The efficacy of superior oblique posterior tenectomy in the treatment of A-pattern exotropia without ocular intorsion: A retrospective study

A-pattern strabismus is usually accompanied with superior oblique overaction, and superior oblique weakening is helpful to solve this situation. Superior oblique posterior tenectomy (SOPT) was proposed first in 1976 to correct A-pattern strabismus [1]. SOPT aims to weaken the abduction effect in downgaze through partial cutting the posterior fibers of superior oblique, and induce clinically insignificant changes in torsion by leaving the anterior fibers intact. However, it has been reported that the magnitude of A-pattern correction obtained by SOPT is less than that obtained by complete superior oblique tenotomy or tenectomy [2, 3], and few studies have evaluated concretely the A pattern, superior oblique function and torsional changes after SOPT [4, 5]. The purpose of this study was to evaluate the effect of SOPT on A-pattern extropia without ocular intorsion and its association with the primary position horizontal and vertical deviation to provide further information for the preoperative planning surgical technique of these patients.

The clinical records of consecutive patients with A-pattern strabismus associated with bilateral superior oblique overaction from September 1, 2015 and August 31, 2018 were retrospectively reviewed, to identify patients who had undergone bilateral superior oblique posterior 3/4 tenectomy for A-pattern deviation without ocular objective intorsion during the study period, and had at least 3 months of postoperative follow-up.

The data collected included age, sex, preoperative and postoperative prism cover test at 33 cm and 6 m, A-pattern, ocular movement, objective torsion and history of previous strabismus surgery. An A pattern was defined as >10PD difference between up- and downgaze at 6 m by use of the alternate prism and cover test. A dilated fundus evaluation and fundus color photography were performed to evaluate objective torsion before and after surgery. To evaluate the extent of torsion, a line is drawn from the center of the disc to the center of the fovea. The angle formed between this line and the line passing through the center of the disc is the extent of the torsion and measured by coreldraw 11.0 (Corel Corporation). The average value of the three measurements is taken. SO overaction was measured on a 9-cardinal system, from − 4 to + 4. Exaggerated traction test was performed before and after SO posterior tenectomy. Patients who had previous strabismus surgery were excluded.

The surgical technique of SOPT involved rotating the globe inferiorly, the conjunctival incision was in the superior temporal bulbar conjunctiva at the lateral border of the superior rectus and 8 mm posterior to the superior limbus. The superior oblique tendon was isolated on a muscle hook to expose the whole posterior part of the tendon. The superior oblique posterior tenectomy extended from the insertion to the lateral border of superior rectus, and the anterior 1/4 of the superior oblique tendon was left intact.

Eighteen patients (thirty-six eyes) were included in the study. There were 6 female and 12 male patients in age ranging from 3 to 41 years, with a mean age of 15.22 years. The mean of follow up time was 19.33 month (ranging, 15–25 months). All patients showed A-pattern exotropia and bilateral superior oblique overaction without intorsion, and underwent bilateral superior oblique posterior tenectomy with horizontal strabismus surgery. None of the patient had diplopia prior to surgery. The operation was aim to improve the cosmetic appearance and tried to reconstruct binocular single vision.

Our study recruited 18 patients with an overall A-pattern of 15 PD for whom a correction of 12.75PD (85%) was achieved. The mean superior oblique overaction grade decreased from 2.28 before surgery to 0.43 after surgery.This was a statistically significant change. No induced vertical deviations were seen in those patients and no patient showed significant fundus torsion change or complained of torsional diplopia postoperatively. This study suggests that SOPT effectively collapses mild to moderate A-pattern deviation and superior oblique overaction, but not affect the primary position vertical deviation, as well as the ocular torsion.

Several techniques were able to weaken the superior oblique muscle, such as superior oblique tenotomy, tenectomy, posterior tenectomy, recession or tenotomy with a prosthetic spacer. The main complications associated with complete tenectomy or tenotomy are iatrogenic superior oblique palsy, conversion of an A -pattern to a V -pattern, or induced extorsion [6, 7]. SOPT selective weaken the abduction in downgaze by leaving the anterior fibers intact, and the risks of inducing superior oblique palsy, V-pattern or extorsion were not seen in our study. Therefore this procedure is an effective surgical approach for A pattern strabismus with superior oblique overaction but no intorsion.

In our study, bilateral SOPT proved to be an effective treatment for mild to moderate SOOA associated A-pattern, without causing torsional deviation change and vertical deviation in primary position. Compared with complete superior oblique weakening techniques, SOPT spares the anterior fibers responsible for torsion, thus avoiding postoperative undesirable torsional complications. Further study may be necessary to answer those questions whether it can be helpful to treat patients with severe SOOA associated A-pattern deviation and ocular intorsion.