Botox Instead of Strabismus Surgery (BISS)

Phase 3

Completed

• Conditions: Acquired Esotropia
• Interventions: Drug: Botulinum toxin type A; Procedure: Strabismus surgery

• Registration Number: NCT03459092
• Lead Sponsor: Insel Gruppe AG, University Hospital Bern

Brief Summary

The purpose of the study is to evaluate if strabismus can be successfully treated requiring less surgical interventions with a Botox-based treatment regimen compared to a purely surgery based treatment regimen.

Experimental arm: Botulinum toxin injection in the horizontal extraocular muscles.

Control (active comparator) arm: Strabismus surgery on the horizontal extraocular muscles. No investigational product is used.

In Switzerland the standard procedure for treating large angle esotropia is surgery, which is performed on the horizontal eye muscles that may be either recessed or shortened leading to reduced or increased muscle function respectively.

As an alternative to strabismus surgery, botulinum toxin (Botox) can be applied in extraocular muscles. Botox prevents the release of acetylcholine in the synaptic cleft and thereby blocks the neuromuscular transmission thus inducing a palsy.

Current evidence on the use of Botox in strabismus is incoherent, is poorly supported by basic research findings and leaves dedicated clinicians in the dark. The objective is to shed light into this field of clinical research, which may help to guide future pediatric ophthalmologists in their management of strabismic patients. In a best case scenario, the results from this trial will prevent strabismus operation for many children with acquired large angle esotropia.

Detailed Description

Patients with acquired large angle esotropia (an inward deviation of the ocular axis by more than 5°) that develops after one year of age have a potential to regain binocular vision if a retinal image appears on corresponding retinal areas of both eyes. The main goal of therapy in these patients is the restoration of binocular vision.

In Switzerland the standard procedure for treating large angle esotropia is surgery, which is performed on the horizontal eye muscles that may be either recessed or shortened leading to reduced or increased muscle function respectively.

As an alternative to strabismus surgery, botulinum toxin (Botox) can be applied in extraocular muscles. Botox prevents the release of acetylcholine in the synaptic cleft and thereby blocks the neuromuscular transmission thus inducing a palsy.

Current evidence on the use of Botox in strabismus is incoherent, is poorly supported by basic research findings and leaves dedicated clinicians in the dark. The goal is to shed light into this field of clinical research, which may help to guide future pediatric ophthalmologists in their management of strabismic patients.

The goal of the study is to test if, with a botulinum-toxin-based treatment regimen, strabismus can be successfully treated requiring less surgical interventions.

The primary objective is to test if the Botox-based treatment regimen is not inferior to surgical treatment in terms of orthotropic success. If this is shown, the number of surgeries required will be compared between the two groups (main secondary objective).

The hypothesis is that the Botox-based treatment regimen, which permits performance of rescue surgery, is successful in a similar proportion of patients as the purely surgical approach. The second hypothesis is that only about 20% of patients treated with Botox require surgery at all as compared to about 10% of patients in the surgical arm that need a second surgery.

Analysis of the primary outcome The proportion of orthotropic success for both groups will be calculated with a corresponding 95% confidence interval. For the comparison between the two groups, the stratified risk difference for the stratification factors used in randomization will be calculated with a corresponding one-sided lower 95% confidence limit. If the lower limit lies above -12%, non-inferiority will be claimed.

Analysis of the main secondary outcome The proportion of second interventions for both groups will be calculated with a corresponding 95% confidence interval. For the comparison between the two groups, a stratified risk difference for the stratification factors used in randomization will be calculated with a corresponding one-sided upper 95% confidence limit. If the upper limit lies below 40% and if non-inferiority for the primary outcome could be demonstrated, a clinical benefit of the new treatment will be claimed.

Study Timeline

• Study First Submitted: 2018-03-02
• Study First Submitted QC: 2018-03-02
• Study First Posted: 2018-03-08
• Study Start: 2018-08-16
• Primary Completion: 2023-07-31
• Study Completion: 2023-07-31
• Status Verified: 2023-11
• Last Update Submitted: 2023-11-06
• Last Update Posted: 2023-11-07

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 63

Inclusion Criteria

1. Informed consent of trial participant and/or legal representative documented per signature

2. Age > 1 year and <17 years

3. Esotropia > 10Prisms

4. Indication for an intervention (either Botox or surgery) has been made.

5. Any of the following:

   • Presence of a secondary strabismus from binocular disruption the cause of the binocular disruption is no longer present
   • Decompensated microstrabismus
   • Decompensated phoria
   • Acute acquired esotropia

6. Positive test of binocular function at any time point in the past, including any of the following

   • Titmus test
   • Bagolini striated glasses test
   • Lang-stereo-test with correct naming of at least one panel
   • Good ocular alignment after 6 months of age on at least 2 photographs

Exclusion Criteria

1. Known hypersensitivity to botulinum toxin

2. Known neuromuscular disorder

3. Known present neurological disorder affecting the central nervous system Including paresis on cranial nerves number 3, 4 and 6

4. Any of the following:

   • nystagmus
   • dissociated vertical deviation

5. Vertical deviation in any gaze direction greater than 5°

6. Incomitance with more than 5° of difference between the left and right horizontal gaze direction

7. Previous strabismus surgery

8. Previous Botulinum toxin treatment on extraocular muscles

9. Presence of ophthalmic pathologies significantly preventing binocular functions.

   A significant alteration of binocular function is assumed if vision is smaller than 0.1 or the visual field has a horizontal diameter of less than 20°.

10. Pregnancy. A negative pregnancy test before randomization is required for all women of child-bearing potential.

11. Preterm children born before 36 weeks of gestation.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Botox-based treatment regimen	Botulinum toxin type A	First intervention is a Botulinum toxin type A injection. If further treatment is necessary, strabismus surgery can be performed.
Surgery-based treatment regimen	Strabismus surgery	First intervention is strabismus surgery. If further treatment is necessary, strabismus surgery can be repeated.
Botox-based treatment regimen	Strabismus surgery	First intervention is a Botulinum toxin type A injection. If further treatment is necessary, strabismus surgery can be performed.

Primary Outcome Measures

Name	Time	Method
Number of patients with presence of binocular vision	At 18 months	Presence of binocular vision is a binary variable set to yes when either of the following criteria is fulfilled: 1. No eye movement can be observed in the simultaneous prism covertest, performed according to the study specific SOP for full orthoptic workup, for both eyes measured at distance. This proves orthotropia and thus binocular vision can be assumed.; 2. An esotropia of less than 5° is observed in the covertest at distance AND at near. In addition at least one binocular test demonstrates binocular vision. This proves compensated microstrabismus with anomalous retinal correspondence.; Binocular tests: 1. Lang-Stereotest; 2. Butterfly- Stereotest; 3. Titmus test; 4. Bagolini striated glasses test; 5. TNO-Test; 6. Pencil-Test

Secondary Outcome Measures

Name	Time	Method
Number of patients with binocular vision	At 12 months	Presence of binocular vision is a binary variable set to yes when either of the following criteria is fulfilled: 1. No eye movement can be observed in the simultaneous prism covertest, performed according to the study specific SOP for full orthoptic workup, for both eyes measured at distance. This proves orthotropia and thus binocular vision can be assumed.; 2. An esotropia of less than 5° is observed in the covertest at distance AND at near. In addition at least one binocular test demonstrates binocular vision. This proves compensated microstrabismus with anomalous retinal correspondence.; Binocular tests: 1. Lang-Stereotest; 2. Butterfly- Stereotest; 3. Titmus test; 4. Bagolini striated glasses test; 5. TNO-Test; 6. Pencil-Test
Number of surgeries needed per successful outcome	At 12 months, at 18 months	Successful outcome = binocular vision
Number of surgeries per participant	At 12 months, at 18 months
Change in strabismus angle, measured in percent	At 12 months, at 18 months	Measured as percentage of preoperative deviation from baseline. The strabismus angle measured with the alternate prism cover test, performed in primary position at distance is used. Change of deviation in percent of preoperative deviation is calculated as follows: 100\*(preoperative deviation - postoperative deviation) / preoperative deviation
Number of patients with treatment-specific presence of binocular vision	At 12 months, at 18 months	For this outcome patients with a second intervention are defined as failures (no).
Number of patients with second intervention	At 12 months, at 18 months	Rescue surgery in Botox-based treatment arm and second surgery in surgery arm
Number of patients with incomitance	At 12 months, at 18 months	Incomitance is here defined as the absolute difference of strabismus angle measured with the alternate prism cover test at 25° left gaze and the angle measured at 25° right gaze
Binocular function, measured in arc seconds	At 12 months, at 18 months	When binocular vision is present, the binocular function is the best stereoscopic acuity, measured in arc seconds, achieved for any of the below mentioned tests.; 1. Lang-Stereotest; 2. Butterfly- Stereotest; 3. Titmus test; 4. Bagolini striated glasses test; 5. TNO-Test; 6. Pencil-Test

Trial Locations

Locations (8)

Basel University Hopital; 🇨🇭 Basel, Switzerland

Kantonsspital St. Gallen; 🇨🇭 Saint Gallen, Switzerland

Bern University Hospital; 🇨🇭 Bern, Switzerland

Luzerner Kantonsspital; 🇨🇭 Lucerne, Switzerland

Institut Ophtalmologique Sourdille Atlantique; 🇫🇷 Saint-Herblain, France

University Hospital Zürich; 🇨🇭 Zürich, Switzerland

Geneva University Hospital, HUG; 🇨🇭 Geneva, Switzerland

Lausanne Univeristy Hospital, CHUV; 🇨🇭 Lausanne, Switzerland