论著

囊袋张力环植入对新一代 IOL 计算公式在高度近视患者中预测准确性的影响

Predictive accuracy and effect of capsular tension ring implantation with new generation intraocular lens calculation formulas in high myopia patients

:782-789
 
目的:探究囊袋张力环(CTR)植入对五种新一代人工晶状体(IOL)计算公式[Barrett Universal Ⅱ (BUⅡ), Emmetropia Verifying Optical (EVO), Kane, Pearl-DGS和Hill-RBF 2.0]在高度近视患者中预测准确性的影响。方法:前瞻性病例对照研究。观察2020年12月—2021年9月于陕西省眼科医院就诊的眼轴长度(axial length,AL)≥ 27.00 mm行白内障联合IOL(AR40E, 美国强生)植入术的患者。术眼随机分为植入CTR组(A组)和未植入CTR组(B组)。术前根据IOLMaster700测量眼部参数,使用BU Ⅱ公式计算所需IOL度数。记录术后1周、1个月及3个月实际等效球镜度(spherical equivalent,SE),计算并比较五种公式预测误差(prediction error,PE)和绝对屈光预测误差(absolute Error,AE)。将A组和B组分别分为A1组(27.00 mm ≤ AL ≤ 30.00 mm)和A2组(AL>30.00 mm);B1组(27.00 mm ≤ AL ≤ 30.00 mm)和B2组(AL >30.00 mm),分析不同AL范围内CTR植入对公式预测准确性的影响。结果:共纳入患者63例(89眼),年龄(55.93±10.17)岁,术前AL为(30.30±2.18)mm。A组、A1组及A2组术后不同时间SE值比较差异均无统计学意义(P>0.05),B组、B1组及B2组术后1周与1个月,术后1周与3月SE值分别比较差异有统计学意义(P<0.05),术后1个月与3个月比较,差异无统计学意义(P>0.05)。A组、B组、A1组、A2组、B1组和B2组各组中五种公式的AE值比较差异均无统计学意义(均P>0.05)。植入CTR后五种公式的预测误差变化比较差异无统计学意义(P>0.05)。结论:对于AL ≥27.00 mm的白内障患者,植入CTR组术后1周屈光度趋于稳定,未植入组术后1个月屈光度趋于稳定。CTR植入对五种公式预测准确性和选择无影响,五种计算公式均可正常选择。
Objective: To investigate the predictive accuracy and effect of capsular tension ring (CTR) implantation with five new generation intraocular lens (IOL) calculation formulas [Barrett Universal Ⅱ (BU Ⅱ), Emmetropia Verifying Optical(EVO), Kane, Pearl-DGS and Hill-RBF 2.0] in high myopia patients. Methods: This is a prospective case-control study. The patients were enrolled with an axial length (AL)≥27.00 mm, and underwent cataract surgery with AR40E IOL implantation at the Shaanxi Eye Hospital from December 2020 to September 2021. The patients were randomly assigned to the CTR implantation group (group A) and the non-CTR implantation group (group B). With the ocular parameters measured by the IOLMaster700, the IOL power was calculated with the BUⅡformula before surgery. The postoperative actual equivalent spherical diopter (SE) were recorded,and the predicted error (PE) and absolute error (AE) using the five formulas were recorded and compared at 1 week, 1 month, and 3 months, repsectively. Group A was divided to A1 (27.00 mm ≤ AL ≤ 30.00 mm) and A2 (AL>30.00 mm), and group B was divided to B1 (27.00 mm ≤ AL ≤ 30.00 mm) and B2 (AL>30.00 mm). The effects of CTR implantation and the accuracy of the formulas were analyzed with different AL ranges. Results: A total of 63 patients (89 eyes) were included, aged (55.93±10.17) years old, with preoperative AL (30.30± 2.18)mm. There was no statistically significant difference in SE between groups A, A1, and A2 (P>0.05) at different postoperative times. While there was a statistically significant difference in SE between groups B, B1, and B2 (P < 0.05) at 1 week and 1 month after surgery, and between 1 week and 3 months after surgery. There was no statistically significant difference between 1 month and 3 months after suergery (P>0.05). There was no significant difference in the AE using the five formulas among groups A, B, A1, A2, B1, and B2 (P>0.05). There was no statistically significant difference in prediction error changes among the five formulas after CTR implantation (P>0.05). Conclusion: For cataract patients with AL ≥ 27.00 mm, the refractionvalue in the CTR implantation group tended to stabilizeafter one week of surgery. While in the non-CTR implantation group, the refractionvalue tended to stabilize after one month. CTR implantation had no effect on the accuracy and selection of the five formula, and the five IOL calculation formulas can be normally selected.
论著

人工智能在人工晶状体屈光力计算的应用

Application of artificial intelligence in intraocular lens power calculation

:790-799
 
目的:评估新一代基于人工智能(artificial intelligence,AI)的人工晶状体(intraocular lens,IOL)计算公式的准确性。方法:本研究为回顾性研究,纳入因白内障行晶状体超声乳化联合IOL植入术的262例患者262眼。在术前,通过IOLMaster700获取角膜曲率、角膜白到白、中央角膜厚度、前房深度、晶状体厚度以及眼轴长度。使用第三代公式(SRK/T、Holladay 1和Hoffer Q)、Barrett UniversalⅡ(BUⅡ)、新一代AI公式(Kane、Pearl-DGS、Hill-RBF 3.0、Hoffer QST和Jin-AI)对术后屈光状态进行计算,并与术后实际的屈光状态进行比较。在将预测误差(prediction error,PE)归零后,分析了各公式的标准差(standard deviation,SD)、绝对误差均值(mean absolute error,MAE)、绝对误差中位数(median absolute error,MedAE)以及PE在±0.25、±0.50、±1.00、±2.00 D范围内的百分比。结果:基于AI的IOL屈光力计算公式的SD、MAE和MedAE的范围分别为0.37 D(Kane和Jin-AI)至0.39 D(Hoffer QST)、0.28 D(Hill-RBF 3.0和Jin-AI)至0.31 D(Hoffer QST)以及0.21 D(Hill-RBF3.0和Jin-AI)至0.24 D(HofferQST);均低于第三代公式(SD:0.43 D~0.45 D;MAE:0.34 D;MedAE:0.25 D~0.28 D)。在所有公式中,Jin-AI公式预测误差在±0.50 D的比例最高,为84.73%,Kane(84.35%)和BUⅡ(83.97%)公式次之。结论:在IOL屈光力预测上,与传统第三代公式相比,新一代基于AI的公式表现出更高的准确性,可以使更多的患者在术后获得预期的屈光状态。
Objective: To evaluate the accuracy of new generation artificial intelligence (AI)-based intraocular lens (IOL)power calculation formulas. Methods: This retrospective study included a total of 262 eyes from 262 patients with cataract who underwent uneventful phacoemulsification combined with IOL implantation. Keratometry, corneal white-to-white, central corneal thickness, anterior chamber depth, lens thickness, and axial length were measured by the IOL Master 700 before surgery. Predicted refractive errors were calculated by the third-generation formulas (SRK/T, Holladay 1, and Hoffer Q), Barrett UniversalⅡ (BUⅡ), and the newer-generation AI formulas (Kane, Pearl-DGS, Hill-RBF 3.0, Hoffer QST, and Jin-AI), and were compared with the actual postoperative refractive value. After adjusting the prediction error (PE) to zero, the standard deviation (SD), mean absolute error (MAE), median absolute error (MedAE), and the percentage of a PE within the range of ±0.25 diopter (D), ±0.50 D, ±1.00 D, and ±2.00 D were analyzed. Results: The SD, MAE, and MedAE of the AI-based formulas ranged from 0.37 D (Kane and Jin-AI) to 0.39 D (Hoffer QST), 0.28 D (Hill-RBF 3.0 and Jin-AI) to 0.31 D (Hoffer QST), and 0.21 D (Hill-RBF 3.0 and Jin-AI) to 0.24 D (Hoffer QST), respectively. These values were all lower than those of the third-generation formula (SD: 0.43 D to 0.45 D; MAE: 0.34 D; MedAE: 0.25 D to 0.28 D). Among all the formulas, the Jin-AI formula had the highest proportion of a PE within ±0.50 D (84.73%), followed by Kane (84.35%) and BUⅡ (83.97%) formulas. Conclusion: The new AI-based IOL formulas show higher accuracy compared with the traditional third-generation ones in predicting IOL power. thereby enabling more patients to achieve the expected refractive outcomes after surgery
论著

六种新一代人工晶状体屈光力计算公式的预测准确性比较

Comparison of the prediction accuracy of six new generation intraocular lens power calculation formulas

:800-813
 
目的:比较六种新一代人工晶状体(intraocular lens,IOL)屈光力计算公式[Barrett Universal Ⅱ(BUⅡ)、Emmetropia Verifying Optical(EVO)、Hill-Radial Basis Function (Hill-RBF)、Kane、Ladas Super Formula(LSF)、T2]和传统公式(Haigis、Hoffer Q、Holladay 1、SRK/T)的准确性。方法:纳入2022年1—6月于温州医科大学附属眼视光医院接受白内障手术患者。收集患者的年龄、性别、眼轴(axial length,AL)、平均角膜曲率(mean keratometry,Kmean)、前房深度、IOL常数和屈光力,术后医学验光结果。对上述10种公式进行准确性分析,包括平均预测误差(mean prediction error,ME)及其标准差、平均绝对预测误差(mean absolute prediction error,MAE)、绝对预测误差中位数(median absolute prediction error,MedAE)、绝对预测误差最大值(maximum absolute prediction error,MaxAE)、预测误差落在±0.25、±0.5、±0.75、±1.00 D范围内的百分比(%±0.25 D、%±0.50 D、%±0.75 D、%±1.00 D)。结果:共纳入506例(506眼)。Kane的MAE最低(0.411)。Hill-RBF的%±0.25 D最高(40.91%),EVO的%±0.50 D或%±0.75 D最高(分别为69.37%、86.17%),BUⅡ和Hill-RBF的%±1.00 D最高(均为94.07%)。总体上各种公式间,MAE、%±0.50 D、%±0.75 D、%±1.00 D比较差异存在统计学意义(P<0.05),但两两比较仅发现%±0.75 D中,EVO(86.17%)、Hill-RBF(85.97%)、Kane(85.57%)与HofferQ(81.42%)比较差异存在统计学意义(均P<0.05)。AL亚组中,长AL组的EVO(0.390)、Hill-RBF(0.388)、T2(0.423)、Kane(0.393)四种公式的MAE与Hoffer Q(0.681)、Holladay 1(0.654)比较差异存在统计学意义(均P<0.05),EVO(74.47%)的%±0.50 D与Hoffer Q(46.81%)比较差异存在统计学意义(P=0.017)。结论:新一代IOL屈光力计算公式在IOL屈光力计算上均具有较好的准确性,但对于不同的眼轴长度与角膜曲率值的眼球,需要选择适合的计算公式,以进一步提高预测准确性。
Objective: This study aimed to compare the accuracy of six new generation intraocular lenses (IOL) refractive power calculation formulas (Barrett Universal Ⅱ [BU Ⅱ ], Emmetropia Verifying Optical [EVO], Hill-Radial Basis Function [Hill-RBF], Kane, Ladas Super Formula [LSF], T2) and traditional formulas (Haigis, Hoffer Q, Holladay 1, SRK/ T). Methods: The patients who received cataract surgery in the Eye Hospital of Wenzhou Medical University from January 2022 to June 2022 were included in this study. Age, gender, axial length (AL), mean keratometry, anterior chamber depth, IOL constant and power, and postoperative refraction results were collected. The prediction accuracy of these ten IOL power calculation formulas was analyzed, including mean prediction error (ME) and its standard deviation, mean absolute prediction error (MAE), median absolute prediction error (MedAE), maximum absolute prediction error (MaxAE), the percentage of eyes of PE within the range of ±0.25 D, ±0.5 D, ±0.75 D, ±1.0 D (%±0.25 D,%±0.50 D, %±0.75 D, %±1.00 D). Results: 506 eyes of 506 patients were included. Kane has the lowest MAE (0.411).%±0.25 D of Hill-RBF was the highest (40.91%), %±0.50 D or %±0.75 D of EVO was the highest (69.37%, 86.17%), and %±1.00 D of BU Ⅱ and Hill-RBF was the highest (94.07%). There are significant differences in MAE, %±0.50 D, %±0.75 D, and %±1.00 D among all formulas (P<0.05). Still, pairwise comparison only found differences between EVO (86.17%), Hill-RBF (85.97%), Kane (85.57%), and Hoffer Q (81.42%) in %±0.75 D (all P<0.05). In AL subgroup, the MAE of EVO (0.390), Hill-RBF (0.388), T2 (0.423) and Kane (0.393) in long AL group was different from that of Hoffer Q (0.681) and Holladay 1 (0.654) (all P<0.05), the difference of %±0.50D of EVO (74.47%) compared with Hoffer Q (46.81%) (P=0.017). Conclusion: The new generation of IOL power calculation formulas have good accuracy in IOL power prediction, but for eyes with different axial lengths and keratometry, it is necessary to optimize the selection of formulas to improve the prediction accuracy further.
新技术交流

人工晶状体预先巩膜悬吊在严重晶状体半脱位中的应用(视频)

The effect of intraocular lens (IOL) pre-suspension in the treatment of severe lens subluxation

:108-115
 
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. ConclusionsIn 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.
论著

角膜横径和晶状体厚度在 Barrett Universal Ⅱ人工晶状体计算公式中的应用价值

Application value of corneal horizontal diameter and lens thickness in Barrett Universal Ⅱ intraocular lens prediction formula

:822-836
 
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.
新技术交流

YAMANE式后房型人工晶状体巩膜层间固定术的改良与应用(视频)

A modified YAMANE’s technique for posterior chamber intraocular lens intrascleral-fixation

:116-121
 
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.

病例报告

LASIK 术后行白内障超声乳化摘除联合多焦点散光矫正型人工晶状体植入术一例

Toric multifocal intraocular lens implantation in a post-LASIK cataract patient: a case report

:867-873
 
该文报道一例激光原位角膜磨镶(laser-assisted in situ keratectomy,LASIK)术后行白内障超声乳化摘除联合多焦点散光矫正型人工晶状体植入术的病例。该患者为42岁女性患者,20年前外院行双眼LASIK手术,现因右眼视物模糊1年就诊。术前IOLMaster检查患者右眼眼轴长度29.66 mm,前房深度3.18 mm,晶状体厚度4.75 mm,白到白距离11.6 mm,前表面及全角膜散光分别为1.01 D@67 °及0.91 D@56 °。Pentacam角膜地形图15 °范围模拟角膜屈光力得到的角膜散光为1.2 D@58.1 °,为规则领结型。患者眼底检查未见明显异常,因其脱镜意愿强烈,植入双焦点散光矫正型IOL(德国Zeiss公司AT LISA toric 909M)。根据Barrett True-K Toric公式测量的后表面散光计算结果进行手术规划,选择+17 D球镜1.5 D柱镜Zeiss 909M IOL,植入轴位55 °。术后1个月患者裸眼远视力0.8,35 cm裸眼近视力1.0,最佳矫正远视力–0.25 DS/–0.5 DC×120 °至1.0,患者满意。提示经过详细的术前评估及规划,并与患者充分沟通,多焦点散光矫正型人工晶状体可以在部分适合的LASIK术后患者中取得良好效果。
It is reported a case of cataract phacoemulsification combined with toric multifocal intraocular lens (IOL) implantation after LASIK surgery in this article. A 42 year-old female patient who underwent bilateral LASIK surgery in other hospital 20 years ago. She visited our hospital due to blurred vision in her right eye for one year. The preoperative IOL Master examination results showed an axial length of 29.66 mm, anterior chamber depth of 3.18 mm, lens thickness of 4.75 mm, white to white distance of 11.6 mm, and anterior surface and total corneal astigmatism of 1.01 D @ 67 ° and 0.91 D @ 56 °, respectively in right eye. The corneal astigmatism measured by Pentacam using 15°range simulated keratometry is 1.2 D@ 58.1 °, which is a regular bow tie shape.No obvious abnormalities was found in the patient's fundus examination. Due to her strong desire to get rid of the glassesa toric bifocal IOL (AT LISA Toric 909M, Zeiss, Germany) was implanted.Based onthe IOL power calculation results of Barrett True-K Toric formula with measured posterior corneal astigmatism, an IOL with Sph 17.0 D/Cyl1.5 D/A 55°was chosen. One month after surgery, the patient's uncorrected distance visual acuity was 20/25, 35 cm uncorrected near visual acuity was 20/20, and the best corrected distance visual acuity was 20/20 with a prescription of –0.25 DS/–0.5 DC × 120 °. The patient was satisfied with the outcome. After detailed preoperative evaluation and design, and sufficient communication with patients, toric multifocal IOL implantation can achieve good results in some apropriated for the patients after LASIK surgery.
新技术交流

人工晶状体夹持技术在白内障联合玻璃体视网膜手术后囊膜破裂中的应用(视频)

Capture of intraocular lens optic for posterior capsular rupture during combined anterior and posterior segment surgery

:122-126
 
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.
综述

眼科成像设备在接触镜适配中的应用

Application of ophthalmic imaging modalities in contact lens fitting

:74-84
 
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.
综述

儿童Ⅱ期人工晶状体植入术后青光眼相关不良事件影响因素与预测的研究进展

Research progress on associated factors and prediction of glaucoma-related adverse events following secondary intraocular lens implantation in pediatric eyes

:416-423
 
儿童白内障是全球范围内可治疗儿童盲症的主要原因之一。对于这些患儿而言,手术是恢复或保护视力的主要方法。然而,手术后的并发症,特别是青光眼相关不良事件(glaucoma-related adverse events, GRAEs),常常成为导致儿童二次致盲的主要原因,这引起了眼科医疗领域的广泛关注。文章综述了儿童Ⅱ期人工晶状体植入术后GRAEs的影响因素,包括手术设计、眼部解剖特征、其他眼部发育异常和全身疾病等。手术设计中是否植入人工晶状体(intraocular lens,IOL)以及植入的时机和位置都对GRAEs的发生有显著影响。此外,眼部解剖特征如角膜直径、眼轴长度、前房深度、中央角膜厚度和术前晶状体厚度等,也是影响GRAEs发生的重要因素。同时,其他眼部发育异常和全身疾病,如先天性无虹膜、先天性风疹综合征等,也会增加儿童白内障术后青光眼的发生率。文章还总结了预测GRAEs的方法,并推荐使用Cox回归模型建立预测模型。这种模型可以有效地预测儿童Ⅱ期IOL植入术后在特定时间段内发展为GRAEs的概率,从而为早期识别GRAEs高危儿童提供了重要的借鉴。通过对GRAEs影响因素的深入分析和预测模型的建立,文章旨在帮助眼科医生更好地理解GRAEs的发生机制,并在手术前对患儿进行风险评估,从而选择最佳的手术方案和预防措施。这对于改善患儿的术后恢复、减少并发症、保护视功能具有重要的临床意义。
Pediatric cataract is one of the leading causes of treatable childhood blindness worldwide. For these children, surgery is the primary method to restore or preserve vision. However, postoperative complications, particularly glaucoma-related adverse events (GRAEs), often become the main reason for secondary blindness in children, attracting widespread concern in the field of ophthalmology. This study reviews the impact factors of glaucoma-related adverse events after secondary intraocular lens (IOL) implantation in children, including surgical design, ocular anatomical characteristics, other ocular developmental abnormalities, and systemic diseases. Whether to implant an IOL in the surgical design and the timing and positioning of the implantation have a significant impact on the occurrence of GRAEs. In addition, ocular anatomical characteristics, such as corneal diameter, axial length, anterior chamber depth, central corneal thickness, and preoperative lens thickness, are also important factors affecting the occurrence of GRAEs. At the same time, other ocular developmental abnormalities and systemic diseases, such as congenital aniridia and congenital rubella syndrome, also increase the incidence of glaucoma after pediatric cataract surgery. The article also summarizes methods for predicting GRAEs and recommends using the Cox regression model to establish a predictive model. This model can effectively predict the probability of children developing GRAEs after secondary IOL implantation within a specific time period, providing an important reference for the early identification of high-risk children for GRAEs. Through in-depth analysis of the impact factors of GRAEs and the establishment of predictive models, the article aims to help ophthalmologists better understand the mechanisms of GRAEs and assess the risks of children before surgery, thereby selecting the best surgical plan and preventive measures. This is of great clinical significance for improving postoperative recovery in children, reducing complications, and protecting visual function.

其他期刊
  • 眼科学报

    主管:中华人民共和国教育部
    主办:中山大学
    承办:中山大学中山眼科中心
    主编:林浩添
    主管:中华人民共和国教育部
    主办:中山大学
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  • Eye Science

    主管:中华人民共和国教育部
    主办:中山大学
    承办:中山大学中山眼科中心
    主编:林浩添
    主管:中华人民共和国教育部
    主办:中山大学
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