenses and meibomian gland massage; surgical treatment, such as punctal occlusion and reconstructing ocular surface. With the in-depth study of the pathogenesis of ocular graft-versus-host disease, many new therapeutic drugs and methods have emerged. Summarizing the latest research progress in drug, physical and surgical therapy of chronic ocular graft-versus-host disease will give us insights into treatment options and hot spot of research.

目的：依托最新的第5代移动通信技术(5th generation wireless systems，5G)，构建基于眼底图片的5G医疗眼科远程诊断平台，促进医疗资源上下贯通，提升基层服务能力及医疗服务体系整体效能。方法：基于5G时代医院的信息化发展战略，在海南省卫生健康委员会的资助与指导下，中山大学中山眼科中心海南眼科医院与中国联通通信集团海南有限公司等进行跨行业、多学科的技术力量研究开发，构建5G条件下的平台建设模块和技术路线，确定远程眼科诊断流程，并在海南省内多地区应用。结果：远程诊断平台运行良好。2020年12月至2021年11月，本研究共在海南省17个地区的186个卫生院中开展，共收集1561例患者眼底病图片数据，筛查阳性例数为185例，检出眼底病总阳性率为11.9%。其中有42例需要转诊治疗，转诊率为23%；143例不需要转诊治疗，非转诊率为77%。在1561例眼底图像中，采集异常的眼底图像有490例。排除490例异常眼底图像后，辅助诊断系统与人工诊断结果有1 002张眼底图像诊断相同，69张眼底图像诊断不同，其辅助诊断系统准确率为93.3%。结论：5G移动通信与远程医学影像结合，运用互联网科技催生新型医疗生产力，提高卫生经济的质量和效率，是医疗领域探索5G应用场景的一项应用典范。

Objective: Relying on the latest 5th generation wireless systems (5G), a remote primary ophthalmology care diagnosis platform based on fundus images was constructed in order to promote the connectivity of medical resources and improve the primary health service capabilities and the overall effectiveness of the medical service system. Methods: Based on the 5G informatization development strategy of hospitals, and under the funding and guidance of the Hainan Provincial Health Commission, the Hainan Eye Hospital of Zhongshan Ophthalmic Center and China Unicom Communications Group Hainan Co., Ltd. conducted a cross-industry, multi-disciplinary technical research. To build platform construction modules and technical routes under 5G networks, present the remote ophthalmological diagnosis process, and apply it in many regions in Hainan Province. Results: The performance of the remote diagnosis platform is well. From December 2020 to November 2021, this study was carried out in 186 health centers in 17 regions of Hainan Province. A total of 1 561 patients with fundus disease image data were collected. The number of positive screening fundus disease cases was 185. The total positive rate was 11.9%. Among them, 42 cases required referral for treatment, with a referral rate of 23%, and 143 cases did not require referral for treatment, with a non-referral rate of 77%. Among 1 561 cases of fundus images, 490 fundus images were excluded due to abnormal quality. Compared the results of the diagnosis platform system with manual diagnosis, 1 002 fundus images were identical, and 69 fundus images were different in diagnosis. The accuracy of the auxiliary diagnosis system was 93.3%. Conclusions: The collaboration of 5G mobile communication and telemedicine imaging, combined with internet technology to promote new medical productivity, improve quality and efficiency of the health economy. This study is an application model for exploring 5G application scenarios in the medical field.

慢性移植物抗宿主病(chronic graft-versus-host disease，cGVHD)是骨髓移植后最具有破坏性并发症之一。移植物抗宿主病(graft-versus-host disease，GVHD)发生在10%~80%的造血干细胞移植(hematopoietic stem cell transplantation)受者中，而眼睛是人身体最脆弱的器官之一，有40%~60%接受HSCT的患者发生眼部GVHD，它主要影响泪腺、睑板腺、角膜和结膜等。cGVHD相关性干眼(dry eye associated with chronic graft-versus-host disease，cGVHD-DE)是眼部GVHD最多见的表现形式。cGVHD-DE的长期治疗因涉及多学科、多重结合治疗，至今仍然具有挑战性，其除了全身免疫抑制和眼部润滑剂外，通常还使用局部类固醇、环孢霉素和他克莫司滴眼液。针对中度和重度cGVHD-DE的治疗干预包括使用自体血清滴眼液和佩戴巩膜镜等，新兴起的治疗方案包括重链透明质酸 (heavy chain-hvaluronan/穿透素(pentraxin 3)结膜下注射、间充质基质细胞静脉注射、抑制纤维化药物等。

Chronic graft-versus-host disease (cGVHD) is one of the most devastating complications following bone marrow transplantation. GVHD develops in 10–80% of patients after hematopoietic stem cell transplantation (HSCT). The eye is one of the most vulnerable organs of the human body. Ocular GVHD occurs in 40–60% of patients with GVHD undergoing HSCT, and it mostly affects the lacrimal glands, meibomian glands, cornea, and conjunctiva. The most common form of ocular GVHD is dry eye disease (DED). The long-term treatment of cGVHD-related dry eye syndrome remains challenging and involves a multidisciplinary approach. Besides systemic immunosuppression and ocular lubricants, topical steroids, topical cyclosporine, and topical tacrolimus are commonly prescribed. Newer therapeutic interventions for moderate and severe cGVHD-related DED include using serum eye drops and scleral contact lenses. Emerging treatment options include subconjunctival injection of heavy chain-hyaluronan (HC-HA)/ pentraxin 3 (PTX3), intravenous injection of mesenchymal stromal cells, antifibrotic drugs, etc. This article reviews the mechanisms, clinical findings, and treatment of cGVHD-related dry eye syndrome.

目的：调查八年制临床医学生对眼科学直播课堂的满意度及教学效果。方法：基于八年制临床医 学生的直播课堂教学体验视角，进行问卷调查、课堂测验及课程考试，问卷内容包括调查对象基 本情况、直播课堂教学评价及满意度3个部分。采用SPSS 20.0统计学软件进行数据分析。结果：共 92名学生完成了问卷调查，男37名，女55名，年龄为(22.9±0.71)岁。课堂内容、课堂资源、平台设 计、平台技术及学习交流5个纬度的得分为40.60±4.582、17.43±2.814、13.07±1.759、13.14±2.052、 20.82±2.685；其中，与线下课堂交流相似性、学习交流积极性2个子条目的得分最低，分别为 3.42±1.131、3.85±0.864，这二者具有相关性(r=0.276，P=0.008)。直播课堂满意度的总得分为 13.52±1.872，课堂内容对其有显著影响(P<0.001)，标准化回归系数为0.687。相较于课前测验，课 测验成绩(65.9±11.4分)的提升差异具有统计学意义(P=0.033)；但是与2013级相比，2015级学生的 课程考试成绩(72.6±7.0分)降低，差异有统计学意义(P=0.009)。结论：课堂内容对直播课堂教学满 意度具有重要影响，需要注意直播课堂与线下课堂交流方式的差异，改进学习交流的参与积极性， 以提升教学效果。

Objective: To investigate the satisfaction and teaching effect of 8-year program medical students in live-streamed classroom on ophthalmology. Methods Based on teaching experience of live-streamed classroofrom the perspective of the 8-year program medical students, a questionnaire survey, classroom tests and course examination were conducted. The content of the questionnaire includes 3 parts: the basic information of the respondents, evaluation of live-streamed classroom teaching and its satisfaction. The SPSS 20.0 statistical software was used for data analysis. Results: A total of 92 students completed the questionnaire survey, including 37 males and 55 females, aged (22.9±0.71) years. The sores of content, resource, platform design, platform technology and learning communication of live-streamed classroom were 40.60±4.582, 17.43±2.814, 13.07±1.759, 13.14±2.052 and 20.82±2.685, respectively. Among all items, the scores of the similarity of offline classroom communication styles and enthusiasm for communication were lowest, with the points of 3.42±1.131 and 3.85±0.864, respectively, and the correlation of the two items were statistically significant (correlation coefficient =0.276, P=0.008). The total score of the live-streamed classroom satisfaction was 13.52±1.872. The classroom content has a significant effect on the satisfaction of the live-streamed classroom (P<0.001), and the standardized regression coefficient is 0.687. Compared with the pre-class test, the post-class test score was 65.9±11.4, with a statistically significant improvement (P=0.033); however, compared with grade 2013, the course test score of the students of grade 2015 was 72.6±7.0, with a statistically significant reduction (P=0.009). Conclusion: The classroom content has an important impact on the satisfaction of live-streamed classroom teaching. It is necessary to pay attention to the communication difference between live -streamed classroom and offline classroom settings, and improve the enthusiasm for participation in the study communication, in order to improve the effectiveness of teaching. 

接触镜在全球的应用日益广泛，配适方法的不断进步是目前接触镜安全性、舒适性不断提高的原因之一。在接触镜适配过程中，越来越多的先进影像技术被运用于指导接触镜的配适，这些技术的出现简化了接触镜适配的过程，为临床医生进行简便、准确、个性化的接触镜适配提供了帮助，也为接触镜的个性化设计提供了参考数据。

Contact lens has been widely applied worldwide, and the advancement of fitting strategy is one of the reasons which improve the safety and comfort of contact lens fitting. During the contact lens fitting procedure, more and more ophthalmic imaging modalities have been applied to guide the contact lens fitting. These techniques simplify the contact lens fitting procedure, help optometrists accurately perform the customize contact lens fitting, and assist the personalized contact lens design technique.

全身疾病通过一定途径累及眼球，产生眼部病变，这些眼部病变的严重程度与全身疾病的进展密切相关。人工智能(artificial intelligence，AI)通过识别眼部病变，可以实现对全身疾病的评估，从而实现全身疾病早期诊断。检测巩膜黄染程度可评估黄疸；检测眼球后动脉血流动力学可评估肝硬化；检测视盘水肿，黄斑变性可评估慢性肾病(chronic kidney disease，CKD)进展；检测眼底血管损伤可评估糖尿病、高血压、动脉粥样硬化。临床医生可以通过眼部影像评估全身疾病的风险，其准确度依赖于临床医生的经验水平，而AI识别眼部病变评估全身疾病的准确度可与临床医生相媲美，在联合多种检测指标后，AI模型的特异性与敏感度均可得到显著提升，因此，充分利用AI可实现全身疾病的早诊早治。

Systemic diseases affect eyeballs through certain ways, resulting in eye diseases; The severity of eye diseases is closely related to the progress of systemic diseases. By identifying eye diseases, artificial intelligence (AI) can assess systemic diseases, so as to make early diagnosis of systemic diseases. For example, detection of the degree of icteric sclera can be used to assess jaundice. Detection of the hemodynamics of posterior eyeball can be used to evaluate cirrhosis. Detection of optic disc edema and macular degeneration can be used to evaluate the progress of chronic kidney disease (CKD). Detection of ocular fundus vascular injury can be used to assess diabetes, hypertension and atherosclerosis. Clinicians can estimate the risk of systemic diseases through eye images, and its accuracy depends on the experience level of clinicians, while the accuracy of AI in identifying eye diseases and evaluating systemic diseases can be comparable to clinicians. After combining various detection indexes, the specificity and sensitivity of AI model can be significantly improved, so early diagnosis and early treatment of systemic diseases can be realized by making full use of AI.

该文报道了一例40岁女性患者，因“双眼渐进性视物模糊3个月”就诊。患者既往于2005年因高度近视行双眼准分子激光原位角膜磨镶术 (LASIK)。最佳矫正视力OD：0.2 (–11.00 DS/ –1.25 DC×170 °)，OS：0.7 (–4.00 DS/ –0.75 DC×25 °)。双眼角膜透明，前房中深，晶状体混浊，豹纹状眼底伴后巩膜葡萄肿。诊断为双眼并发性白内障，并行右眼白内障超声乳化联合人工晶状体 (IOL) 植入术，术中植入+14.0 D IOL一枚，目标屈光度为–0.5 D。术后1周裸眼视力0.3，验光结果示右眼屈光度+2.75 DS，最佳矫正视力0.7。术后2周行右眼IOL置换术，由+14.0 D置换为+17.0 D。右眼术后1周裸眼视力0.8，验光结果示右眼屈光度–0.75 DC×15 °。

It is reported in this article that a 40-year-old female patient presented with "progressive blurred vision of both eyes for 3 months". The patient underwent bilateral laser in situ keratomileusis (LASIK) because of high myopia in 2005. It was recorded that her best corrected visual acuity was 0.2 (–11.00 DS/ –1.25 DC×170 °) in the right eye and 0.7 (–4.00 DS/ –0.75 DC×25 °) in the left, and clear cornea, normal anterior chamber, cloudy lens, tessellated fundus with posterior staphyloma in both eyes. The patient was diagnosed with bilateral complicated cataract. Phacoemulsification combined with intraocular lens (IOL, +14.0 diopter (D)) implantation was performed on the right eye, with the target –0.5D refractive diopter . One week after surgery, it was recorded that the uncorrected visual acuity of the right eye was 0.3, and the best corrected visual acuity was 0.7 (+2.75 DS). IOL replacement of the right eye was performed two weeks after surgery, the +14.0 D IOL was replaced by +17.0 D IOL. One week after surgery, the uncorrected visual acuity of the right eye was 0.8 (–0.75 DC×15 °).

目的：比较Alcon Acrysof IQ PanOptix TFNT00 (PanOptix)晶状体常数优化前后对人工晶状体(intraocular lens,IOL)度数计算准确性的影响，以及不同眼轴长度晶状体常数优化的效果。方法：回顾性收集2021年6月—2022年3月在上海爱尔眼科医院行白内障超声乳化手术联合植入PanOptix IOL患者的术前眼球生物学测量参数、植入IOL度数和术后1~3个月的显然验光结果。联合SRK/T、Hoffer Q、Holladay 1、Haigis公式，通过回归法计算优化的晶状体常数A、pACD、SF，通过多元线性回归计算优化的晶状体常数a0、a1和a2。观察晶状体常数优化前后平均绝对预测误差值(mean absolute error,MAE)及中位绝对预测误差值(median absolute error,MedAE)，预测误差在±0.25、±0.50、±0.75、±1.00 D以内的百分比的差异，评价晶状体常数优化对IOL计算准确性的影响。随后，按照眼轴长度进行分组(非高度近视组：<26.00 mm; 高度近视组：≥26.00 mm)，比较非高度近视组和高度近视组优化晶状体常数的差异。结果：共92眼(54位患者)纳入研究。优化前的晶状体常数A、pACD、SF、a0、a1和a2分别为119.1、5.63、1.83、1.39、0.40和0.10；优化后分别为119.35、6.14、2.36、?3.42，0.12和0.34。在全部眼轴组，晶状体常数优化前，SRK/T、Hoffer Q、Holladay 1、Haigis公式的MAE值分别为0.44、0.50、0.54、0.46 D；优化后，MAE值分别为0.43、0.54、0.51、0.35 D，其中Haigis公式优化前后比较差异有统计学意义(P=0.001)。在非高度近视组，晶状体常数优化前，4条公式的MAE值分别为0.46、0.40、0.40、0.42 D；优化后，MAE值分别为0.46 D、0.38 D、0.39 D、0.38 D，比较差异均无统计学意义(均P>0.05)。在高度近视组，晶状体常数优化前，4条公式的MAE值分别为0.42、0.59、0.66、0.50 D；优化后，MAE值分别为0.36、0.48、0.47、0.31 D，其中Holladay 1和Haigis公式优化前后比较差异有统计学意义(P 分别为 0.020、0.002)。结论：PanOptix IOL的晶状体常数优化可以提高IOL度数计算的准确性，在高度近视组中比非高度近视组中优化意义更大。

Objective: To assess the benefits of intraocular lens (IOL) constant optimization of Alcon Acrysof IQ PanOptix TFNT00 (PanOptix) on the accuracy of IOL power calculation, and the effects of constant optimization between different axial length (AL) groups were further compared. Methods: Patients who underwent phacoemulsification and implantation with PanOptix IOL between June, 2021 and March, 2022 were included in this retrospective study. The preoperative biological ocular parameters, implanted IOL power, and subjective 1-3 months postoperative refraction were collected. Combined with SRK/T, Hoffer Q, Holladay 1 and Haigis formulas, the optimized IOL constant A, surgeon factor (SF), post-surgery anterior chamber depth (pACD), and a0, a1, a2 were back-calculated. Refractive outcomes using optimized IOL constants were re-calculated combined with the corresponding formulas. Compare the mean absolute error (MAE), medium absolute error (MedAE) and percentage of eyes with IOL prediction errors (PE) within ±0.25, ±0.50, ±0.75 and ±1.00 (diopter)D when using the optimized constants and the manufacture constants. Patients were divided into two groups according to AL (non-high myopia: <26.0 mm; high myopia: ≥26 mm), compare the difference of IOL constant optimization between AL subgroups. Results: A total of 92 eyes of 54 patients were enrolled. The manufacture lens constant of A, pACD, SF, a0, a1 and a2 are respectively 119.1, 5.63, 1.83, 1.39, 0.4 and 0.1; and the optimized values are respectively 119.35, 6.14, 2.36, ?3.42, 0.12 and 0.34. In all patients group, with manufacture lens constant, the MAE values of SRKT, Hoffer Q, Holladay 1 and Haigis formula are 0.44, 0.50, 0.54, 0.46 D; with optimized lens constants, the MAE values are 0.43, 0.54, 0.51, 0.35 D, and there is a statistical difference of Haigis formula after optimization (P=0.001). In non-high myopia group, with manufacture lens constant, the MAE values are 0.46, 0.40, 0.40, 0.42 D; with optimized lens constants, the MAE values are0.46, 0.38, 0.39, 0.38 D, and no statistical difference has been found(P>0.05). In high myopia group, with manufacture lens constant, the MAE values are 0.42, 0.59, 0.66, 0.50 D; with optimized lens constants, the MAE values are 0.36, 0.48, 0.47, 0.31 D, and there are statistical differences of Holladay 1 and Haigis formula after optimization (P = 0.020, 0.002). Conclusion: IOL constant optimization of PanOptix IOL can improve the accuracy of IOL calculation, which is more significant in the high myopia group.