Moorfields Eye Hospital NHS Foundation Trust, London, UK.
University College London Medical School, London, UK.
Cochrane Database Syst Rev. 2023 Jun 23;6(6):CD010735. doi: 10.1002/14651858.CD010735.pub3.
Cataract is the leading cause of blindness in the world and, as such, cataract surgery is one of the most commonly performed operations globally. Surgical techniques have changed dramatically over the past half century with associated improvements in outcomes and safety. Femtosecond lasers can be used to perform the key steps in cataract surgery, such as corneal incisions, lens capsulotomy and fragmentation. The potential advantage of femtosecond laser-assisted cataract surgery (FLACS) is greater precision and reproducibility of these steps compared to manual techniques. The disadvantages are the costs associated with FLACS technology.
To compare the effectiveness and safety of FLACS with standard ultrasound phacoemulsification cataract surgery (PCS) by gathering evidence from randomised controlled trials (RCTs).
We searched the Cochrane Central Register of Controlled Trials (CENTRAL; which contains the Cochrane Eyes and Vision Trials Register; 2022, Issue 5); Ovid MEDLINE; Ovid Embase; LILACS; the ISRCTN registry; ClinicalTrials.gov; the WHO ICTRP and the US Food and Drug Administration (FDA) website. We did not use any date or language restrictions in the electronic searches for trials. We last searched the electronic databases on 10 May 2022.
We included RCTs where FLACS was compared to PCS.
Three review authors independently screened the search results, assessed risk of bias and extracted data using the standard methodological procedures expected by Cochrane. The primary outcome for this review was intraoperative complications in the operated eye, namely anterior capsule, and posterior capsule tears. The secondary outcomes included corrected distance visual acuity (CDVA), quality of vision (as measured by any validated patient-reported outcome measure (PROM)), postoperative cystoid macular oedema complications, endothelial cell loss and cost-effectiveness. We assessed the certainty of the evidence using GRADE.
We included 42 RCTs conducted in Europe, North America, South America and Asia, which enrolled a total of 7298 eyes of 5831 adult participants. Overall, the studies were at unclear or high risk of bias. In 16 studies the authors reported financial links with the manufacturer of the laser platform evaluated in their studies. Thirteen of the studies were within-person (paired-eye) studies with one eye allocated to one procedure and the other eye allocated to the other procedure. These studies were reported ignoring the paired nature of the data. There was low-certainty evidence of little or no difference in the odds of developing anterior capsular tears when comparing FLACS and PCS (Peto odds ratio (OR) 0.83, 95% confidence interval (CI) 0.40 to 1.72; 5835 eyes, 27 studies) There was one fewer anterior capsule tear per 1000 operations in the FLACS group compared with the PCS group (95% CI 4 fewer to 3 more). There was low-certainty evidence of lower odds of developing posterior capsular tears with FLACS compared to PCS (Peto OR 0.50, 95% CI 0.25 to 1.00; 5767 eyes, 26 studies). There were four fewer posterior capsule tears per 1000 operations in the FLACS group compared with the PCS group (95% CI 6 fewer to same). There was moderate-certainty evidence of a very small advantage for the FLACS arm with regard to CDVA at six months or more follow-up, (mean difference (MD) -0.01 logMAR, 95% CI -0.02 to 0.00; 1323 eyes, 7 studies). This difference is equivalent to 1 logMAR letter between groups and is not thought to be clinically important. From the three studies (1205 participants) reporting a variety of PROMs (Cat-PROMS, EQ-5D, EQ-SD-3L, Catquest9-SF and patient survey) up to three months following surgery, there was moderate-certainty evidence of little or no difference in the various parameters between the two treatment arms. There was low-certainty evidence of little or no difference in the odds of developing cystoid macular oedema when comparing FLACS and PCS (Peto OR 0.84, 95% CI 0.56 to 1.28; 4441 eyes, 18 studies). There were three fewer cystoid macular oedema cases per 1000 operations in the FLACS group compared with the PCS group (95% CI 10 fewer to 6 more). In one study the incremental cost-effectiveness ratio (ICER) (cost difference divided by quality-adjusted life year (QALY) difference) was GBP £167,620 when comparing FLACS to PCS. In another study, the ICER was EUR €10,703 saved per additional patient who had treatment success with PCS compared to FLACS. Duration ranged from three minutes in favour of FLACS to eight minutes in favour of PCS (I = 100%, 11 studies) (low-certainty evidence). There was low-certainty evidence of little or no important difference in endothelial cell loss when comparing FLACS with PCS (MD 12 cells per mm in favour of FLACS, 95% CI -40 to 64; 1512 eyes, 10 studies). AUTHORS' CONCLUSIONS: This review of 42 studies provides evidence that there is probably little or no difference between FLACS and PCS in terms of intraoperative and postoperative complications, postoperative visual acuity and quality of life. Evidence from two studies suggests that FLACS may be the less cost-effective option. Many of the included studies only investigated very specific outcome measures such as effective phacoemulsification time, endothelial cell count change or aqueous flare, rather than those directly related to patient outcomes. Standardised reporting of complications and visual and refractive outcomes for cataract surgery would facilitate future synthesis, and guidance on this has been recently published.
白内障是全球致盲的主要原因,因此白内障手术是全球最常见的手术之一。在过去的半个世纪里,手术技术发生了巨大的变化,手术结果和安全性也得到了提高。飞秒激光可用于执行白内障手术的关键步骤,如角膜切口、晶状体囊切开和碎裂。飞秒激光辅助白内障手术(FLACS)的潜在优势在于与手动技术相比,这些步骤的精确度和可重复性更高。其缺点是与 FLACS 技术相关的成本。
通过收集随机对照试验(RCT)的证据,比较飞秒激光辅助白内障手术(FLACS)与标准超声乳化白内障吸除术(PCS)的有效性和安全性。
我们检索了考科兰中央对照试验注册库(CENTRAL;包含考科兰眼科和视觉试验登记册;2022 年,第 5 期);Ovid MEDLINE;Ovid Embase;LILACS;ISRCTN 注册处;ClinicalTrials.gov;世界卫生组织国际临床试验注册平台(WHO ICTRP)和美国食品和药物管理局(FDA)网站。我们在电子检索中没有对试验使用任何日期或语言限制。我们最后一次于 2022 年 5 月 10 日检索了电子数据库。
我们纳入了将 FLACS 与 PCS 进行比较的 RCT。
三位综述作者独立筛选检索结果、评估偏倚风险并使用 Cochrane 预期的标准方法学程序提取数据。本综述的主要结局为术中并发症(即前囊和后囊撕裂)。次要结局包括校正距离视力(CDVA)、视力质量(通过任何经验证的患者报告结局测量工具(PROM)进行衡量)、术后囊样黄斑水肿并发症、内皮细胞损失和成本效益。我们使用 GRADE 评估证据的确定性。
我们纳入了 42 项 RCT,这些研究在欧洲、北美、南美和亚洲进行,共纳入了 5831 名成年参与者的 7298 只眼。总体而言,这些研究的偏倚风险为不确定或高。在 16 项研究中,作者报告与研究中评估的激光平台有财务联系。13 项研究为自身配对研究(即每只眼分配到一种手术程序,另一只眼分配到另一种手术程序)。这些研究报告忽略了数据的配对性质。在比较 FLACS 和 PCS 时,有低确定性证据表明前囊撕裂的发生几率几乎没有或没有差异(Peto 优势比(OR)0.83,95%置信区间(CI)0.40 至 1.72;5835 只眼,27 项研究),FLACS 组每 1000 例手术中发生前囊撕裂的病例数比 PCS 组少 1 例(95%CI 4 例更少至 3 例更多)。有低确定性证据表明,FLACS 组发生后囊撕裂的几率低于 PCS 组(Peto OR 0.50,95%CI 0.25 至 1.00;5767 只眼,26 项研究)。FLACS 组每 1000 例手术中发生后囊撕裂的病例数比 PCS 组少 4 例(95%CI 6 例更少至相同)。有中等确定性证据表明,在 6 个月或更长时间的随访中,FLACS 组在 CDVA 方面有很小的优势(平均差值(MD)-0.01 对数最小分辨力距离,95%CI-0.02 至 0.00;1323 只眼,7 项研究)。这一差异相当于两组之间 1 个 logMAR 字母,并且被认为没有临床意义。来自三项研究(1205 名参与者)的各种 PROM 报告(Cat-PROMS、EQ-5D、EQ-SD-3L、Catquest9-SF 和患者调查)显示,在术后 3 个月内,两种治疗方法之间的各种参数差异很小或没有差异。有低确定性证据表明,在比较 FLACS 和 PCS 时,发生囊样黄斑水肿的几率几乎没有或没有差异(Peto OR 0.84,95%CI 0.56 至 1.28;4441 只眼,18 项研究)。FLACS 组每 1000 例手术中发生囊样黄斑水肿的病例数比 PCS 组少 3 例(95%CI 10 例更少至 6 例更多)。在一项研究中,FLACS 与 PCS 相比的增量成本效益比(ICER)(成本差异除以质量调整生命年(QALY)差异)为 167620 英镑。在另一项研究中,与 PCS 相比,每有 1 例患者治疗成功,FLACS 的 ICER 节省 10703 欧元。手术时间范围从 FLACS 有利的 3 分钟到 PCS 有利的 8 分钟(I=100%,11 项研究)(低确定性证据)。有低确定性证据表明,在比较 FLACS 和 PCS 时,内皮细胞损失几乎没有或没有重要差异(FLACS 组每只眼多 12 个细胞,95%CI-40 至 64;1512 只眼,10 项研究)。
本综述纳入的 42 项研究提供了证据,表明在术中及术后并发症、术后视力和生活质量方面,FLACS 与 PCS 之间可能差异很小或没有差异。来自两项研究的证据表明,FLACS 可能是成本效益较低的选择。许多纳入的研究仅调查了非常具体的结果测量,如有效超声乳化时间、内皮细胞计数变化或房水闪光,而不是与患者结局直接相关的测量。白内障手术并发症和视力及屈光结果的标准化报告将有助于未来的综合分析,最近已经发布了相关指南。
