目的:比较不同预设光学区组的飞秒激光小切口基质透镜取出术(small incision lenticule extraction,SMILE)和飞秒激光制瓣联合准分子激光原位角膜磨镶术(femtosecond laser-assisted in situ keratomileuses,FS-LASIK)术后有效光学区(effective optical zone,EOZ)大小与角膜高阶像差(high order aberrations,HOAs)变化以及有效光学区大小对角膜高阶像差的影响。方法:收集2019年2月 至2020年5月来佛山市第二人民医院行激光手术的患者80例,均取右眼入组,SMILE组43例,FSLASIK组37例,按预设光学区大小分为6.5 mm和6.0 mm组,分别于术前和术后1个月应用Pentacam三维眼前节分析系统测量有效光学区及总角膜高阶像差、彗差、球差,分析不同预设光学区下SMILE组和FS-LASIK组有效光学大小及与角膜高阶像差的关系。结果:在相同预设光学区下,术后1个月SMILE组的有效光学区均大于FS-LASIK组,差异均有统计学意义(均P<0.05),且SMILE组的角膜总高阶像差、球差、彗差均较FS-LASIK组低,差异均有统计学意义(均P<0.05);对于相同手术方式,预设光学区6.0 mm较6.5 mm组,术后1个月角膜总高阶像差、球差、彗差均升高,差异均有统计学意义(均P<0.05)。结论:SMILE组和FS-LASIK组术后1个月的有效光学区均小于预设光学区,SMILE组大于FS-LASIK组;术后1个月有效光学区越大,角膜高阶像差越小;在相同预设光学区下,SMILE组术后1个月角膜高阶像差小于FS-LASIK组。
Objective: To compare the effective optical zone (EOZ) and the changes in corneal high order aberrations (HOAs) after small incision lenticule extraction (SMILE) with those after femtosecond laser-assisted in situ keratomileuses (FS-LASIK). Methods: This study included 80 subjects who underwent laser refractive surgery at the Second People’s Hospital of Foshan between February 2019 and May 2020. Only data from the right eye of each subject were analyzed. A total of 43 eyes underwent SMILE while 37 eyes received FS-LASIK. The eyes were further stratified into subgroups based on different programmed optical zones: the 6.5 mm group and the 6.0 mm group. EOZ, coma, and spherical aberration were measured with Pentacam 3D anterior segment analysis system preoperatively and one month postoperatively. In addition, the relationship between EOZ and corneal HOAs was analyzed and compared between different optical-zone groups after SMILE and FS-LASIK. Results: For the same programmed optical zone, the SMILE group achieved a significantly greater EOZ than the FS-LASIK group who was measured 1-month postoperatively did (P<0.05). Meanwhile, corneal HOAs, spherical aberration, and coma in the SMILE group are significantly lower than those in the FS-LASIK group (P<0.05). For the same procedure (SMILE or FS-LASIK), the 6.0 mm group demonstrated significantly higher corneal total HOAs, spherical aberration, and coma than the 6.5 mm group did 1-month after the surgery (P<0.05). Conclusion: In both the SMILE and the FS-LASIK groups, 1-month postoperative EOZ was smaller than the programmed optical zone. EOZ in the SMILE group was larger than that in the FS-LASIK group. The larger the 1-month postoperative EOZ was, the lower corneal HOAs were. For the same programmed optical zone, 1-month postoperative corneal HOAs in the SMILE group is lower than that in the FS-LASIK group.
目的:了解行全飞秒激光小切口角膜基质透镜取出术(small incision lenticule extraction,SMILE)患者围手术期的体验感受。方法:采用定性调查的方法,选取广东省某医院的15名行SMILE的患者,进行半结构式访谈,将患者围手术期体验归纳为顾虑、紧张、疼痛、担心、放松5个主题概念,用现象学分析法整理、分析资料。结果:把5种体验汇总制成韦恩图,通过韦恩图提炼发现有1人有围手术期5种感受,3位有紧张、疼痛、担心、放松4种心理感受,2位只有紧张的感受,而无其余感受。结论:行SMILE患者的围手术期具有多种体验感受,分析不同感受状态和因素,为眼科医护人员对于寻求SMILE手术的患者做好围手术期的服务提供依据。
Objective: To investigate the perioperative experience after small incision lenticule extraction (SMILE). Methods: A semi-structured interview was conducted in 15 patients who underwent SMILE surgery in Zhuhai People’s Hospital.The data were collected and analyzed by phenomenological analysis. Results: The perioperative feelings of patients were summarized into five categories: concern, tension, pain, worry and relaxation. These feelings were compiled and extracted by Venn diagram. One patient had all five categories of feelings during the perioperative period. Three patients experienced four psychological feelings of tension, pain, worry and relaxation, and 2 patients had only nervous feelings during the full femtosecond operation period. Conclusion: Patients undergoing SMILE have avariety of experience feelings during perioperative period. Analysis of different feeling states and factors will provide evidence for ophthalmic medical staff to provide perioperative services for patients seeking SMILE surgery.
目的:基于新一代Corvis® ST分析成人近视患者经飞秒激光小切口角膜透镜取出术(small incision corneal lens extraction,SMILE)后角膜体(corneal volumn,CV)的变化与角膜生物力学变化的相关性,进一步证明C V对于评估SMILE术后角膜生物力学特性以及预测屈光手术结果的价值。方法:采用前瞻性病例观察研究方法,纳入2021年1月至8月在佛山市第二人民医院拟行SMILE的成人近视患者72例(72眼)。为避免双眼相关性,纳入患者的一个合适眼(右眼或者左眼),根据术前中央角膜厚度,将厚度470~<530 μm分为低角膜厚度组,530~<560 μm为中角膜厚度组 , ≥560μm为高角膜厚度组。应用新一代 Corvis® ST 于术前和术后3个月测量非接触生物力学校正眼压(biomechanical intraocular pressure,bIOP)、2 mm处变形幅度的比值[DA ratiomax(2 mm),DA2ratio]、综合半径(integrated inverse concave radius,IR)、水平方向Ambr?sio相关厚度,最薄点厚度/厚度变化率(Ambrósio’s relational thickness,ARTh)、第1次压平时角膜硬度参数(stiffness parameter applanation 1,SP-A1)、Corvis生物力学指数(Corvis biomechanical index,CBI)和应力和应变参数(stress-strain index,SSI)7项角膜生物力学参数。应用Pentacam眼前节分析系统测量中央角膜厚度(central corneal thickness,CCT)和不同区域的CV(CV3mm、CV5mm、CV7mm和CV10mm)。对比SMILE术前与术后3个月的CV、角膜生物力学参数的变化,并分析角膜生物力学参数与CV的相关性。数据采用配对、独立样本t检验分析差异性;单因素方差分析不同角膜厚度组的差异性;Spearman相关性分析和偏最小二乘回归(partial least squares linear regression,PLSLR)分析相关性。结果:SMILE术后3个月,CV3mm、CV5mm、CV7mm和CV10mm均较术前显著下降(均P<0.001);bIOP、ARTh、SP-A1和SSI较术前明显下降(P<0.05);DA2ratio、IR和CBI较术前明显升高(P<0.05)。术前和术后3个月不同角膜厚度组的ARTh、SP-A1DA2ratio、IR和CBI差异均有统计学意义(均P<0.05),低中角膜厚度组SSI术前后变化不大(P>0.05)。术前DA2ratio与CV3mm、CV5mm呈负相关,与CV10mm呈正相关;ARTh与CV3mm、CV5mm呈正相关,与CV10mm呈负相关;bIOP与CV10mm呈正相关;IR与CV3mm、CV5mm呈负相关,与CV10mm呈正相关;SP-A1与CV3mm、CV5mm呈正相关,与CV10mm呈负相关;CBI与CV3mm、CV5mm和CV10mm呈负相关,SSI与CV3mm呈正相关,与CV10mm呈负相关。SMILE术后3个月,ARTh与CV3mm、CV5mm呈正相关,与CV10mm呈负相关;CBI与CV3mm负相关、CV10mm呈正相关(均P<0.05)。SMILE术后3个月变化量中,ARTh与CV3mm、CV5mm呈正相关,与CV10mm负相关;CBI与CV3mm呈负相关,与CV10mm呈正相关(均P<0.05)。结论:成人SMILE术后3个月CV3mm、CV5mm、CV7mm、CV10mm、眼压和CCT较术前均显著降低;越往周边区域CV减少量越多。SMILE术后3个月的新一代Corvis® ST角膜生物力学新型参数较术前有显著变化;不同区域CV与角膜生物力学参数存在一定的相关性,预期SMILE术后不同区域的CV可以表征术后部分角膜生物力学特性的改变,CV可能成为表征预测角膜扩张发展的参数因素。
Objective: To evaluate the changes in corneal volume (CV) and the correlation of corneal biomechanics in adult myopic patients after small incision corneal lens extraction (SMILE) based on the new generation of Corvis® ST.This paper further demonstrates the value of CV in evaluating corneal biomechanical properties after SMILE and predicting the outcome of refractive surgery. Methods: A total of 72 cases (72 eyes) of adult myopia who were scheduled for SMILE in The Second People’s Hospital of Foshan from January to August 2021 were included in this prospective observational case study. To avoid binocular correlation, a suitable eye for each person was selected for inclusion. Based on the preoperative central corneal thickness (CCT), the cases were divided into a low corneal thickness group (470–<530 μm), a medium corneal thickness group (530–<560 μm), and a high corneal thickness group (≥560 μm). The biomechanical intraocular pressure (bIOP), DA ratiomax (2 mm) (DA2ratio), integrated inverse concave radius (IR), Ambrósio’s relational thickness (ARTh), stiffness parameter applanation 1 (SP-A1),corvis biomechanical index (CBI) and stress-strain index (SSI) were measured by Corvis® ST. The Pentacam anterior segment analysis system was used to measure partial CV and total CV with a diameter of 3, 5, and 7 mm from the top of the cornea, with an assumed diameter of 10 mm. The changes in corneal biomechanical parameters and CV before SMILE and 3 months after SMILE were compared. The correlation between corneal biomechanical parameters and CV was studied. Data were analyzed by paired and independent sample t-tests. One-way analysis of variance (ANOVA) was used to assess the differences between the corneal thickness groups. Spearman correlation analysis and partial least squares linear regression (PLSLR) were used for correlation analyses. Results: Three months after SMILE, the CV in different areas (CV3mm, CV5mm, CV7mm, and CV10mm) were significantly lower than those before SMILE, and the differences were statistically significant (all P<0.001). The corneal biomechanical parameters bIOP, ARTh, SP-A1, and SSI were significantly decreased compared with those before the operation (P<0.05). In contrast, the DA2 ratio, IR, and CBI were significantly higher than those before the operation (P<0.05). A comparison of the corneal biomechanical parameters ARTh, SP-A1, DA2 ratio, IR, and CBI in the different corneal thickness groups before and after SMILE showed overall differences among the groups (P<0.05).However, there was no significant change in the SSI between the low and medium corneal thickness groups. The correlation of the preoperative baseline DA2ratio was negatively correlated with CV3mm and CV5mm, and positively correlated with CV10mm; Conversely, ARTh was positively correlated with CV3mm and CV5mm, and negatively correlated with CV10mm; BIOP was positively correlated with CV10mm; IR was negatively correlated with CV3mm and CV5mm, and positively correlated with CV10mm; SP-A1 was positively correlated with CV3mm and CV5mm, and negatively correlated with CV10mm; CBI was negatively correlated with CV3mm, CV5mm, and CV10mm, while SSI was positively correlated with CV3mm and negatively correlated with CV10mm (all P<0.05). At 3 months after SMILE, ARTh was positively correlated with CV3mm and CV5mm, and negatively correlated with CV10mm; CBI was negatively correlated with CV3mm, and positively correlated with CV10mm (all P<0.05). Conclusion: This study demonstrated that at 3 months after SMILE, CV3mm, CV5mm, CV7mm, CV10mm, intraocular pressure, and CCT in the central and peripheral areas decreased significantly compared with to those before the operation, and the more peripheral the area, the more the CV decreased. Three months after SMILE, the new corneal biomechanical parameters of the new generation Corvis® ST changed significantly compared to those before the operation, and there was a certain correlation between CV in different regions and corneal biomechanical parameters. It is expected that CV in different regions after SMILE can characterize some changes in corneal biomechanical properties after SMILE, and CV may become a parameter factor for characterizing and predicting the development of corneal dilatation.