Comparison of Visual, Refractive and Ocular Surface Outcomes Between Small Incision Lenticule Extraction and Laser-Assisted In Situ Keratomileusis for Myopia and Myopic Astigmatism

In a 2018 Japanese retrospective case–control study on patients with moderate myopia and myopic astigmatism, Kataoka et al. compared 3-month postoperative visual outcomes between 34 eyes of 23 patients treated with SMILE (mean preoperative manifest refractive sphere: −4.52 ± 0.54 D; mean preoperative manifest refractive cylinder: −0.33 ± 0.38 D) and 34 eyes of 24 patients treated with LASIK (−4.45 ± 0.61 D; −0.45 ± 0.44 D). The authors found no significant differences in postoperative uncorrected distance visual acuity (UDVA) (82.4% and 85.3% of patients with 20/13 or better UDVA for SMILE and LASIK, respectively) or corrected distance visual acuity (CDVA) (97.06% and 100% of patients with 20/13 or better CDVA for SMILE and LASIK, respectively) between groups, showing that both procedures were highly effective [7]. A retrospective study including 68 SMILE-treated eyes of 35 patients in the United States with myopia or myopic astigmatism (preoperative manifest refractive sphere and cylinder ranged from −7.50 to −2.75 D and −0.75 to 0.00 D, respectively) showed that, although visual outcomes for SMILE (74% of eyes with 20/20 UDVA or better) were superior to first-generation LASIK [SVS Apex Plus, VISX STAR S2, Nidek EC-5000 (2000)] from 1999 to 2000 (51%), they were inferior to the latest generation (Nidek EC-5000 (2013), Alcon Contoura, VISX iDesign) from 2013 to 2016 (89%) [8]. The advanced generation of LASIK platforms, which can be used in wavefront-guided or topography-guided treatments, have advantages over the early ones, including higher pulse frequency, improved eye tracking system and greater accuracy in measuring refractive error and aberrations of the eye. However, another retrospective study in China comparing SMILE with wavefront-guided femtosecond LASIK (WFG FS-LASIK) in 65 myopic eyes (mean preoperative sphere ± SD: −4.20 ± 2.65 D) found no significant differences in visual outcomes in terms of UDVA and CDVA (mean ± SD: −0.02 ± 0.07 and −0.04 ± 0.22, respectively, for WFG FS-LASIK; −0.01 ± 0.06 and −0.04 ± 0.04, respectively, for SMILE) [9]. A total of 60 patients with myopia or myopic astigmatism [manifest refraction spherical equivalent (MRSE) ranged from −1.25 to −8.5 D] were enrolled in a study conducted by El-Mayah et al. in Egypt. Again, no statistically significant differences in CDVA were found between the two procedures at 3 months postoperatively, and the mean safety and efficacy indices for those in the SMILE group (1.1060.14; 1.0260.17) were similar to those in the LASIK group (1.1260.15; 1.0760.20) as well [10]. The study found that the refractive error was within ± 0.5 D of target refraction in 93% of treated eyes in both groups 3 months after surgery [10], in agreement with the findings of other studies comparing the two procedures, which demonstrated high refractive accuracy and clinical efficacy for both treatments [11‐13]. Furthermore, the two techniques were found to be equally safe, as no patient had a loss of more than two lines of best-corrected visual acuity (BCVA) throughout the 6-month follow-up period or suffered from significant postoperative complications such as epithelial defect, lamellar keratitis or epithelial implantation. However, in terms of speed of postoperative visual acuity improvement, the SMILE group reached values of 1.3 ± 0.2 at 3 months postoperatively, while the LASIK group reached this landmark already 1 week after surgery. This finding has been confirmed by other studies that also demonstrated a slower recovery rate in terms of postoperative visual acuity in SMILE-treated eyes compared with LASIK-treated eyes [12, 14]. Xia et al. suggested that mechanical damage to the surrounding stromal tissue during lenticule dissection and extraction in SMILE may be a significant contributing factor in the slower visual recovery process [15]. In making inferences from these results, however, it is important to note that most published studies comparing the two procedures focused on patients with mild to moderate myopia. There are limited data on the comparative efficacy between procedures with respect to myopia severity. A few studies have investigated SMILE efficacy in patients with high myopia (6.0D myopia or more), which have shown good visual outcomes and safety profiles in treated eyes [16‐18]. However, one prospective study including 165 eyes of 86 patients in China reported a trend towards undercorrection by SMILE in eyes with myopia greater than 6.0 D [17].

In terms of surgically induced astigmatism (SIA), one study in India including 30 eyes with low to moderate myopic astigmatism reported that there was no statistically significant difference between the two techniques (LASIK: 1.21 ± 0.85; SMILE: 1.02 ± 0.43; P > 0.05) [19]. However, a study in Finland found that the SMILE group (100 eyes with preoperative SE ranging from −1.38 to −8.25 D) had more postoperative astigmatism than the FS-LASIK-treated group (200 eyes with preoperative SE ranging from −0.63 to −11.63 D) [11]. Thus the results are inconclusive with regard to which technique is more likely to induce astigmatism, and additional evidence from prospective studies and randomized controlled trials is needed.

Although SMILE and LASIK have shown comparable visual outcomes, there are a number of potential advantages with the SMILE technique. One study suggested that SMILE has greater refractive power correction efficiency than LASIK in the peripheral cornea [7]. Maintenance ratios at the eighth to tenth analysis points on the cornea in the SMILE group (8th, 83.71% ± 8.44%; 9th, 74.03% ± 7.9%; and 10th, 63.25% ± 8.06%) were significantly higher than those in the LASIK group (8th, 79.86% ± 5.83%; 9th, 70.44% ± 6.11%; and 10th, 57.7% ± 6.37%). This may be explained by differences in surgical techniques. Additionally, a recent prospective clinical study, which included 123 eyes of 63 patients in China (mean preoperative MRSE ± SD: −5.55 ± 1.23 D), demonstrated that in the early postoperative phase up to 3 months, even though both techniques showed great improvement in optical quality at a small pupil diameter, SMILE showed better optical quality than FS-LASIK in eyes with larger pupil diameters, which may lead to better night vision with the SMILE procedure than with LASIK. [20].

The effects of surgery on corneal transparency were also examined in some studies. Corneal transparency can be impaired by corneal refractive surgery, which may hinder the passage of light rays and thus cause backward scattering of light. The two procedures demonstrated similar effects on corneal transparency. In a study comparing 58 SMILE-treated myopic eyes with 58 LASIK-treated eyes in China, no significant differences were found in 3-month postoperative CDVA (1.04 ± 0.16 for SMILE; 1.05 ± 0.13 for LASIK) or corneal clarity evaluated using Scheimpflug corneal densitometry (17.1 ± 1.1 for SMILE; 17.4 ± 1.1 for LASIK) [21]. A 3-year postoperative follow-up of two groups of myopic patients in China who underwent SMILE and LASIK (34 and 40 eyes, respectively) detected no significant difference in corneal backscatter as well [22].

Overall, LASIK had an advantage in terms of significantly faster postoperative visual recovery, but the two techniques had comparable visual outcomes from 3 months after surgery onward. Furthermore, there was evidence that eyes with large pupil diameters had better visual outcomes after SMILE than after LASIK treatment.

HOAs include vertical and horizontal coma, spherical aberration and trefoils, and are linked to problems with night vision, presenting as glare, haze and halos [13, 23]. Comparing SMILE and LASIK, studies have shown equivalence—if not superiority of the former—in their minimization of post-surgical HOAs.

A number of studies reported no significant difference in the levels of induced total HOAs between SMILE-treated and LASIK-treated eyes. A study conducted by El-Mayah et al. reported no statistically significant differences in the change in higher-order root mean square values (RMS) (P1/40.2000), primary coma RMS (P1/40.0589) or spherical aberrations (P1/40.0543), but changes in the former two parameters were greater in the SMILE group, while the FS-LASIK group showed greater changes in the latter [10]. Chen et al. compared the occurrence of ocular HOAs in eyes treated with SMILE and WFG FS-LASIK, which is the gold standard for treating HOAs [9]. While there was an increase in total HOAs 3 months after surgery compared with preoperative values for both groups, no significant differences postoperatively in overall ocular aberrations trefoil, horizontal coma, spherical aberration or total HOAs were found. Only vertical coma values were observed to be higher in the SMILE group (0.163 ± 0.093) than in the WFG FS-LASIK group (0.116 ± 0.077), which may be explained by the fact that no iris registration or eye tracker was used for SMILE in this study, thereby reducing accuracy in centration, and that corneal wound-healing responses for SMILE and WFG FS-LASIK are different.

However, other studies have reported a lower occurrence of HOAs in SMILE-treated patients compared with LASIK-treated patients. A recent study reported a significant increase in HOAs in LASIK patients at 1 year (0.163 ± 0.14 µ) compared with preoperative values (0.115 ± 0.05 µ), while the increase in these values was not statistically significant in the SMILE group (0.126 ± 0.07 µ at 1 year and 0.120 ± 0.06 µ preoperatively) [19]. In a study in a speciality eye hospital in India, Ganesh and Gupta also reported a significantly smaller number of cases of aberrations in the SMILE group (50 eyes; mean preoperative SE ± SD: −4.95 ± 2.09 D) than in the LASIK group (50 eyes; mean preoperative SE ± SD: −3.54 ± 2.26 D) [24]. In another study in China including 459 eyes of 230 patients with myopic or myopic astigmatism errors less than −10.0 D spherical SE, SMILE induced fewer total HOAs and spherical aberrations compared with LASIK and FS-LASIK 6 months postoperatively, possibly because a lower corneal wound-healing response is induced by the small incision in SMILE, despite more horizontal coma and vertical coma induced when compared with WF-LASIK [25].

Most studies have demonstrated that corneal sensitivity is reduced after refractive surgery. SMILE-treated eyes tend to recover to preoperative levels sooner than LASIK-treated eyes.

In one study, central corneal sensation values in the FS-LASIK group were significantly decreased at 1 week, 1 month, 3 months and 6 months postoperatively compared with preoperative values [15]. However, central corneal sensation was not significantly changed in the SMILE group at any time point postoperatively compared with preoperative measurements, and quickly returned to preoperative values at 1 month post-surgery. In a study conducted by Wei and Wang in China, significantly higher corneal sensitivity was seen in the SMILE group (61 eyes; mean preoperative sphere ± SD: −5.11 ± 1.25 D) than the LASIK group (54 eyes; mean preoperative sphere ± SD: −5.50 ± 1.54 D) in all quadrants of the cornea (central, superior, inferior, nasal and temporal) at 1 week and 1 and 3 months postoperatively, indicating faster recovery in corneal sensitivity for SMILE-treated myopic eyes, which had comparable preoperative and postoperative corneal sensitivity [26]. These results were supported by another study looking at corneal reinnervation after refractive surgery in 74 eyes of 40 patients in China. At 1 week and 1 and 3 months postoperatively, the SMILE group (mean preoperative SE ± SD: −6.56 ± 1.28 D) showed smaller decreases (7608.3 576.6, 7642.1 564.6 and 6736.0 644.0 µm/mm², respectively) in subbasal nerve density than the FS-LASIK group (mean preoperative SE ± SD: −8.46 ± 2.15 D; 9431.0 ± 531.8, 9316.7 ± 527.8 and 8375.8 ± 552.6 µm/mm², respectively). However, no significant difference in the decrease in corneal subbasal nerve density was observed between the two groups (SMILE: 5588.8 ± 618.9 µm/mm²; FS-LASIK: 5874.6 ± 567.3 µm/mm²) 6 months postoperatively [27].

Previous studies have shown that recovery of corneal sensation to preoperative levels takes about 3-6 months after LASIK [28]. It is believed that since SMILE does not involve the creation of a corneal flap, better preservation of corneal subbasal and stromal nerves can be achieved when compared with LASIK, resulting in better postoperative corneal sensitivity [3, 29].

Dry eye and corneal neuropathic pain are one of the most commonly reported complaints after laser refractive surgery. In severe cases, patients may even require referral to tertiary eye centers for effective symptom relief [30]. Dry eye not only lowers patients’ quality of life, but also damages the ocular surface and gives rise to various symptoms of ocular discomfort associated with visual disturbance, thus impeding good visual recovery [31‐33]. In general, studies agree that SMILE results in less severe postoperative dry eye symptoms than LASIK.

In a study conducted in France including 60 European subjects (spherical correction range: −1.0 to −8.0 D; cylinder range: 0 to −1.5 D), similar rate of signs and symptoms of dryness were reported between SMILE and LASIK groups 1 month after surgery, but the rate was significantly higher for LASIK than SMILE 6 months postoperatively [32]. A retrospective analysis of 68 SMILE-treated eyes showed that dry eyes were most frequently reported early in the postoperative period and decreased in severity with time, with dry eyes reported in 100% and 88% at the 1-week and 1-month intervals, respectively, returning to baseline level of 45% at 3 months [8]. Ganesh et al. included 30 eyes of 30 patients with low to moderate myopic astigmatism, and found a significant decrease in tear breakup time (TBUT) scores (9.4 ± 1.47 s) in the FS-LASIK group at 1 year (P = 0.00), leading to lower patient satisfaction due to dry eye symptoms, compared with the higher TBUT scores (10.7 ± 1.08 s), which were comparable to preoperative values (11.26 ± 1.22 s), and excellent satisfaction among SMILE-treated patients [19]. Other relevant studies showed similar results [10, 15, 24].

A study investigating early ocular surface changes after the two procedures revealed that in terms of corneal fluorescein staining, SMILE patients recovered to preoperative levels by 1 week after surgery, as opposed to 1 month postoperatively in LASIK patients. Additionally, a quicker recovery in TBUT can be seen in SMILE (1 month) than in FS-LASIK patients (3 month). Assessment of dry eye symptoms using the Ocular Surface Disease Index (OSDI) questionnaire also revealed that OSDI scores in the SMILE and LASIK groups reached preoperative levels by 1 month and 3 months after surgery, respectively, further suggesting that quicker ocular surface recovery can be achieved with SMILE [34]. Tear film mediators are believed to play a role in corneal wound healing, and levels of IL-6, which is associated with damage to the ocular surface after refractive surgery, were lower in SMILE-treated than in LASIK-treated eyes.

Corneal nerves carry afferent signals important for maintaining the ocular surface lacrimal gland feedback system for tear production [35]. It has been hypothesized that transection of corneal nerves during refractive surgery is a major contributor to postoperative dry eye symptoms [36]. In SMILE, since the creation of a corneal flap is not involved, damage to the anterior stromal nerve plexus is significantly less than that in FS-LASIK, in which flap creation results in a greater number of corneal nerves around the ring being severed; hence fewer dry eye symptoms are seen postoperatively with SMILE [32, 37]. Based on the aforementioned studies, it is reasonable to conclude that SMILE induces fewer dry eye symptoms than LASIK in a comparable population.