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Split-Tendon Medial Transposition of Lateral Rectus for Pediatric Complete Oculomotor Palsy

Split-tendon medial transposition of lateral rectus (STMTLR) for complete oculomotor palsy can correct large angles of exotropia in adults, but outcomes are variable, and complications are frequent. Only a few pediatric cases have been reported, and further insight is needed to assess the child'...

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Detalles Bibliográficos
Autores principales: Zhang, Kevin X., Varma, Hersh, Cao, Yuying, Shah, Veeral S.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Journal of Neuro-Ophthalmology 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10166200/
https://www.ncbi.nlm.nih.gov/pubmed/36342135
http://dx.doi.org/10.1097/WNO.0000000000001731
Descripción
Sumario:Split-tendon medial transposition of lateral rectus (STMTLR) for complete oculomotor palsy can correct large angles of exotropia in adults, but outcomes are variable, and complications are frequent. Only a few pediatric cases have been reported, and further insight is needed to assess the child's alignment outcomes and ability for postsurgical gain of function. The aim of our study is to report the outcomes of this surgical procedure in pediatric cases of complete oculomotor palsy. METHODS: A retrospective review of outcomes was conducted on 5 consecutive patients with complete oculomotor palsy treated with STMTLR by a single surgeon (V.S.S.) between 2015 and 2021 at tertiary referral centers. Primary outcome was postoperative horizontal alignment, and secondary outcome was demonstration of gain-of-function activity in the field of action of the paretic medial rectus muscle. RESULTS: Five cases of pediatric complete oculomotor palsy underwent surgical treatment with STMTLR. Subjects averaged 5.3 years old (range 10 months-16 years). Two were female. Etiologies were heterogeneous, and all presented with unilateral (n = 2) or bilateral complete oculomotor palsy with exodeviations ranging from 45 to >120 prism diopters. Two subjects had bilateral disease secondary to military tuberculosis with CNS involvement. A third subject presented iatrogenically with complete bilateral third nerve palsies secondary to removal of a nongerminomatous germ cell tumor (NGGCT) of the pineal gland. The 2 remaining subjects had monocular involvement in their right eye, 1 from compressive neuropathy after a cavernoma midbrain hemorrhage, and 1 from a congenital right oculomotor palsy. All patients were observed to have stable ocular alignment for a period of at least 6 months before surgery. Unilateral STMTLR was performed in all cases except the subject with NGGCT, in which bilateral STMTLR was performed. Measurement of alignment permanence out to 1–3 years postop resulted in an average correction of 40.83 prism diopters (range 37.5–45 prism diopters) per operated eye. Four of 5 subjects regained limited but active adduction eye movements, and the 2 unilateral cases demonstrated improved convergence. None of the subjects experienced significant complications. CONCLUSIONS: STMTLR was a safe and effective approach for the surgical correction of complete pediatric oculomotor palsy in our case series. In addition, pediatric patients may benefit from STMTLR with immediate gain-of-function activity in the transposed lateral rectus muscle, which supports the hypothesis that children have a dynamic and adaptive neuroplasticity of visual target selection that predominates established agonist/antagonist neural signaling.