目的:探讨高度近视合并白内障患者白内障术后有效晶状体位置的变化。方法:收集白内障超声乳化摘除联合人工晶状体植入术的高度近视合并白内障患者21例共27眼,记录术后1 d、1周、1个月视力、屈光度、有效晶状体位置。结果:高度近视合并白内障患者术后1 d,1周,1个月有效晶状体位置分别为(4.17±0.39),(4.09±0.38),(4.31±0.44) mm,且组间比较差异有统计学意义(P<0.05)。有效晶状体位置的实际轴向运动为(0.19±0.13) mm,与晶状体厚度呈正相关(r=0.648,P<0.001),与术前眼轴无相关关系(r=0.227,P=0.255)。结论:高度近视合并白内障患者术后1 d至1周人工晶状体轻度前移而造成近视偏移,而术后1个月时则呈远视偏移,且术后有效晶状体位置位移与术前晶状体厚度相关。
Objective: To investigate the change and influencing factors of the effective lens position after cataract surgery in high myopia eyes. Methods: We collected 27 eyes of 21 patients with high myopia who underwent phacoemulsification and intraocular lens implantation. The visual acuity, diopter and effective lens position were recorded 1 day, 1 week, and 1 month after operation. Results: The effective lens position of high myopia combined with cataract patients at 1 day, 1 week, and 1 month was (4.17±0.39), (4.09±0.38), and (4.31±0.44)mm, respectively. The effective lens positions significantly differed between the groups after surgery (P<0.05). The ELPRMS was (0.19±0.13) mm. The ELPRMS was positively correlated with the lens thickness (r=0.648,P<0.001), whereas was not correlated with the preoperative axial length (r=0.227, P=0.255). Conclusion: High myopic patients with cataract have a slight forward movement of the effective lens position from 1 day to 1 week after surgery, and a hyperopic shift from 1 week to 1 month. The displacement of effective lens position after surgery is correlated with the preoperative lens thickness.
目的:获取眼表图像的综合信息,建立眼表疾病综合诊断和评估。方法:将超高分辨率光学相干断层成像仪(ultra-high resolution optical coherence tomography,UHR-OCT)与基于裂隙灯生物显微镜的微血管成像系统相结合,开发了一种多模态、非接触式的眼科光学成像平台。结果:UHR-OCT模块在组织中实现轴向分辨率约为2 μm 。眼表微血管成像模块在最大放大倍率下横向分辨率约为3.5 μm。通过集成在裂隙灯显微镜成像光学路径的不同模块,多模态成像平台能够执行实时前段OCT结构成像、结膜微血管成像和传统裂隙灯成像功能。利用自主开发的软件,进一步分析结膜血管网络图像和血流图像,获取血管分形维数、血流速度、血管直径等定量形态学和血流动力学参数。结论:通过在健康受试者和角膜炎患者的在体成像测试,表明多模态眼前段成像设备可为眼科临床应用及人工智能提供结构和功能信息数据。
Objective: To obtain the comprehensive information of the anterior eye image, establish complementary information for the diagnosis and evaluation of ocular diseases. Methods: We developed a multi-modal, non-invasive optical imaging platform by combining ultra-high resolution optical coherence tomography (UHR-OCT) with a microvascular imaging system based on slit-lamp biomicroscopy. Results: The uHR-OCT module achieved an axial resolution of approximately 2 μm in tissues. The lateral resolution of the ocular surface microvascular imaging module under maximum magnification was approximately 3.5 μm. By combining the imaging optical paths of different modules, the customized multi-modal eye imaging platform was capable of performing real-time cross-sectional UHR-OCT imaging of the anterior eye, conjunctival vessel network imaging, high-resolution conjunctival blood flow videography, and traditional slit-lamp imaging on a single device. With self-developed software, a conjunctival vessel network image and blood flow videography were further analyzed to acquire quantitative morphological and hemodynamics parameters, including vessel fractal dimensions, blood flow velocity and vessel diameters. Conclusion: The ability of the multi-modal anterior eye imager to provide both structural and functional information for ophthalmic clinical applications can be demonstrated in a healthy human subject and a keratitis patient.
目的:分析人眼的睑板腺形态学特征,探索睑板腺分析系统在眼表疾病的应用研究。方法:中山眼科中心入组正常受试者24例(42眼),进行睑板腺红外摄影。选取受试者中的10例(20眼)在同型号的设备上由二名操作员分别进行睑板腺红外摄影。图像通过自行设计的分析软件对上睑结膜中央5条腺体形态学参数进行定量分析,对数据进行重复性测试。结果:测量的生物参数腺体直径为(0.48±0.09) mm,腺体长度为(5.25±0.68) mm,腺体面积为(2.12±0.53) mm,腺体形变系数为10.01±3.85,显影值为6.32±1.23,中央五条腺体占中央区域面积百分比为(10.94±2.20)%,腺体占上睑结膜面积百分比为(58.07±8.13)%。各指标两次测量值差异无统计学意义(P>0.05)。重复性分析结果显示:腺体各项生物参数的变异系数(coefficients of variation,CV)均小于5%,组内变异系数(intraclass correlation coefficient,ICC)均大于0.95。结论:睑板腺综合分析系统对腺体的形态学分析有良好的可靠性和一致性,有望为临床上对睑板腺腺体功能评估提供新的非侵入性参考指标。
Objective: To analyze the morphological characteristics of meibomian glands in human eyes and to explore the application research of meibomian glands analysis system in ocular surface diseases. Methods: A total of 24 healthy subjects were recruited by Zhongshan Ophthalmic Center to infrared photography of meibomian glands. Ten of healthy subjects were selected by the two operators for infrared photography of meibomian glands on the same model of equipment. The images were repeatedly measured and analyzed by the self-designed analysis software on the morphological measurements of the five glands in the center of the upper eyelid. Results: The measured biological parameters are shown below: the average gland diameter was (0.48±0.09) mm, the average gland length was (5.25±0.68) mm, the average gland area was (2.12±0.53) mm, the gland deformation coefficient was 10.01±3.85, the development value was 6.32±1.23, the percentage of the five central glands in the central area was (10.94±2.20)%, and the glands accounted for (58.07±8.13)% of the upper conjunctiva area. There was no statistical difference between the two measurements of each index (P>0.05). Repeatability analysis results showed that coefficients of variation (CV) of all biological parameters of glands were less than 5% and the intraclass correlation coefficient (ICC) in both groups were greater than 0.95. Conclusion: The Meibomian Gland Bioimage Analyzer provides good reliability and consistency for morphological measurements of the meibomian gland, and it is expected to provide new non-invasive indicators for clinical assessment of the meibomian glands function.
眼科住院医师规范化培训(以下简称“规培”)是培养眼科医师的必要环节。我国规培模式日臻成熟,但眼科规培过程管理中仍存在诸多问题,包括专科医院和综合医院的规培协调问题、师资激励、规培学员类型多样、研究生和规培“双轨制”、如何开展显微手术技能培训等,很多具体方案和措施仍在摸索中。眼科专科医院学科体系建设相对完善,配备更充足的教学资源,有一定的规培经验,是眼科规培的主力军。汕头国际眼科中心结合国家要求创建了一套规培模式,注重规范化、标准化和个性化相结合,并通过借鉴香港及海外住院医师培训经验,丰富理论培训形式,优化操作培训环境,突出外语和科研能力训练,强调系统性临床思维。本文基于汕头国际眼科中心五年来开展眼科规培的实践经验与思考,总结当前眼科专科医院规培现状,并提出对策和建议。
Standardized training for ophthalmology residents is an essential stage during the development of ophthalmologists. The standardized training system has become more and more mature, while problems still exist in the aspects of coordination between specialized hospitals and general hospitals, teacher resources, unevenness of trainees, combination of postgraduate education and residency standardized training, microsurgical skills training, and so on. Therefore, programs and strategies of standardized training are still under exploration. Eye hospitals, with the excellent disciplinary system, adequate resources, and advanced experience, play a key role in standardized training for ophthalmology residents. Joint Shantou International Eye Center has set up a training model in accordance with national requirements, focusing on the combination of standardization, normalization, and individuation. Besides, by learning from the oversea experience of residents training, Joint Shantou International Eye Center has enriched the training forms, optimized the skill training environment, and highlighted the training of foreign language, scientific research, and systematic clinical thinking. This paper, based on the 5-year experience and reflection on standardized training for ophthalmology residents in Joint Shantou International Eye Center, summarizes the current status of standardized training and put forward some measures and suggestions.