晶状体悬韧带异常（包括松弛和断裂）可引起晶状体虹膜隔前移、前房变浅、房角关闭和眼压升高，即闭角型青光眼（angle closure glaucoma，ACG）的发生。特发性悬韧带异常多发生于原发性闭角型青光眼（primary angle closure glaucoma，PACG），可能是PACG的发病机制之一，但仍需前瞻性队列研究进一步证实。此类患者双眼前房深度不等，虹膜/晶状体震颤等体征及超声生物显微镜（ultrasound biomicroscopy, UBM）检查能够诊断的悬韧带异常比例较低，通常在青光眼白内障联合手术前未能被诊断而在术中被发现，故被称为隐匿性晶状体悬韧带异常。目前根据术中表现如充分散瞳可见晶状体赤道部，连续环形撕囊破囊时可见前囊放射状皱褶，超声乳化时囊袋赤道部移位或卷曲，灌注抽吸时囊袋异常飘动，囊袋口不规则等可明确诊断。根据悬韧带异常的程度、范围，选择超声乳化晶状体吸除联合人工晶体植入，联合或不联合囊袋张力环植入或人工晶体缝合固定术。PACG患者术前和术中应关注是否存在悬韧带异常，制定个体化治疗方案，以保证手术安全和疗效。

Zonulopathy (including zonular laxity and dehiscence) can cause anterior displacement of iris-lens diaphragm, shallow anterior chamber, anterior chamber angle closure and elevated intraocular pressure, resulting in angle closure glaucoma (ACG). Idiopathic zonulopathy is common in primary angle closure glaucoma (PACG), which may be one of the pathogenic mechanisms of PACG. But further prospective cohort studies are needed to verify that. ?e proportion of diagnosis ofzonulopathy in PACG patients before cataract extraction in combination with anti-glaucoma surgery is low by signs of anterior chamber depth differences between both eyes, iridodonesis / phacodonesis and UBM examination. Hence, most cases with zonulopathy in PACG are found during the operation, which is called occult zonulopathy. At present, the diagnosis of zonulopathy in PACG is often made according to the intraoperative manifestations, such as visible capsular equator aěer mydriasis, wrinkling of the anterior capsule during manual capsulorhexis, infolding of peripheral capsule or visualization of the capsular equator during the cortical or nuclear removal; loose or ěoppy capsular bag. According to different ranges and severities ofzonulopathy, phacoemulsi?cation combined with intraocular lens (IOL) implantation, with or without capsule tension ring implantation, or sclera-fixated IOL is selected. PACG patients should be paid more attention to the diagnosis and differentiation ofzonulopathy before and during operation, fully improved the preoperative examination, and formulated individualized treatment plans to ensure the safety and efficacy of operation.

内源性干细胞在组织的损伤修复过程中组织相容性好、致瘤风险低，相较于外源性干细胞具有不需要体外扩增和培养、疾病传播风险低的优点，在细胞治疗领域具有显著优势。现在已经有多种使用内源性干细胞进行疾病治疗的成熟方式，应用领域包括了全身各种器质性和功能性疾病。在眼组织中，晶状体具有终生生长的能力且便于观察，是实现再生修复的突破点。哺乳动物中晶状体再生的实现有赖于晶状体内源性干细胞的定位和改良手术方式，以保留晶状体干细胞，并创造适合晶状体再生的微环境。对再生后的晶状体蛋白质组成分析，发现其类似成熟晶状体，而非胚胎期的晶状体，提示晶状体再生的调控与胚胎期的诱导发生并不相同；而调控晶状体再生的策略不仅着眼于干细胞的激活和正确分化的诱导，对其上皮间质转化过程也需要进行调控。在未来，为将晶状体再生的经验应用于其他眼组织中，动员内源性干细胞并促进其生长，可以添加细胞有效成分，比如外泌体、线粒体、小分子化合物等，模拟细胞应激；此外，还可以通过手术或生物材料辅助，恢复晶状体结构和环境。

Endogenous stem cells have significant advantages in cell therapy for excellent histocompatibility, low tumorigenicity risk, unnecessity for in vitro expansion and culture, and low disease transmission risk. There have been some applications for endogenous stem cells in treating diseases, targeting some organic and functional diseases throughout the body. In ocular tissue, the lens is a breakthrough for regenerative therapy due to its potential to grow throughout life and observation accessibility. Achieving lens regeneration in adult mammals attributes to some prerequisites. Firstly, the location of endogenous stem cells in the lens has been identified. Then, surgical approaches have been advanced to preserve lens stem cells and create a microenvironment suitable for lens regeneration. Protein compositional analysis of the regenerated lens reveals that it is similar to a mature lens rather than an embryonic lens, suggesting that the regulation of lens regeneration is not the same as the induction of embryonic onset. The strategy for regulating lens regeneration needs to focus not only on the activation and proper differentiation of stem cells but also on regulating the process of epithelial mesenchymal transition (EMT). In the future, in order to apply the experiences of lens regeneration to other ocular tissues, to mobilize endogenous cells and promote their growth, some strategies could be used. These strategies include mimicking cellular stress via the addition of cellular active ingredients, such as exosome, mitochondria, and small molecular compounds. Additionally, we can also try to restore lens tissue structure and microenvironment through surgical or biomaterial assistance.

在晶状体纤维细胞分化的终末阶段，细胞核、线粒体、内质网及高尔基体等膜性细胞器会发生程序性的降解，这对晶状体透明性的维持至关重要。然而，晶状体细胞器降解过程的机制尚不明确。研究晶状体细胞器的降解过程可为阐明白内障的发病机制提供理论依据，也有望为晶状体再生提供新的干预靶点。本文就晶状体细胞器降解过程及其机制进行综述。

During terminal differentiation of lens fiber cells, nuclei and other organelles experience programmed elimination.This process is essential for the maintenance of lens transparency. However, the mechanisms underlying lens organelle degradation remain unclear. Identification of the mechanisms can provide a theoretical basis for elucidating the pathogenesis of cataract and is expected to reveal new intervention targets for lens regeneration. In this review, we discuss potential mechanisms and the process of lens organelle degradation.

    白内障作为一种常见的眼科疾病，是全球第一位致盲眼病，目前尚无药物能够治疗，手术是唯一有效的办法。随着现代眼科手术技术的发展以及人工晶状体(intraocular lens，IOL)设计和功能的更新升级，人们对视觉质量的要求越来越高，白内障超声乳化联合IOL植入术已经从单纯的复明手术转变为个性化的屈光手术。为满足不同需求的患者术后获得较好的视觉质量，IOL经历了从单焦点到多焦点、球面到非球面的发展，还有散光型IOL和各类功能性IOL的临床应用，也为患者提供了更多的选择。充分了解不同类型IOL的优势和特点，根据患者自身眼部情况、日常用眼习惯以及需求，个性化地选择IOL植入对视觉质量的恢复和满意度起着至关重要的作用。因此本文将针对不同类型的IOL，从设计与分类、术后临床效果及适应人群进行综述，为IOL的选择提供指导建议。

As a common eye disease, cataract is the first-leading cause of blindness in the world. Currently, there is no drug to treat it, and surgery is the only effective way. With the development of modern ophthalmic surgical technology and the updating and upgrading of the design and function of intraocular lens (IOL), people have higher and higher requirements for visual quality. Cataract phacoemulsification combined with IOL implantation has transformed from a simple vision restoration to personalized refractive surgery. In order to meet the needs of patients with different needs to obtain better visual quality after surgery, IOL has experienced the development from monofocal to multifocal, spherical to aspherical, as well as the clinical application of astigmatic IOL and various functional IOLs, which also provides more choices for patients. Fully understanding the advantages and characteristics of different types of IOLs, according to the patient’s own eye conditions, daily eye habits and needs, individualized selection of IOL implantation plays a crucial role in the recovery and satisfaction of visual quality. Therefore, this article will review different types of IOLs from the aspects of design and classification, postoperative clinical effects and adaptation to the population, and provide guidance for the selection of IOLs.

目的：分析高度近视有晶状体眼后房型人工晶状体植入术后孔源性视网膜脱离的临床特征及预后。方法：回顾分析2012年4月至2021年6月中山眼科中心收治的9例(9只眼)行后房型人工晶状体植入术后孔源性视网膜脱离患者的临床特征、手术方式及疗效，随访(4.96±4.78)个月。结果：患者年龄(30.44±20.11)岁，屈光手术至发病时间(32.10±17.80)个月。4例(44.4%)马蹄形裂孔，1例(11.1%)萎缩性裂孔，4例(44.4%)巨大裂孔；9眼裂孔均位于赤道部前，除2眼(22.2%)为单个巨大裂孔，1眼(11.1%)单个马蹄孔，余6眼(66.7%)均有视网膜周边变性区存在；视网膜脱离范围(3.0±1.12)个象限，8例累及黄斑；增殖性玻璃体视网膜病变C级以上4眼。视网膜初始复位率为77.8%，最终视网膜复位率100%。末次随访最佳矫正视力优于术前(P<0.05)。随访期间，2例硅油填充眼发生并发性白内障，4眼发生术后早期高眼压。结论：有晶状体眼后房型人工晶状体植入术前存在的视网膜变性或术后玻璃体牵引的存在可能是孔源性视网膜脱离发生的危险因素。

Objective: To analyze the clinical presentation, surgical management, and outcomes of rhegmatogenous retinal detachment (RRD) in patients with high-myopia corrected by posterior chamber phakic (PCP) intraocular lens (IOL) implantation. Methods: Nine eyes of 9 patients in whom RRD developed after PCPIOL implantation from April 2012 to June 2021 in Zhongshan Ophthalmic Center were retrospectively studied. Mean follow-up after retinal detachment surgery was (4.96±4.78)months. Results: Mean patient age was (30.44±20.11) years old. RRD occurred (32.10±17.80) months after PCPIOL implantation. Four (44.4%) breaks were horseshoe tear, 1 (11.1%) was atrophic hole and 4 participants (44.4%) had a giant retinal tear. Nine cases had causative breaks located anterior to the equator while peripheral retina lattice degeneration was found in 6 eyes. RRD extended from 1 to 4 quadrants (3.0±1.12 quadrants) and 8 cases were macula-off retinal detachments. Four eyes’ proliferative vitreoretinopathy were more severe than level C. Initial reattachment rate was 77.80%. Final retinal reattachment was 100%. Final follow-up BCVA was significantly better than baseline (P<0.05). Furthermore, concurrent cataract occurred in 2 eyes in which silicone oil was used as tamponade. Ocular hypertension was detected in 4 eyes after surgery. Conclusion: The existed lattice degeneration and postoperative vitreous traction may be risk factors for RRD after PCPIOL implantation.

目的：评估屈光不正患者有晶体眼后房型人工晶体(implantable collamer lens，ICL)植入术后视疲劳症状及调节集合功能、眼表、像差的变化，并探讨其对视疲劳症状的影响。方法：前瞻性病例观察分析。连续收集在沧州市中心医院行ICL手术并完成3个月随访的患者，测定术前、术后1周、1个月、3个月时的视疲劳评分、调节幅度(amplitude of accommodation，AA)、正相对调节和负相对调节(positive/negative relative accommodation，PRA/NRA)、调节灵敏度(accommodative facility，AF)、调节性集合(accommodative convergence，AC)与调节(accommodation，A)比率(AC/A)，Schirmer实验、非侵入性泪膜破裂时间(noninvasive breakup time，NBUT)及高阶像差(higher order aberration，HOA)，进行统计学分析。结果：ICL术后第1周视疲劳症状较术前明显加重，随时间推移逐渐减轻，术后1个月仍高于术前，术后3个月时恢复。AA术后1周时较术前降低，术后1个月、3个月时明显高于术前；AF术后1周时较术前下降，术后1个月比术前水平稍好，3个月时明显高于术前；PRA、NRA无明显变化；AC/A术后1周时较术前下降，术后1个月回复到术前水平，术后3个月较术前提高。术后1周、1个月及3个月的NBUT值均较术前明显下降，术后1周时最低；Schiermer值术后1周时轻度下降，术后1个月、3个月时基本恢复。术后的总HOA均较术前有所增加，但各个时间点之间无明显变化。相关性分析显示ICL术后AF越差、NBUT越低，视疲劳症状越重。结论：ICL术后视疲劳症状一过性加重，AF和NBUT是影响视疲劳变化的重要因素。

Objective: To evaluate the changes of visual fatigue symptoms, accommodative functions, ocular surface conditions, and high-order aberrations (HOA) after implantation of implantable collamer lens (ICL), and to explore their effects on asthenopia. Methods: It was a prospective observational case series. Patients with ametropia who underwent ICL surgeries and completed 3-month follow-up in our hospital were enrolled.Asthenopia scores, amplitude of accommodation (AA), positive/negative relative accommodation (PRA/NRA),accommodative facility (AF), the ratio of accommodative convergence and accommodation (AC/A), Schirmer test, non-invasive breakup time (NBUT), and HOA were examined before surgeries and at 1 week, 1 month and 3 months after surgeries, then statistically analyzed. Results: Symptoms of asthenopia were significantly worse at 1 week after ICL surgeries than those before surgeries, but increased gradually as time went by, eventually recovered at 3 months postoperatively. Among regulatory indicators, AA decreased 1 week postoperatively, but was significantly higher at 1 and 3 months after surgeries; AF was lower 1 week after surgery than baseline, slightly better at 1 month postoperatively, and significantly higher at 3 months postoperatively; PRA and NRA had no significant change; AC/A decreased 1 week after surgeries, returned to the baseline at 1 month postoperatively, and increased 3 months postoperatively. Tears and meibomian gland function index: NBUT values at 1 week, 1 month and 3 months after surgeries were significantly decreased compared with those before surgeries, and NBUT at 1 week postoperatively was the lowest; Schiermer values had a slight decrease at 1 week after surgeries, and basically recovered at 1 and 3 months after surgeries. HOA after surgeries were increased compared with those before surgeries, but there was no significant change between each time point. Correlation analysis showed that the lower AF and NBUT after ICL surgeries, the more severe the asthenopia symptoms. Conclusion: The symptoms of asthenopia aggravated transiently after ICL implantation surgeries, but improved gradually with time. AF and NBUT were important factors affecting the changes of asthenopia.

晶状体诱导性青光眼(lens-induced glaucoma，LIG)是因晶状体蛋白相关或解剖学异常引起的一类继发性青光眼。基于发病机制，分为晶状体溶解性青光眼、晶状体颗粒性青光眼、晶状体过敏性青光眼、晶体膨胀性青光眼、瞳孔阻滞性青光眼等几类，房角可能是开放或关闭的。高分子量晶状体蛋白、晶状体颗粒释放、瞳孔阻滞、晶体体积增大是引起青光眼的机制。其病因包括膨胀期、成熟期或过熟期白内障，眼部手术和外伤，各种晶体脱位等。流行病学在发达国家和发展中国家各不相同。以视力下降、眼红、单侧眼痛等为主要临床表现，可产生青光眼性不可逆视功能损害。眼部超声检查对其诊断有帮助。需要和急性闭角型青光眼、睫状环阻滞性青光眼、脉络膜上腔出血、外伤或术后眼内炎等疾病相鉴别。治疗方法是去除晶体刺激物质，从而控制眼压。

Lens-induced glaucoma (LIG) is a kind of secondary glaucoma caused by lens proteins or anatomic abnormality of the lens. Based on the pathogenesis, LIG is classified as phacolytic glaucoma, lens-particle induced glaucoma, phacoanaphylactic glaucoma, phacomorphic glaucoma, pupillary block glaucoma. The angle may be open or closed. High-molecular-weight lens protein, release of lens particles, and pupillary block, increase in the volume of the cataractous lens are the mechanisms of glaucoma. Its pathogensis includes intumescent cataracts, mature senile cataract, hyper-mature senile cataracts, surgery and trauma in eyes, and dislocation of lens. The epidemiology varies across developed and developing countries. The common symptom includes diminution of vision, redness of the eye, and unilateral eye pain. It can cause glaucomatous irreversible visual impairment. Ocular ultrasonography is helpful for its diagnosis. Differential diagnosis includes acute angle-closure glaucoma, ciliary block glaucoma, supra-choroidal hemorrhage, post-traumatic or postoperative endophthalmitis. The management is the removal of inciting lenticular matter to control intraocular pressure