目的：探讨人工晶状体(IOL)预先巩膜悬吊在严重晶状体半脱位中的应用效果。方法：选取 2018年12月至2022年7月四川省人民医院收治的>180°的严重晶状体半脱位患者8例(8 眼)。术中避开脱位的晶状体，预先将IOL悬吊于玻璃体腔，再将晶状体托起置于IOL上方，必要时辅助以虹膜拉钩，稳定晶状体，确保超声乳化手术安全完成。结果：严重的晶状体半脱位患者8例，其中晶状体核N1-N3硬度的患者各1例，单独使用IOL预先巩膜悬吊于术中稳定脱位的晶状体，3例超声乳化手术均顺利完成；达N4患者3例、N5患者2例，其中4例在虹膜拉钩的辅助下安全完成超声乳化；有1例N5的患者，由于悬韧带损伤超过270°，在将晶状体托起放置于IOL之上时，坠入玻璃体腔，给予玻璃体腔超声粉碎处理。8例患者术后IOL均居中，视力有不同程度的提高，眼压正常，未见严重并发症。结论：在严重晶状体半脱位的超声乳化手术中，对于N2~N3的软核，IOL预先巩膜悬吊可以良好地稳定晶状体，确保超声乳化手术的顺利进行；对于N4~N5的硬核，IOL预先巩膜悬吊可以作为一种辅助方法，联合虹膜拉钩共同稳定晶状体，确保超声乳化手术的安全进行。

Objective: To investigate the effect of intraocular lens (IOL) pre-suspension in thetreatment of severe lens subluxation. Methods: Retrospective case study. From December 2018 to July 2022, 8 eyes of 8 patients with severe lens subluxation greater than 180 degrees admitted to our hospital were selected. During surgery, the IOL should avoid the subluxated lens and be pre-suspended in the vitreous cavity, and then the lens is lifted and placed above the IOL. If necessary, the iris hook can be used to stabilize the lens to ensure the safe completion of phacoemulsification. Results: There were 8 patients with severe subluxation of lens. Among them, the hardness of 3 patients' lens nucleus ranged from N1 to N3. In these 3 patients, we used the IOL pre-suspension alone to stabilize the subluxated lens, and phacoemulsification in these 3 patients was successfully completed. Three patients had N4 and 2 patients had N5, of which 4 patients underwent phacoemulsification safely with the assistance of iris hook. In another patient with N5, the lens fell into the vitreous cavity during surgery (the suspension ligament rapture greater than 270 degrees) when it was lifted and placed on the IOL which was crushed by the vitreous cavity ultrasound. After surgery, the IOL was centered in all 8 patients, visual acuity was improved to varying degrees, intraocular pressure was normal, and no serious complications were observed. Conclusions: In severe lens subluxation surgery, IOL presuspension in soft nuclei of N2 to N3 can stabilize the lens well and ensure the safety of phacoemulsification. For hard nuclei N4 to N5, IOL presuspension can be used as an auxiliary method in combination with iris hook to stabilize the lens and ensure the safety of phacoemulsification.

目的：探讨运用Barrett Universal Ⅱ公式(BUⅡ公式)计算人工晶状体(intraocular lens,IOL)屈光力时，可选参数角膜横径，又称白到白(white-to-white,W T W)与晶状体厚度(lens thickness,LT)的实际应用价值。方法：采用单中心、前瞻性临床研究，连续纳入同一术者顺利进行白内障超声乳化吸除术联合MX60(IOL植入术患眼279眼，术前使用OA-2000非接触式光学生物测量仪测量眼部数据并计算IOL植入度数，代入B UⅡ公式保留或去掉可选参数WTW、LT计算预测结果，进一步根据患者眼轴长度(axial length,AL)分亚组分析。主要结局指标：随访患者至术后1个月以上，比较使用和未使用WTW和LT两个参数、BUⅡ公式预测误差(prediction error,PE)、绝对预测误差(absolute error,AE)、AE小于0.5 D所占比例。结果：总体1上，忽略W T W + LT，PE为-0.05 D(-0.26, 0.18)(P=0.011)，其他参数组合的PE与0比较差异无统计学意义(P>0.05)。各参数组合的AE比较差异无统计学意义(0.22~0.23 D，P= 0.404)。同时忽略WTW + LT时AE出现最大值(+1.5 D)。应用WTW + LT、忽略WTW + LT、忽略WTW和忽略LT时纳入患者AE ≤ 0.50 D的比例分别为80.65%、79.57%、80.65%和81.36%。在各眼轴亚组中，忽略LT时，AE ≤ 0.50 D的百分比在短眼轴亚组(80.00% vs.66.67%~73.33%)与长眼轴亚组(77.78% vs. 73.33%~75.56%)中较高。在中等眼轴亚组中，AE ≤ 0.50 D百分比代入全部参数时略高(83.11% vs. 80.82%~82.19%)，忽略WTW + LT计算时稍低(80.82%)。结论：使用BU Ⅱ计算IOL屈光力时，可选参数WTW和LT无论是否代入公式中，皆可得到相近的平均预测水平；但是，同时忽略WTW和LT可能出现较大预测误差。对于22 mm ≤ AL<26 mm眼，推荐代入全部参数计算；当AL≤ 22 mm或AL ≥ 26 mm，仅输入WTW的计算方法累积精确度更高，可优先采用。

Objective: To investigate the practical application value of the optional parameters of corneal horizontal diameter or white to white (WTW) and lens thickness (LT) a using Barrett Universal II formula. Methods: Single-center, prospective clinical study. Eligible 279 eyes who underwent uneventful phacoemulsification and enVista MX60 implantation by the same surgeon were consecutively enrolled. OA-2000 (Tomey, Japan) non-contact optical biometry was used to measure the ocular data and calculate the IOL implantation power preoperatively. The BU II network formula was used to retain or remove optional parameters WTW and LT, and the predicted results were calculated. Further subgroup analysis was conducted based on the patient's axial length. Main outcome measures: Follow up patients for more than 1 month after surgery, compare the proportion of using and not using WTW and LT parameters, BU II formula prediction error (PE), absolute prediction error (AE), and AE less than 0.5 D. Results: Overall, ignoring WTW + LT, the median PE was -0.05 D (-0.26, 0.18) (P = 0.011) , and there is no statistically significant difference in PE compared 0 for the other parameter combinations (P > 0.05). There was no significant difference in the median AE of each parameter combination (0.22~0.23 D, P = 0.404). While ignoring both WTW and LT, the maximum AE value (+1.5 D) was found. The proportion of patients with AE ≤ 0.50 D included in the application of WTW+LT, neglect of WTW+LT, neglect of WTW, and neglect of LT were 80.65%, 79.57%, 80.65%, and 81.36%, respectively in each axial subgroup, when LT was ignored, the percentage of AE ≤ 0.50 D was higher in the short axial subgroup (80% vs. 66.67%~73.33%) and the long axial subgroup (77.78% vs. 73.33%~75.56%). In the subgroup of moderate eye axis, the percentage of AE ≤ 0.50 D was slightly higher when all parameters were substituted (83.11% vs. 80.82%~82.19%), and slightly lower when WTW+LT calculation was ignored (80.82%). Conclusions: When applying Barrett Universal II to calculate the refractive power of artificial lenses, the optional parameters WTW and LT can obtain similar average prediction levels regardless of whether they are substituted into the formula; However, ignoring both WTW and LT may result in significant prediction errors. For eyes with a diameter of 22 mm ≤ AL<26 mm, it is recommended to use all parameters for calculation; When AL ≤ 22 mm or AL ≥ 26 mm, the calculation method that only inputs WTW has higher cumulative accuracy, and it is suggested to be prioritized.

角膜移植手术是治疗角膜病变重要且有效的手段。但对眼表功能完全失代偿、多次角膜移植排斥等类型的患者，常规同种异体角膜移植手术成功率却非常低。对于这类患者，人工角膜植入术成为复明的新希望。随着人工角膜的设计和植入方式的不断改进，人工角膜的功效及优点已渐渐突显。目前，波士顿I型(领扣型)人工角膜在全球范围内应用最为广泛。现就波士顿I型人工角膜的基本特征、临床应用及未来发展等方面进行阐述。

The corneal transplantation is an effective option for visually impaired patients with keratopathy to restore vision function. However, the success rate of allograft keratoplasty is still very low for those patients with end-stage ocular surface or repeated corneal graft rejection. For those patients, artificial keratoplasty might be a promising alternative option. The efficacy and advantages of artificial keratoplasty have been gradually highlighted, after consistent improvement of the product design and implantation procedure. Nowadays, the Boston type I (collar button) corneal prosthesis is the most widely used product around the world. In this review, the history, indications, postoperative complications and future prospect of Boston type I corneal prosthesis will be summarized.

视网膜神经纤维层是视网膜的最内层，主要由来自视网膜神经节细胞的无髓鞘轴突组成，此外还有神经胶质细胞与视网膜血管，其厚度与年龄、眼球增长、眼底结构改变等因素相关。光学相干断层扫描可以清晰展示角膜、视网膜、脉络膜、视神经等高分辨率断层图像，可以在活体上显示生物学组织的细微结构，在临床与科研中已获得广泛应用。在青光眼视神经病变中，光学相干断层扫描可以发现视野异常前的视网膜神经纤维层损害，已成为青光眼早期诊断与视神经损伤程度检测的重要手段。除视神经病外，越来越多的研究表明许多视网膜血管疾病、神经元变性疾病等视网膜疾病也有视网膜神经纤维层的损伤。探讨视网膜疾病与神经纤维层的关系，将有利于进一步推进对视网膜疾病发病机制及病理改变的认识。本文就视网膜神经纤维层的定量评估与多种视网膜疾病的关系展开综述，为其在视网膜疾病中的应用提供参考。

The retinal nerve fiber layer, the innermost layer of the retina, consists mainly of unmyelinated axons from retinal ganglion cells, as well as glial cells and retinal blood vessels , the thickness of which is related to factors such as age, ocular growth and fundus structure changes. Optical coherence tomography (OCT) can clearly display the cornea, retina, choroid, optic nerve and other high-resolution tomography images. It can show the fine structure of biological tissues in vivo, which has been widely used in clinical and scientific research. In glaucomatous optic neuropathy, OCT can detect the damage of retinal nerve fiber layer before abnormal visual field, which has become an important means of early diagnosis of glaucoma and detection of the degree of optic ner ve damage. In addition to optic neuropathy, more studies have shown that many retinal diseases such as retinal vascular diseases and neurodegenerative diseases also have retinal nerve fiber layer injury. Exploring the relationship between retinal diseases and nerve fiber layer will be beneficial to further promote the understanding of the pathogenesis and pathological changes of retinal diseases. This paper reviews the relationship between the quantitative evaluation of retinal nerve fiber layer and various retinal diseases, and provides reference for its application in retinal diseases.

YAMANE式后房型人工晶状体巩膜层间固定术是近年出现的一种人工晶状体悬吊术式。该文介绍了笔者结合实际条件对其改良后的手术步骤，手术关键点及使用经验。在缺乏足够囊膜支撑的条件下，此手术方式微创、安全、有效，术后恢复快。在随访期间(最长5年)，视力稳定，未出现人工晶状体脱位、移位、倾斜，人工晶状体夹持及人工晶状体襻暴露等并发症，值得临床推广应用。

The YAMANE intrascleral fixation of posterior chamber intraocular lens (IOL) is a new technique in recent five years for IOL suspension. This article introduces a modified YAMANE technique including surgical procedure, key points and using experience. In the absence of adequate capsular support, this procedure is minimally invasive, safe, effective and has a fast postoperative recovery. During the follow-up period (up to 5 years), the visual acuity was stable, and there were no complications such as luxation of lens, displacement, tilt of intraocular lens, intraocular lens clamping and IOL haptic exposure.

近年来随着医疗领域数字化、信息化建设的加速推进，人工智能的应用越来越广泛，在眼科医学方面尤为突出。婴幼儿处于视觉系统发育的关键时期，此时发生的眼病往往会造成不可逆的视功能损伤，带来沉重的家庭和社会负担。然而，由于婴幼儿群体的特殊性以及小儿眼科医生的短缺，开展大规模小儿眼病筛查工作十分困难。最新研究表明：人工智能在先天性白内障、先天性青光眼、斜视、早产儿视网膜病变以及视功能评估等领域已经得到相关应用，在多种婴幼儿眼病的早期筛查、诊断分期、治疗建议等方面都有令人瞩目的表现，有效解决了许多临床难点与痛点。但目前婴幼儿眼科人工智能仍然不如成年人眼科发展充分，亟须进一步的探索和研发。

In recent years, with the acceleration of digitalization and informatization in medical field, artificial intelligence (AI) is more and more widely applied, especially in ophthalmology. Infants are in the critical period of visual development, during which eye diseases can lead to irreversible visual impairment and bring heavy burden to family and society. Due to the particularity of infants and the shortage of pediatric ophthalmologists, it is challenging to carry out large-scale screening for eye diseases of infants. According to the latest studies, AI has been studied and applied in the fields of congenital cataract, congenital glaucoma, strabismus, amblyopia, retinopathy of prematurity, and evaluation of visual function, and it has achieved remarkable performance in the early screening, diagnosis stage and treatment suggestions, solving many clinical difficulties and pain points effectively. However, AI for infantile ophthalmology is not as developed as for adult ophthalmology, so it needs further exploration and development.

玻璃体替代物是玻璃体切割术后的必需品，用于填充玻璃体腔，恢复玻璃体的支撑视网膜、屈光和细胞屏障等功能。严重眼外伤及复杂视网膜脱离引起的视网膜/脉络膜脱离，如选用传统的玻璃体替代物(如硅油)填充，部分患者会出现硅油依赖眼或眼球萎缩，眼球难以保全。折叠式人工玻璃体球囊(foldable capsular vitreous body,FCVB)是我国独立研发的挽救眼球的人工玻璃体，属于国际首创，可以精细模拟自然玻璃体的结构，恢复玻璃体的部分功能。目前临床研究证实FCVB不仅可以有效避免硅油的并发症，还可以维持后房空间，缓慢恢复睫状体的功能，从而治疗硅油依赖眼，阻止眼球进一步萎缩。该文综述了FCVB的研究背景、结构特点、临床应用和拓展研究进展。

Vitreous substitutes are necessary after vitrectomy to fill the vitreous cavity and restore the vitreous to support retinal, refractive, and cellular barrier functions. Severe ocular trauma-induced retinal/choroidal detachment filled with traditional vitreous substitutes (e.g., silicone oil) can lead to silicone oil-dependent eyes and ocular atrophy in some patients, making it difficult to preserve the eye. Foldable capsular vitreous body (FCVB) is an artificial vitreous body independently developed in China to save the eye, which is the first of its kind in the world and can finely simulate the structure of natural vitreous body and restore some of the functions of vitreous body. It has been clinically proven that it can not only effectively avoid the complications of silicone oil, but also maintain the posterior chamber space and slowly restore the function of the ciliary body, thus treating silicone oil-dependent eyes and preventing further atrophy of the eye. This article reviews the research background, structural features, clinical applications and extended studies of FCVB.

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.

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.

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.