目的:探讨县级基层医院白内障患者术前焦虑情况,以便改善护理流程。方法:本研究为回顾性研究,收集河源光明眼科医院2017年1至9月2 182例行白内障复明手术患者的术前焦虑视觉模拟量表(The Anxiety Visual Analogue Scale,VAS-A)评分及阿姆斯特丹术前焦虑与信息需求表(Amsterdam Preoperative Anxiety and Information Scale,APAIS)评分,采用t检验和Spearman相关性检验进行术前焦虑情况分析。结果:2 182例白内障手术患者VAS-A焦虑评分为4.74±1.93,APAIS焦虑评分为6.46±1.66,男性患者术前焦虑程度低于女性患者,患者术前焦虑程度与年龄呈低度负相关。结论:两种术前焦虑评分均能反映患者术前焦虑程度,可根据其对麻醉或手术信息需求度的不同选择相应的护理对策,以缓解患者术前焦虑,改善护理质量。
Objective: To investigate the preoperative anxiety in patients with cataract in a township hospital. Methods: A retrospective study was conducted on preoperative anxiety of 2 182 patients with cataract according to the Anxiety Visual Analogue Scale (VAS-A) and Amsterdam Preoperative Anxiety and Information Scale (APAIS) from Jan 1, 2017 to Sep 30, 2017 in Heyuan Guangming Eye Hospital. Student’s t-test and Spearman correlation were used to evaluate the preoperative anxiety. Results: The score of preoperative anxiety was 4.74±1.93 with the VAS-A and was 6.46±1.66 with the APAIS. The preoperative anxiety in male was lower than that in female, and the degree of the preoperative anxiety was negatively correlated with age. Conclusion:The preoperative anxiety of patients with cataract can be properly evaluated using either the VAS-A or the APAIS.The nursing care should be adjusted corresponding to patients’ different needs of the information about anesthesia and surgery in order to alleviate the preoperative anxiety and improve the nursing care.
目的:探讨大泡性角膜病变(bullous keratopathy,BK)患者行飞秒激光辅助的角膜内皮移植术(endothelium keratoplasty,EK)的围手术期护理。方法:回顾性分析在南京总医院眼科行飞秒激光辅助角膜内皮移植的BK20例患者,分析并总结患者术前的心理疏导、术前准备、眼科检查、术中如何配合医生、术后特殊体位、高眼压的护理及如何正确用药和出院健康教育等。结果:患者得到及时、有效的护理,术后视力均有所提高,内皮贴伏好,无排斥反应及其他并发症的发生。结论:通过对患者围手术期的护理,可提高护理质量,缩短患者住院时间。
Objective: To observe the perioperative nursing of femtosecond laser-assisted corneal endothelial transplantation in the treatment of patients with bullous keratopathy. Methods: A retrospective analysis of 20 patients with bullous keratopathy with femtosecond laser-assisted corneal endothelial transplantation in our department. The preoperative psychological counseling, preoperative preparation, ocular examination, how to cooperate with the doctors in operation, nursing of special position, high intraocular pressure after surgery, how to use eye drops correctly and health education after discharge were summarized. Results: Nursing were performed to the patients timely and effectively. Postoperative visual acuity of all the patients were improved, the endothelial and corneal stroma bed are well combined and no graft rejection and other complications occurred in the patients postoperatively. Conclusion: We concluded that the quality of nursing was improved and the time of hospitalization was shortened after perioperative nursing.
暴发性脉络膜上腔出血(subchoroidal expulsive hemorrhage,SEH)是内眼手术中罕见且严重的并发症,广东省人民医院眼科收治1名因晶状体完全脱位继发青光眼的女性患者,73岁,其手术过程中发生SEH,现报告如下。通过回顾病例,讨论及分析SEH的原因、危险因素及治疗。
Subchoroidal expulsive hemorrhage (SEH) is one of the rarest and worst complications of intraocular surgery. We treated one patient with secondary glaucoma due to complete dislocation of the lens, who developed SEH during the surgery. In this case report, the causes, risk factors and treatment of subchoroidal expulsive were discussed and analyzed by reviewing the case.
青光眼是一组以视盘萎缩凹陷、视野缺损以及视力下降为共同特征的视神经退行性疾病,也是世界首位不可逆性致盲眼病,导致患者生活质量降低、引起极大卫生经济负担。但其发病机制尚不明确,促进房水排出从而降低眼内压力仍是目前减缓疾病进展的唯一治疗手段。房水排出的主要途径是经由小梁网进入Schlemm’ s管最后汇入巩膜外静脉,因此小梁网在调节房水排出以及平衡眼内压力方面发挥重要作用。近年以来体内以及体外房水排出测量技术和小梁网成像技术不断突破,众多研究表明小梁网存在压力依赖的节律性搏动,在房水的脉冲式排出中起到关键作用,但在青光眼中这种搏动随疾病的进展减弱甚至消失。文章将以小梁网的泵理论为核心,总结青光眼中房水排出的最新研究进展,并从恢复小梁网功能的角度出发探索可能有效的治疗策略,为青光眼的临床诊治提供新的思路。
青光眼是一组以视盘萎缩凹陷、视野缺损以及视力下降为共同特征的视神经退行性疾病,也是世界首位不可逆性致盲眼病,导致患者生活质量降低、引起极大卫生经济负担。但其发病机制尚不明确,促进房水排出从而降低眼内压力仍是目前减缓疾病进展的唯一治疗手段。房水排出的主要途径是经由小梁网进入Schlemm’ s管最后汇入巩膜外静脉,因此小梁网在调节房水排出以及平衡眼内压力方面发挥重要作用。近年以来体内以及体外房水排出测量技术和小梁网成像技术不断突破,众多研究表明小梁网存在压力依赖的节律性搏动,在房水的脉冲式排出中起到关键作用,但在青光眼中这种搏动随疾病的进展减弱甚至消失。文章将以小梁网的泵理论为核心,总结青光眼中房水排出的最新研究进展,并从恢复小梁网功能的角度出发探索可能有效的治疗策略,为青光眼的临床诊治提供新的思路。
“锌”在青光眼研究舞台上正扮演着越来越重要的角色。糖皮质激素,作为人体内重要的激素之一,其对锌的调控已在诸多系统中被证实。研究发现,在糖皮质激素的影响下,小梁网中的锌离子转运受阻,导致细胞外基质降解失衡,从而干扰小梁网正常流出道功能,加重青光眼的病情。而视神经损伤后,锌离子在神经突触间的异常传递、不平衡分布与胞内异常累积影响视网膜神经节细胞存活和轴突的再生能力,进而损害视功能,可能成为青光眼视神经损伤发病及进展的关键因素。这些研究进展为视神经保护策略提供了新的视角,“锌”作为治疗靶点的潜力正在被逐步挖掘,通过调节锌水平来干预青光眼病理进程成为可能治疗手段。
本期封面中将汉字“锌”设计为飞天舞者,其超越时空的永恒美感,呼应了“锌”在青光眼研究中突破传统、开辟新程的角色。轻盈与自由的飞天舞者,象征着“锌”在细胞内外穿梭,精妙调控生理功能,维系细胞的和谐与平衡,为青光眼患者带来新的治疗希望。
“锌”在青光眼研究舞台上正扮演着越来越重要的角色。糖皮质激素,作为人体内重要的激素之一,其对锌的调控已在诸多系统中被证实。研究发现,在糖皮质激素的影响下,小梁网中的锌离子转运受阻,导致细胞外基质降解失衡,从而干扰小梁网正常流出道功能,加重青光眼的病情。而视神经损伤后,锌离子在神经突触间的异常传递、不平衡分布与胞内异常累积影响视网膜神经节细胞存活和轴突的再生能力,进而损害视功能,可能成为青光眼视神经损伤发病及进展的关键因素。这些研究进展为视神经保护策略提供了新的视角,“锌”作为治疗靶点的潜力正在被逐步挖掘,通过调节锌水平来干预青光眼病理进程成为可能治疗手段。本期封面中将汉字“锌”设计为飞天舞者,其超越时空的永恒美感,呼应了“锌”在青光眼研究中突破传统、开辟新程的角色。轻盈与自由的飞天舞者,象征着“锌”在细胞内外穿梭,精妙调控生理功能,维系细胞的和谐与平衡,为青光眼患者带来新的治疗希望。
人工智能(artificial intelligence, AI)在医学领域的广泛应用为探索眼部与全身健康的关系提供了新的机遇。文章回顾了眼科AI在心血管健康、神经系统健康、肾脏健康和衰老过程中的应用。在心血管健康方面,AI能够通过分析眼底图像预测心血管疾病风险因素和未来心血管事件,并提供了简便、有效的风险分层方法。在神经系统健康方面,眼科AI在阿尔茨海默病早期诊断和帕金森病识别方面显示出潜力,尽管对未来事件预测仍具挑战性。针对多发性硬化,眼科AI在诊断和预测残疾进程上展现了良好效果。在肾脏健康中,眼科AI技术通过分析视网膜图像可预测肾功能相关指标、直接检测肾病事件,展示了其在改善肾病筛查方式和减轻医疗负担方面的潜力。在衰老过程中,AI能够利用眼部图像预测生物年龄、视网膜年龄差和晶状体年龄等参数提供了生物衰老指标,为理解衰老与眼部健康的关联提供了新视角。
The widespread application of artificial intelligence (AI) in the medical field has provided new opportunities to explore the relationship between eye and whole body health. This article reviews the application of ophthalmic AI in cardiovascular health, neurological health and aging. In terms of cardiovascular health, AI can predict cardiovascular disease risk factors and future cardiovascular events by analyzing fundus images, and provides a simple and effective risk stratification method. In terms of neurological health, ophthalmic AI shows potential in early diagnosis of Alzheimer's disease and identification of Parkinson's disease, although the prediction of future events remains challenging. For multiple sclerosis, ophthalmic AI has shown good results in diagnosing and predicting the progression of disability. In kidney health, ophthalmic AI technology can predict kidney function-related parameters and detect kidney disease events by analyzing retinal images, demonstrating its potential in improving kidney disease screening methods and reducing medical burdens. In the aging process, AI can use eye images to predict biological age. Parameters such as retinal age gap and LensAge provide biological aging indicators, providing a new perspective for understanding the relationship between aging and eye health.
Ⅱ期人工晶状体(intraocular lens,IOL)植入常用于矫正先天性白内障摘除术后无晶状体眼状态。IOL屈光力计算是影响儿童Ⅱ期IOL植入术后视功能发育和改善的关键因素之一。现有IOL屈光力计算公式是基于成人有晶状体眼的数据研发,能准确预测成人眼IOL植入的屈光力,但是对儿童Ⅱ期IOL植入的屈光力预测准确性欠佳,主要原因包括:1)儿童II期植入术前为无晶状体眼,缺乏部分公式定义中的有晶状体眼的前房深度(是指从角膜前表面中央顶点到晶状体前表面的距离)和晶状体厚度。2)公式根据囊袋内植入IOL预测屈光力,但儿童Ⅱ期IOL睫状沟植入术在临床上应用更为广泛。当IOL植入睫状沟时有效晶状体位置发生前移,可能引起屈光预测误差。3)成人眼的发育已完成,目标屈光度多为正视或近视眼(-3.00 ~ +1.00 D),但是儿童眼仍在发育,需针对其特性测算合适的远视目标屈光度(+0.50 ~ +12.00 D)以适应眼球发育引起的屈光变化。为使Ⅱ期IOL植入患儿达到术前预设的目标屈光度,对现有公式进行选择与优化至关重要。
Secondary intraocular lens (IOL) implantation is a common treatment for pediatric aphakia. The accurate prediction of IOL power calculation plays a pivotal role in the postoperative development and improvement of visual function for pediatric secondary IOL implantation. Current IOL power calculation formulas were developed based on data from adult phakic eyes and displayed good performance in adult population. However, the formulas showed poor performance in pediatric aphakic population due to the following reasons: 1) In these pediatric aphakic patients, the unavailability of phakic anterior chamber depth (the distance from corneal epithelium to the anterior surface of the lens) and lens thickness (LT) greatly limits the application of some IOL power calculation formulas. 2) IOL power calculation formulas predict the effective lens position on the basis of in-the-bag IOL implantation, whereas sulcus implantation is more widely used in pediatric secondary implantation. Effective lens position in capsular placement is more posterior to ciliary sulcus IOL placement. When applying the initial IOL power calculated for capsular implantation to sulcus implantation, it can lead to refractive errors. 3) Adult eyes have completed their development, with target refractions often being emmetropic or myopic (-3.00 ~ +1.00 D), while pediatric eyes are still developing, necessitating the calculation of an appropriate hyperopic (+0.50 ~ +12.00 D) target refraction to accommodate refractive changes due to ocular growth.To achieve the predetermined target refractive outcomes, the selection and optimization of IOL power calculation formulas is critically important for pediatric secondary IOL implantation.
随着移植技术逐年发展,异基因造血干细胞移植患者的生存期延长,长期并发症成为影响患者预后及生活质量的主要原因。眼移植物抗宿主病是异基因造血干细胞移植术后最常见的眼部并发症,发生率可高达50%以上。根据发病时间可分为急性及慢性眼移植物抗宿主病,临床上最常以慢性炎症及眼表组织纤维化为特点,主要表现为干眼和不同程度的角结膜炎,治疗较为棘手,可不同程度影响患者视觉质量及生活质量,严重可致盲。近年来眼移植物抗宿主病越来越受到国内外学者重视,其发病机制、临床特点、诊断及治疗相关研究逐渐深入,文章针对眼移植物抗宿主病的临床诊疗新进展进行综述。总体而言,眼移植物抗宿主病早期识别仍较为困难,早期诊断策略有待进一步探索。目前治疗对眼移植物抗宿主病的效果较为有限,或缺乏充足的循证医学证据,临床上缺乏针对不同严重程度及疾病活动度的分级诊疗策略,未来有待进一步探索新的治疗靶点及疾病活动监测指标,将有助于改善患者长期预后及生活质量。
Despite advancements in allogeneic hematopoietic stem cell transplantation techniques leading to improved overall survival rates, long-term complications have emerged as the primary contributors to poor prognosis and diminished quality of life. Ocular graft-versus-host disease (oGVHD), a prevalent complication affecting over 50% of patients post-transplantation, frequently manifests as refractory dry eye, often accompanied by keratoconjunctivitis. Patients with oGVHD routinely suffer from visual impairment and a decline in their quality of life.Currently, research into the mechanisms, clinical features, diagnosis, and treatment of oGVHD has progressively deepened. This article reviews the latest advancements in the clinical diagnosis and management of oGVHD. Notably, there is a pressing need for strategies focused on early diagnosis and treatment, as early recognition of oGVHD remains challenging. Existing treatments for oGVHD either exhibit limited efficacy or lack robust clinical evidence to support their use as the best available options.Further research is imperative to develop tiered diagnostic and treatment approaches, including the exploration of novel therapeutic targets and biomarkers for disease detection. Such endeavors hold the promise of enhancing patients' long-term prognosis and quality of life.
谷氨酸是哺乳动物中枢神经系统中的主要兴奋性神经递质,谷氨酸酶系统的持续激活会导致神经元的兴奋性毒性,进而引起神经元损伤和细胞死亡。兴奋性氨基酸转运体家族成员是一种多次跨膜蛋白,位于突触前膜、突触囊泡和神经胶质细胞膜上,也是一种高亲和力的钠钾依赖性载体,能够不断清除细胞外残留的谷氨酸,维持正常的突触内外谷氨酸水平和细胞内氧化还原稳态,对于保护细胞免受兴奋性毒性以及氧化应激损伤至关重要,兴奋性氨基酸转运体家族成员表水平达的失调与多种中枢神经系统疾病神经退行性变的发生和发展密切相关。在视网膜组织中,兴奋性氨基酸转运体家族成员广泛表达。目前大量研究表明,兴奋性氨基酸转运体家族成员广泛参与了青光眼、视网膜缺血再灌注损伤、年龄相关性黄斑变性等眼部疾病的发病,但具体机制有待进一步阐明。为此,文章综述了兴奋性氨基酸转运体家族成员的生理功能及其在相关眼科疾病发生和发展中作用的研究进展,为进一步阐明相关眼病发病的分子机制及新的防治靶点的发现提供新的视角。
SGlutamate is the primary excitatory neurotransmitter in the mammalian central nervous system. Persistent activation of the glutamatergic system can lead to excitotoxicity, resulting in neuronal damage and cell death. Members of the excitatory amino acid transporter (EAAT) family are multi-transmembrane proteins located on the presynaptic membrane, synaptic vesicles, and glial cell membranes. They function as high-affinity, sodium-potassium-dependent transporters, continuously clearing extracellular residual glutamate to maintain normal intra- and extracellular glutamate levels and intracellular redox homeostasis. This process is crucial for protecting cells from excitotoxicity and oxidative stress-induced damage. Dysregulation of EAATs is closely associated with the onset and progression of neurodegenerative diseases in the central nervous system. EAAT family members are widely expressed in retina. Numerous studies have demonstrated that these transporters are extensively involved in the pathogenesis of ocular diseases, including glaucoma, retinal ischemia-reperfusion injury, and age-related macular degeneration, although the specific mechanisms remain to be elucidated. Therefore, this article reviews the physiological functions of EAAT family members and their role in the development and progression of related ophthalmic diseases, providing new perspectives for further understanding the molecular mechanisms underlying these conditions and identifying novel therapeutic targets.
