Dynamic Reconstruction of Facial Paralysis in Craniofacial Microsomia

Kevin J Zuo; Martina Heinelt; Emily S Ho; Christopher R Forrest; Ronald M Zuker; Gregory H Borschel

doi:10.1097/PRS.0000000000008927

Dynamic Reconstruction of Facial Paralysis in Craniofacial Microsomia

Plast Reconstr Surg. 2022 Apr 1;149(4):919-929. doi: 10.1097/PRS.0000000000008927.

Authors

Kevin J Zuo¹, Martina Heinelt¹, Emily S Ho¹, Christopher R Forrest¹, Ronald M Zuker¹, Gregory H Borschel¹

Affiliation

¹ From the Division of Plastic and Reconstructive Surgery, Department of Surgery, University of Toronto; Division of Plastic and Reconstructive Surgery, The Hospital for Sick Children; School of Medicine, Queen's University; and Department of Occupational Science and Occupational Therapy, University of Toronto.

PMID: 35171871
DOI: 10.1097/PRS.0000000000008927

Abstract

Background: Craniofacial microsomia is associated with maxillomandibular hypoplasia, microtia, soft-tissue deficiency, and variable severity of cranial nerve dysfunction, most often of the facial nerve. This study evaluated the incidence of facial paralysis in patients with craniofacial microsomia and outcomes after free functioning muscle transfer for dynamic smile reconstruction.

Methods: A single-center, retrospective, cross-sectional study was performed from 1985 to 2018 to identify pediatric patients with craniofacial microsomia and severe facial nerve dysfunction who underwent dynamic smile reconstruction with free functioning muscle transfer. Preoperative and postoperative facial symmetry and oral commissure excursion during maximal smile were measured using photogrammetric facial analysis software.

Results: This study included 186 patients with craniofacial microsomia; 41 patients (21 male patients, 20 female patients) had documented facial nerve dysfunction (22 percent) affecting all branches (51 percent) or the mandibular branch only (24 percent). Patients with severe facial paralysis (n = 8) underwent smile reconstruction with a free functioning muscle transfer neurotized either with a cross-face nerve graft (n = 7) or with the ipsilateral motor nerve to masseter (n =1). All patients achieved volitional muscle contraction with improvement in lip symmetry and oral commissure excursion (median, 8 mm; interquartile range, 3 to 10 mm). The timing of orthognathic surgery and facial paralysis reconstruction was an important consideration in optimizing patient outcomes.

Conclusions: The authors' institution's incidence of facial nerve dysfunction in children with craniofacial microsomia is 22 percent. Free functioning muscle transfer is a reliable option for smile reconstruction in children with craniofacial microsomia. To optimize outcomes, a novel treatment algorithm is proposed for craniofacial microsomia patients likely to require both orthognathic surgery and facial paralysis reconstruction.

Clinical question/level of evidence: Therapeutic, IV.

MeSH terms

Child
Cross-Sectional Studies
Facial Nerve / surgery
Facial Paralysis* / complications
Facial Paralysis* / surgery
Female
Goldenhar Syndrome* / complications
Goldenhar Syndrome* / surgery
Humans
Male
Nerve Transfer*
Plastic Surgery Procedures*
Retrospective Studies
Smiling / physiology
Treatment Outcome