Frontalis Transfer and Closed Silicone Rod Frontalis Suspension

Article information

Arch Aesthetic Plast Surg. 2016;22(1):3-9
Publication date (electronic) : 2016 March 4
doi : https://doi.org/10.14730/aaps.2016.22.1.3
Department of Plastic and Reconstructive Surgery, Catholic University of Daegu School of Medicine, Daegu, Korea
Correspondence: David Dae Hwan Park Department of Plastic and Reconstructive Surgery, Catholic University of Daegu School of Medcine, 2F, Raphael Building, Daegu Catholic University Hospital, 33 Duryugonwon-ro 17-gil, Nam-gu, Daegu 42472, Korea. E-mail: dhpark@cu.ac.kr
Received 2015 December 25; Revised 2016 February 10; Accepted 2016 February 15.

Abstract

Background

Improvements in the degree of marginal reflex distance 1 (MRD1) were compared before and after use of the frontalis transfer (FT) method and closed silicone rod frontalis suspension surgery (SS) for severe blepharoptosis under general or local anesthesia with or without minimal sedation.

Methods

We reviewed the medical records and photographs of 76 patients who had visited our institute between 2006 and 2013 because of severe blepharoptosis with poor levator function and treated by the same senior doctor.

Results

In total, 104 eyes (63 patients) were included after applying exclusion criteria; 71 eyes (44 patients) were corrected using FT, and 33 eyes (19 patients) were corrected using the frontalis sling method with a silicone rod. Among the general FT, local FT, general SS, and local SS groups, the mean preoperative MRD1 was not significantly different. Postoperative MRD1 was highest in the local FT group.

Conclusions

Both FT and SS positively increased MRD1, regardless of the anesthesia used; however, the change in MRD1 of the general SS group was the lowest (1.11+/-0.848 mm). Further, general FT, local FT, and local SS groups had an approximate 2 mm or greater increase in the differences between postoperative and preoperative MRD1. Specifically, the local FT group had a definite positive correlation with postoperative MRD1.

INTRODUCTION

In severe blepharoptosis, surgical options can usually be divided depending upon the severity and extent of levator muscle function. In cases of poor levator muscle function, surgery with contraction of the frontalis is needed directly via the muscle itself or indirectly via an artificial material between the frontalis muscle and the tarsal plate. The frontalis sling technique has been considered the main procedure to treat patients with severe eyelid ptosis for decades [1-6]. Blepharoptosis correction under local anesthesia via frontalis transfer (local FT) can be an effective, but aggressive treatment [7]. However, if the patient is young or afraid of undergoing surgery, then surgery can be performed under general anesthesia (general FT). Silicone rod suspension surgery, a less invasive but effective treatment option, could be also performed under either general (general SS) or local anesthesia (local SS) [8,9].

The intraoperative eyelid level was adjusted until the eyelid margin covered 1.5 mm below the superior limbus of the cornea. Because the same surgeon performed all the procedures examined in this study, the effectiveness in correcting severe blepharoptosis was examined to assess whether the two operative options could be substituted for each other. In addition, the authors compare the effectiveness of the surgical options under both local and general anesthesia.

METHODS

We retrospectively compared the effectiveness of these surgical options in a non-randomized study. In the present study, we reviewed the medical records and photographs of 76 patients who had visited our clinic between 2006 and 2013 because of severe blepharoptosis and in whom a single senior doctor had performed the surgeries. Marginal reflex distance 1 (MRD1) was measured as the vertical distance from the corneal light reflex during primary gaze to the upper eyelid margin. The levator function is the difference in height of the upper lid margin between the highest and lowest points of vision after the surgeon presses the patients’ eyebrow to block frontalis muscle function [10]. A postoperative result was considered sufficiently symmetrical if the calculated difference between the postoperative MRD1 (PostMRD1) values of both eyes was 1 mm or less [11].

Surgical procedure

Silicone rod frontalis suspension surgeries were performed under general (general SS) or local (local SS) anesthesia with minimal sedation using the pentagon modified technique [12]. One BD Visitec™ 20-gauge, 2-1/2 inch stainless steel, double straight needle (0.8 mm×40 cm solid silicone rod; Becton Dickinson and Company, Franklin Lakes, NJ, USA) was used. The eyelid skin was marked on the medial and lateral parts, and two stab incisions were made on the upper eyelid. Temporal and nasal horizontal incisions were made on the fold line of the upper eyelid, extending within 3 mm of the lateral and medial corneal limbus. In addition, the lateral, medial, and forehead incisions were made above the eyebrow. Lateral and medial eyebrow incisions were made approximately 3 mm above the orbital rim vertical to the lateral and medial canthal lines toward the temporal and nasal regions, respectively (Fig. 1). In addition, a 5-mm forehead skin incision was made 7 mm above the central eyebrow around the orbital rim centrally. A lid guard was inserted for ocular protection. At first, 1:100,000 epinephrine mixed with 1% lidocaine was administered. After the incision and dissection of the five incision windows, one end of the straight needle was passed from the lateral eyelid incision window to the medial brow incision between the eyelid skin and orbicularis oculi muscle. Moreover, both a silicone rod and the superior margin of the tarsal plate were tied and fixed together with 7-0 nylon at two points through the eyelid windows, just after withdrawing the silicone rod back along the needle track. That end of the needle was passed through the medial eyelid incision window to the medial brow incision, and the other end of the needle was directed through the lateral eyelid window to the lateral brow window. The eyelid level was adjusted until the eyelid margin was elevated to cover 1.5 mm below the superior limbus of the cornea. Finally, both ends of the needles were passed through the central forehead incision window. Both parts of the extracted silicone rods were passed through the additional silicone tube and secured with 6-0 nylon to prevent loosening of the knots, and located under the frontalis muscle of the forehead. The skin brow incisions were closed with 5-0 vicryl and 6-0 nylon, and the eyelid incisions were sutured using 7-0 nylon.

Fig. 1.

Illustration of skin stab incision sites above eyebrows. Lateral and medial eyebrow incisions were made approximately 3 mm above the orbital rim, vertical to the lateral and medial canthal lines toward the temporal and nasal regions, respectively.

FTs were also performed under general (general FT) or local (local FT) anesthesia. Two incision lines were designed just below the ipsilateral eyebrow and eyelid fold line, and 1:100,000 epinephrine mixed with 1% lidocaine was then administered. After the brow incision was made using a beveling approach to avoid the hair follicle, the L-shaped frontalis muscle flap was elevated to avoid injury to the facial nerve. Then, via the eyelid incision, the tarsal plate was exposed, and a tunnel from the tarsal plate to the brow window between the skin and orbicularis oculi muscle was created. The harvested muscle flap was transposed and attached to the anterior border of the tarsal plate via a temporary PDS suture. The eyelid level was also adjusted until the eyelid margin was elevated to cover 1.5 mm below the superior limbus of the cornea. After the corrected target level was checked, two PDS sutures were used to maintain the frontalis muscle and tarsal plate. The brow and eyelid skin sutures were secured using 7-0 nylon after the insertion of silastic drainage [7].

Statistical analysis

Data analysis for MRD1 was performed using SPSS statistical software (version 16; SPSS Inc., Chicago, IL, USA). Data are expressed as the mean±standard deviation (SD). An independent sample t-test was used to compare preoperative MRD1 (PreMRD1), PostMRD1, and differences between PostMRD1 and PreMRD1 (DiffMRD1). PostMRD1 in the study groups was compared using the independent sample t-test after assuming equal variances or the Mann-Whitney test without assuming equal variances. The correlations in several variables such as age, surgical options, type of anesthesia, PreMRD1, PostMRD1, and DiffMRD1 were analyzed. In addition, improvements in the degree of ptosis were defined as the difference between PostMRD1 and PreMRD1. A two-sided P-value less than 0.05 was considered statistically significant.

RESULTS

Patient characteristics

In all, 76 patients who had visited our institute between 2006 and 2013 had severe, unilateral, or bilateral blepharoptosis and poor levator function. In all, 13 patients were excluded from the study because of Bells phenomenon (2 patients), previous surgical history (9 patients), and trauma (2 patients). Finally, 63 patients (104 eyes) with severe bilateral (41 patients, about 65%) or severe unilateral (22 patients, about 35%) ptosis were selected. In all, 44 patients (71 eyes) were treated using FT (age: 34.4±16.49 years), and 19 patients (33 eyes) were corrected using silicone rod frontalis suspension surgery (age: 37.8±24.41 years) under general or local anesthesia (Table 1). About 57% of patients were male.

Demographic information on the age and surgery undergone by the patient population

Statistical significance

We examined the correlation between several variables examined in this study. The patient group that underwent general anesthesia had a strong correlation with general FT. The patient group that underwent a SS had a strong correlation with local SS. Older age was definitely correlated with the group of all patients receiving local anesthesia and with the local SS group, and had a weak correlation with DiffMRD1. Younger age was definitely correlated with the group of all patients under general anesthesia and with the local SS group, and had a weak correlation with PreMRD1. The group with a larger PreMRD1 had a weak correlation with the group that underwent local FT and with PostMRD1. The group with a smaller PreMRD1 had a strong correlation with DiffMRD1. There was no positive correlation between PreMRD1 and the group that underwent general SS. PostMRD1 had a definite positive correlation with DiffMRD1, the group undergoing FT, and with the local FT group. PostMRD1 had a weak positive correlation with PreMRD1 and the group under local anesthesia (Fig. 2).

Fig. 2.

Illustration created by the NodeXL pro software program on statistical correlations of variables on this study. (A) Diagram shows all the variables and their correlation in this study. (B) Diagram shows the statistically significant variables and their correlations. A wider line means a strong correlation, and a narrow line means a weak correlation. Frontalis tranfer operation had correlationship with larger PostMRD1, and silicone sling (SS) had correlationship with smaller PostMRD1. There is no correlation if there is no line between the variable points. Frontalis transfer had no correlation with type of anesthesia with age. In the SS operation, older age had an obvious correlation with local anesthesia, and younger age had a definite correlation with general anesthesia. G, general anestheisa; L, local anesthesia; F, frontalis transfer; S, silicone sling; MRD1, marginal reflex distance1; PreMRD1, preoperative MRD1; PostMRD, postoperative MRD1; DiffMRD1, the differecne between PostMRD1 and PreMRD1.

The mean preoperative MRD1 among the four groups was not statistically significant with a P-value of 0.162 by the Kruskal-Wallis independent test. The mean postoperative MRD1 in the local FT group was the highest (2.05±0.681 mm), that of the general FT group was 1.78±0.647 mm, that of the local SS group was 1.10± 1.331 mm, and that of the general SS group was the lowest (0.70± 0.706 mm). The difference between PostMRD1 and PreMRD1 in the general FT group was 2.17±1.339 mm, in the local FT group was 2.04±1.224 mm, in the local SS group was 2.01±1.963 mm, and in the general SS group was 1.11±0.848 mm. The difference in MRD1 was 2 mm or greater in the general FT, local FT, and local SS groups, but not in the general SS group (Table 2 and 3). All surgical procedures resulted in a positive increase in the MRD1 value (Fig. 3).

The mean value of each marginal reflex distance1 in the study groups

Mean values with standard deviation of each marginal reflex distance1

Fig. 3.

Graphs showing the relationship between the frontalis transfer and the silicone sling (SS) methods with regard to the mean values of DiffMRD1 between postoperative and preoperative MRD1. (A) Under local anesthesia, the difference of the mean value between the frontalis transfer (local FT, n = 53, 2.04 ± 1.224 mm) and the SS method (local SS, n = 22, 2.01 ± 1.963 mm) was not statistically significant with P = 0.430 by the Mann-Whitney test. (B) However, under general anesthesia, the difference of the mean value between the frontalis transfer (general FT, n = 18, 2.17 ± 1.339 mm) and the SS method (general SS, n = 11, 1.11 ± 0.848 mm) was statistically significant with P = 0.015 by an independent sample t-test. It was shown that general FT, local FT, and local SS groups had an MRD1 difference of approximately 2 mm or more.

Surgical outcomes

The percentage of patients with satisfaction with symmetry after surgery was as follows: 100% in the general FT group, 97.1% in the local FT group, 83.3% in the local SS group, and 53.8% in the general SS group. The general FT group had no early or late complications or revisional operations, the local FT group had five cases (9.4%), the local SS group had three cases (13.6%), and the general SS had one case (9.1%) (Table 1 and 4).

Early and late post-surgical complications

DISCUSSION

In cases of poor levator function, the frontalis sling technique has been considered the main procedure for treating patients with severe blepharoptosis [13]. The typical method is to sling the upper eyelid tarsus with the frontalis muscle itself; there are many different alternative methods such as levator resection, Müller-aponeurosis composite flap advancement, and the frontalis suspension procedure. The latter is commonly performed using bridge materials such as preserved fascia lata (PFL) or synthetic materials like polyester, polytetrafluoroethylene, nylon, polypropylene, and silicone rods, although there is no general agreement on which material is superior when compared to the others [14,15]. In the case of autologous materials, there have been concerns about donor site scarring. In the PFL group, later recurrence is known to be related to absorption of the fascia [8,16]. Fascia lata is not always a feasible option for all patients, as the patient needs to be at least 3 years old in order to have sufficient length to provide suitable fascia lata [17]. Some studies have recommended using silicone rods [18,19]. Therefore, we focused on increases in the MRD1 using these techniques in a retrospective, non-randomized study that compared FT and silicone rod frontalis suspension surgery under general or local anesthesia in our institution, including at least 6 months of follow up. If the patient had an early complication, details of the first postoperative MRD1 was used instead of the postoperative MRD1 of the repeat surgery after 6 months.

A lower PreMRD1 value indicates a greater severity of ptosis. In this study, the mean PreMRD1 of all 104 eyelids was -0.34±1.371 mm; the PreMRD1 values in the local FT group (0.01±1.391 mm), the general FT group (-0.39±1.195 mm), the local SS group (-0.91 ±1.623 mm) and general SS group (-0.41±1.281 mm) were not significantly different from one another. Based on this finding, we compared PostMRD1 and MRD1 differences between the two procedures under general or local anesthesia.

To assess symmetry and determine whether the eyelid level was adjusted to a good position, intraoperative direct decisions can be more simply and reliably made under local anesthesia. Therefore, such direct prediction is believed to be more suitable to correct ptosis and determine the degree of correction under local anesthesia. However, hematoma can be caused by muscle contraction and pain under local anesthesia (Table 4). Nevertheless, because some patients had extreme anxiety about the surgery or were too young to be cooperative, they were given general anesthesia.

In a previous study, postoperative ptosis showed no relationship to preoperative ptosis severity, similar to the results of our data in most groups in this study [13]. However, FT performed under local anesthesia was positively correlated with PostMRD1, and weakly positive correlated with DiffMRD1 and PreMRD1 (Fig. 2). A coefficient of 21.3% was found in the statistical causal relationship between PreMRD1 and PostMRD1 as observed from the following: PostMRD1=2.041+0.235 ×(PreMRD1) in the local FT group as determined by linear regression analysis (P=0.000 in one-way ANOVA), unlike other groups of our institute.

Few studies have mentioned the results of blepharoptosis after surgery under different anesthetic conditions, and the present study showed that both the general FT and local FT groups showed an average 2-mm MRD1 increase, and the general SS group showed an average 1-mm MRD1 increase. The mean MRD1 differences in the local FT and general SS groups were 2.04±1.224 mm and 1.11 ±0.848 mm, respectively, and the MRD1 difference in the general FT (2.17 ±1.339 mm) and general SS (1.11 ±0.848 mm) groups were statistically significant (Table 3). The mean MRD1 difference in the local SS group was not significant from those in the other three groups, and the PreMRD1 and PostMRD1 values in the local SS group were significantly different from those in the local FT group. Therefore, the calculated MRD1 difference (2.01 ±1.921 mm) in the local SS group was expected to be similar to the MRD1 difference in the local FT and general FT groups. In other words, the general FT, local FT, and local SS groups had an average of 2 mm or greater MRD1 increase. Specifically, the local FT group had a definite positive correlation with PostMRD1 unlike other variables. The group under local anesthesia had a weak correlation with PostMRD1, and the group under general anesthesia had no correlation with PostMRD1.

From the intergroup analysis (P=0.032 by ANOVA) of the eight age groups with regard to MRD1 differences, the difference was higher for the age group of 61 to 70 years, followed by 41 to 50, 11 to 20, and 0 to 10 years. Further, in this study, most of the patients in the general SS groups were 10 years or younger, and these differences were thought to result from children’s inadequate frontalis muscle contraction [20]. From this study, we believe a higher target tension level of the SS should be employed during surgery under general anesthesia compared to local anesthesia. Under general anesthesia, FT results in few complications and revision surgeries. Silicone rods are readily available and the tension can be adjusted in a relatively easier manner even under postoperative conditions. Further, even if the MRD1 increase after general SS is relatively small, the frontalis suspension sling surgery using silicon rods seems to be a better option under local anesthesia; however, this procedure may be associated with recurrence (Table 4). In the future, a prospective study is needed to determine the optimal increase in target tension level needed for improved effectiveness of the procedure under general anesthesia, because an increase in silicone tension could cause a longer period with incomplete eyelid closure during sleep and lagophthalmos in the downward gaze [13].

Notes

No potential conflict of interest relevant to this article was reported.

References

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8. Lee MJ, Oh JY, Choung HK, et al. Frontalis sling operation using silicone rod compared with preserved fascia lata for congenital ptosis a three-year follow-up study. Ophthalmology 2009;116:123–9.
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Article information Continued

Fig. 1.

Illustration of skin stab incision sites above eyebrows. Lateral and medial eyebrow incisions were made approximately 3 mm above the orbital rim, vertical to the lateral and medial canthal lines toward the temporal and nasal regions, respectively.

Fig. 2.

Illustration created by the NodeXL pro software program on statistical correlations of variables on this study. (A) Diagram shows all the variables and their correlation in this study. (B) Diagram shows the statistically significant variables and their correlations. A wider line means a strong correlation, and a narrow line means a weak correlation. Frontalis tranfer operation had correlationship with larger PostMRD1, and silicone sling (SS) had correlationship with smaller PostMRD1. There is no correlation if there is no line between the variable points. Frontalis transfer had no correlation with type of anesthesia with age. In the SS operation, older age had an obvious correlation with local anesthesia, and younger age had a definite correlation with general anesthesia. G, general anestheisa; L, local anesthesia; F, frontalis transfer; S, silicone sling; MRD1, marginal reflex distance1; PreMRD1, preoperative MRD1; PostMRD, postoperative MRD1; DiffMRD1, the differecne between PostMRD1 and PreMRD1.

Fig. 3.

Graphs showing the relationship between the frontalis transfer and the silicone sling (SS) methods with regard to the mean values of DiffMRD1 between postoperative and preoperative MRD1. (A) Under local anesthesia, the difference of the mean value between the frontalis transfer (local FT, n = 53, 2.04 ± 1.224 mm) and the SS method (local SS, n = 22, 2.01 ± 1.963 mm) was not statistically significant with P = 0.430 by the Mann-Whitney test. (B) However, under general anesthesia, the difference of the mean value between the frontalis transfer (general FT, n = 18, 2.17 ± 1.339 mm) and the SS method (general SS, n = 11, 1.11 ± 0.848 mm) was statistically significant with P = 0.015 by an independent sample t-test. It was shown that general FT, local FT, and local SS groups had an MRD1 difference of approximately 2 mm or more.

Table 1.

Demographic information on the age and surgery undergone by the patient population

Age group Local FT General FT General SS Local SS n
1-10 n = 9 (1) 0 (0) 0 (0) 9 (1) 0 (0) 9 (1)
11-20 n = 29 (3) 17 (3) 6 (0) 2 (0) 4 (0) 29 (3)
21-30 n = 18 (2) 13 (1) 5 (1) 0 (0) 0 (0) 18 (2)
31-40 n = 6 (2) 4 (2) 2 (0) 0 (0) 0 (0) 6 (2)
41-50 n = 18 (6) 5 (5) 5 (1) 0 (0) 8 (0) 18 (6)
51-60 n = 17 (1) 11 (1) 0 (0) 0 (0) 6 (0) 17 (1)
61-70 n = 5 (5) 2 (2) 0 (0) 0 (0) 3 (3) 5 (5)
71-80 n = 2 (2) 1 (1) 0 (0) 0 (0) 1 (1) 2 (2)
Total eyes n = 104 (22) 53 (15) 18 (2) 11 (1) 22 (4) 104 (22)
Bilateral or unilateral surgery, number of patients 34 10 6 13
Bilateral 19 8 5 9
Unilateral 15 2 1 4
Ptosis recurrence, no. of eyelids (%) 1 (9.09%) 3 (13.64%) 0 4 (7.55%)

Local, under local anesthesia; General, under general anesthesia; FT, frontalis transfer; SS, silicone sling; n, count of affected eyes, (#), count of unilateral ptosis.

Table 2.

The mean value of each marginal reflex distance1 in the study groups

PreMRD1 PostMRD1 DiffMRD1
Mean ± SD (mm) Mean ± SD (mm) Mean ± SD (mm)
Local FT 0.01 ± 1.391 2.05 ± 0.681 2.04 ± 1.224
General FT -0.39 ± 1.195 1.78 ± 0.647 2.17 ± 1.339
General SS -0.41 ± 1.281 0.70 ± 0.706 1.11 ± 0.848
Local SS -0.91 ± 1.623 1.10 ± 1.331 2.01 ± 1.963

The difference of the mean PreMRD1 among four groups (local FT, general FT, general SS, and local SS) was not statistically significant with a P-value of 0.162 by the Kruskal-Wallis independent test.

FT, frontalis transfer; SS, silicone sling; MRD1, marginal reflex distance1; Pre-, preoperative; Post-, postoperative; DiffMRD1, PostMRD1-PreMRD1.

Table 3.

Mean values with standard deviation of each marginal reflex distance1

Local anesthesia
General anesthesia
Mean ± SD n Mean ± SD n
Total (n = 104) DiffMRD1 2.02 ± 1.488f) 75 1.77 ± 1.272f) 29
FT (n = 71) PreMRD1 0.01 ± 1.392a),g),o),u) 53 0.39 ± 1.195c),j),r),u) 18
 2.04 ± 1.270e) PostMRD1 2.05 ± 0.681a),h),p) 1.78 ± 0.647c),k),s)
DiffMRD1 2.04 ± 1.224i),m),q) 2.17 ± 1.339l),m),t)
SS (n = 33) PreMRD1 0.91 ± 1.623b),g),r),u) 22 0.41 ± 1.281d),j),o),u) 11
 1.71 ± 1.715e) PostMRD1 1.10 ± 1.331b),h),s) 0.70 ± 0.706d),k),p)
DiffMRD1 2.01 ± 1.921i),n),t) 1.11 ± 0.848l),n),q)

a,b)The difference of the mean value between PreMRD1 and PostMRD1 was statistically significant in the FT procedure and the SS method under local anesthesia with P-value of a)0.000 and b)0.000, respectively, by the Wilcoxon test. c,d)The difference of the mean value between PreMRD1 and PostMRD1 was statistically significant in both the FT and the SS method under general anesthesia with P-value of c)0.001 and d)0.005, respectively, by the Wilcoxon test. e)Regardless of the anesthesia, the difference of the mean value between the FT and the SS method in DiffMRD1 (= PostMRD1 - PreMRD1) was not statistically significant with P = 0.078 according to the Mann-Whitney test. f)Regardless of the surgical method, the difference of the mean value between local anesthesia and general anesthesia in DiffMRD1 was not statistically significant with P = 0.514 according to the Mann-Whitney test. Under local anesthesia, g)the difference of the mean value between the FT and the SS method in PreMRD1 was statistically significant with P = 0.026 by an independent sample t-test. h)The difference of the mean value between the FT and the SS method in PostMRD1 was also significant with P = 0.000 by the Mann-Whitney test. However, i)the difference of the mean value between the FT and the SS method in DiffMRD1 was not statistically significant with P = 0.430 by the Mann-Whitney test. Under general anesthesia, j)the difference of the mean value between the FT and the SS method in PreMRD1 was not statistically significant with P = 1.000 by the Mann-Whitney test. k)However, the difference of the mean value between the FT and the SS method in PostMRD1 was statistically significant as P = 0.001 by the Mann-Whitney test. l)The difference of the mean value between the FT and the SS method in DiffMRD1 was significant statistically with P = 0.015 by independent sample t-test. m),n)The difference of the mean value of the DiffMRD1 between the local and the general anesthesia was not statistically significant with a P-value of m)0.561 for the FT and n)0.337 for the SS method by the Mann-Whitney test. Between the local FT and the general SS, o)the mean value of PreMRD1 was not statistically significant statistically (0.415) by the Mann-Whitney test. However, the mean values of PostMRD1 and DiffMRD1 were statistically significant with P-values of 0.000 and 0.016, respectively, by the Mann-Whitney test. Between the general FT and the local SS, the mean values of r)PreMRD1, s)PostMRD1, and t)DiffMRD1 were not statistically significant at P-values of 0.0265, 0.080, and 0.774, respectively, by independent sample t-tests. u)The difference of the mean PreMRD1 among the four groups was not significant statistically with a P-value of 0.162 by the Kruskal-Wallis independent test. The values (a, b, c, d, g, h, k, l, p, and q) indicate statistical significance.

FT, frontalis transfer; SS, silicone sling; MRD1, marginal reflex distance1; Pre-, preoperative; Post-, postoperative; DiffMRD1, PostMRD1-PreMRD1.

Table 4.

Early and late post-surgical complications

Frontalis transfer
Silicone rod suspension
Local FT 5 cases (9.4%) General FT 0 case General SS 1 case (9.1%) Local SS 3 cases (13.6%)
Complications Postoperative bleeding, both sides Recurrence, one side Undercorrection, both sides
Revision time The operative day 7 days later 13 days post surgery
Revision operation Bleeding control Rod adjustment under local anesthesia FT
Undercorrection, one side Fold disappearance, one side
9 months later 5 months later
FT Skin-to-tarsal fixation
Fold disappearance, both sides Recurrence, one side
12 months later 7 months later
Skin-to-tarsal Rod adjustment
Fixation
Recurrence, one side
13 months later
FT
Recurrence, one side
13 months later
SS under local anesthesia

FT, frontalis transfer; SS, silicone sling.