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Meta-Analysis
. 2017 Mar 2;3(3):CD006499.
doi: 10.1002/14651858.CD006499.pub4.

Botulinum toxin for the treatment of strabismus

Fiona J Rowe  1 Carmel P Noonan  2
Affiliations
Meta-Analysis

Botulinum toxin for the treatment of strabismus

Fiona J Rowe et al. Cochrane Database Syst Rev. .

Update in

  • Botulinum toxin for the treatment of strabismus.
    Bort-Martí AR, Rowe FJ, Ruiz Sifre L, Ng SM, Bort-Martí S, Ruiz Garcia V. Bort-Martí AR, et al. Cochrane Database Syst Rev. 2023 Mar 14;3(3):CD006499. doi: 10.1002/14651858.CD006499.pub5. Cochrane Database Syst Rev. 2023. PMID: 36916692 Free PMC article.

Abstract

Background: The use of botulinum toxin as an investigative and treatment modality for strabismus is well reported in the medical literature. However, it is unclear how effective it is in comparison to other treatment options for strabismus.

Objectives: The primary objective was to examine the efficacy of botulinum toxin therapy in the treatment of strabismus compared with alternative conservative or surgical treatment options. This review sought to ascertain those types of strabismus that particularly benefit from the use of botulinum toxin as a treatment option (such as small angle strabismus or strabismus with binocular potential, i.e. the potential to use both eyes together as a pair). The secondary objectives were to investigate the dose effect and complication rates associated with botulinum toxin.

Search methods: We searched CENTRAL (which contains the Cochrane Eyes and Vision Trials Register) (2016, Issue 6), Ovid MEDLINE, Ovid MEDLINE In-Process and Other Non-Indexed Citations, Ovid MEDLINE Daily, Ovid OLDMEDLINE (January 1946 to July 2016), Embase (January 1980 to July 2016), Latin American and Caribbean Literature on Health Sciences (LILACS) (January 1982 to July 2016), the ISRCTN registry (www.isrctn.com/editAdvancedSearch), ClinicalTrials.gov (www.clinicaltrials.gov), and the World Health Organization (WHO) International Clinical Trials Registry Platform (ICTRP) (www.who.int/ictrp/search/en). We did not use any date or language restrictions in the electronic searches for trials. We last searched the electronic databases on 11 July 2016. We handsearched the British and Irish Orthoptic Journal, Australian Orthoptic Journal, proceedings of the European Strabismological Association (ESA), International Strabismological Association (ISA) and International Orthoptic Association (IOA) (www.liv.ac.uk/orthoptics/research/search.htm) and American Academy of Paediatric Ophthalmology and Strabismus meetings (AAPOS). We contacted researchers who are active in this field for information about further published or unpublished studies.

Selection criteria: We included randomised controlled trials (RCTS) of any use of botulinum toxin treatment for strabismus.

Data collection and analysis: Two review authors independently selected studies and extracted data. We used standard methods expected by Cochrane and assessed the certainty of the evidence using GRADE. We defined ocular alignment as an angle of deviation of less than or equal to 10 prism dioptres.

Main results: Six RCTs were eligible for inclusion. We judged the included studies as at a mixture of low, unclear and high risk of bias. We did not consider any of the included studies as at low risk of bias for all domains.Two trials conducted in Spain (102 people, number of eyes not specified) compared botulinum toxin with surgery in children that required retreatment for acquired or infantile esotropia. These two studies provided low-certainty evidence that children who received botulinum toxin may have a similar or slightly reduced chance of achieving ocular alignment (pooled risk ratio (RR) 0.91, 95% confidence interval (CI) 0.71 to 1.16), binocular single vision (RR 0.88, 95% CI 0.63 to 1.23), sensory fusion (RR 0.88, 95% CI 0.63 to 1.23) and stereopsis (RR 0.86, 95% CI 0.59 to 1.25) compared with children who received surgery. One trial from Canada compared botulinum toxin with surgery in 30 adults (30 eyes) with horizontal strabismus and reported a reduced chance of ocular alignment with botulinum toxin (RR 0.38, 95% CI 0.17 to 0.85; low-certainty evidence).One trial in the UK suggested that botulinum toxin may result in a similar or slightly improved chance of ocular alignment in people with acute onset sixth nerve palsy compared with observation (RR 1.19, 95% CI 0.96 to 1.48; 47 participants, low-certainty evidence).Very low-certainty evidence from one trial from Brazil suggested that adjuvant botulinum toxin in strabismus surgery may increase the chances of ocular alignment compared with strabismus surgery alone (RR 1.83, 95% CI 0.41 to 8.11; 23 participants).One trial from China of 47 participants (94 eyes) suggested that people receiving botulinum toxin combined with sodium hyaluronate may have a similar or slightly reduced chance of achieving ocular alignment compared with botulinum toxin alone (RR 0.81, 95% CI 0.36 to 1.82; low-certainty evidence).Reported complications in people given botulinum toxin in the included trials included ptosis (range 9% to 41.66%) and vertical deviation (range 8.3% to 18.51%). Ptosis occurred less frequently when treated with botulinum toxin combined with sodium hyaluronate compared to botulinum toxin alone.

Authors' conclusions: Most published literature on the use of botulinum toxin in the treatment of strabismus consists of retrospective studies, cohort studies or case reviews. Although these provide useful descriptive information, clarification is required as to the effective use of botulinum toxin as an independent treatment modality. Six RCTs on the therapeutic use of botulinum toxin in strabismus, graded as low and very low-certainty evidence, have shown varying responses. These include a lack of evidence for effect of botulinum toxin on reducing visual symptoms in acute sixth nerve palsy, poor response in people with horizontal strabismus without binocular vision, similar or slightly reduced achievement of successful ocular alignment in children with esotropia and potential increased achievement of successful ocular alignment where surgery and botulinum toxin are combined. Further high quality trials using robust methodologies are required to compare the clinical and cost effectiveness of various forms of botulinum toxin (e.g. Dysport, Xeomin, etc), to compare botulinum toxin with and without adjuvant solutions and to compare botulinum toxin to alternative surgical interventions in strabismus cases with and without potential for binocular vision.

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Conflict of interest statement

FR has no known conflicts of interest. CN has no known conflicts of interest.

Figures

1
1
Study flow diagram.
2
2
Methodological quality graph: review authors' judgements about each methodological quality item presented as percentages across all included studies.
3
3
Methodological quality summary: review authors' judgements about each methodological quality item for each included study.
1.1
1.1. Analysis
Comparison 1 Botulinum toxin versus surgery, Outcome 1 Primary outcome ‐ improved ocular alignment ≤ 10 PD.
1.2
1.2. Analysis
Comparison 1 Botulinum toxin versus surgery, Outcome 2 Secondary outcome ‐ achievement of binocular single vision.
1.3
1.3. Analysis
Comparison 1 Botulinum toxin versus surgery, Outcome 3 Secondary outcome ‐ achievement of 'sensory' fusion.
1.4
1.4. Analysis
Comparison 1 Botulinum toxin versus surgery, Outcome 4 Secondary outcome ‐ achievement of stereopsis.
2.1
2.1. Analysis
Comparison 2 Botulinum toxin versus observation, Outcome 1 Primary outcome ‐ improvement of ocular alignment ≤ 10 PD.
2.3
2.3. Analysis
Comparison 2 Botulinum toxin versus observation, Outcome 3 Secondary outcome ‐ achievement of binocular single vision.
3.1
3.1. Analysis
Comparison 3 Surgery with botulinum toxin versus surgery without botulinum toxin, Outcome 1 Primary outcome ‐ improved ocular alignment ≤ 10 PD.
4.1
4.1. Analysis
Comparison 4 Botulinum toxin with sodium hyaluronate versus botulinum toxin without sodium hyaluronate, Outcome 1 Primary outcome ‐ improved ocular alignment ≤ 10 PD.
See this image and copyright information in PMC

Update of

References

References to studies included in this review

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    1. PACTR201508001241218. Botulinum neurotoxin as first line therapy in the management of childhood esotropia. www.pactr.org/ (accessed 23 April 2016).

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