OBJECTIVE: To describe facial nerve anatomy and surgical techniques used for safe lymphatic malformation resection of malformation involving the facial nerve. METHODS DESIGN: retrospective case series. SETTING: tertiary pediatric hospital. SUBJECTS: record review of lymphatic malformation patients after facial nerve dissection, from 1996 to 2005. Data collected included: facial nerve function, relationship of lymphatic malformation to facial nerve, facial nerve anatomy, dissection extent and clinical outcome. RESULTS: Sixteen patients who met inclusion criteria underwent a total of 21 facial nerve dissections. Mean age at dissection was 48 months (range 1-72 months). Mean follow-up was 38 months (range 8-144 months). Pre-operative lymphatic malformation stage by patient: II=7/16, III=4/16, IV=2/16 and V=3/16. Higher stage lymphatic malformations required more extensive dissections (p=0.026). Pre-operative facial nerve function was House-Brackmann grade (HBG)-1 in 20, and HBG-6 in 1. Eight months postoperatively, facial nerve function was HBG-1 in 18, HBG-2 in 1, and HBG-6 in 2. The facial nerve was surrounded by lymphatic malformation in 10/21, deep to the lymphatic malformation in 5/21, superficial to the lymphatic malformation in 4/21, and not identified in 2/21. Imaging studies predicted facial nerve position in 15/21 procedures. Antegrade nerve dissection was performed in 10/21, retrograde in 7/21 and not done in 2/21. Abnormally elongated facial nerve was identified in 11/21 cases and required more extensive dissection (p=0.040). Facial nerve monitoring was used in 15/21 dissections. Clinical outcomes were felt to be good in 19/21 dissections. CONCLUSIONS: In lymphatic malformation surgery, the facial nerve is often abnormally elongated and encompassed by malformation. Pre-operative imaging, facial nerve identification and dissection allow excellent postoperative facial nerve function.
OBJECTIVE: To describe facial nerve anatomy and surgical techniques used for safe lymphatic malformation resection of malformation involving the facial nerve. METHODS DESIGN: retrospective case series. SETTING: tertiary pediatric hospital. SUBJECTS: record review of lymphatic malformation patients after facial nerve dissection, from 1996 to 2005. Data collected included: facial nerve function, relationship of lymphatic malformation to facial nerve, facial nerve anatomy, dissection extent and clinical outcome. RESULTS: Sixteen patients who met inclusion criteria underwent a total of 21 facial nerve dissections. Mean age at dissection was 48 months (range 1-72 months). Mean follow-up was 38 months (range 8-144 months). Pre-operative lymphatic malformation stage by patient: II=7/16, III=4/16, IV=2/16 and V=3/16. Higher stage lymphatic malformations required more extensive dissections (p=0.026). Pre-operative facial nerve function was House-Brackmann grade (HBG)-1 in 20, and HBG-6 in 1. Eight months postoperatively, facial nerve function was HBG-1 in 18, HBG-2 in 1, and HBG-6 in 2. The facial nerve was surrounded by lymphatic malformation in 10/21, deep to the lymphatic malformation in 5/21, superficial to the lymphatic malformation in 4/21, and not identified in 2/21. Imaging studies predicted facial nerve position in 15/21 procedures. Antegrade nerve dissection was performed in 10/21, retrograde in 7/21 and not done in 2/21. Abnormally elongated facial nerve was identified in 11/21 cases and required more extensive dissection (p=0.040). Facial nerve monitoring was used in 15/21 dissections. Clinical outcomes were felt to be good in 19/21 dissections. CONCLUSIONS: In lymphatic malformation surgery, the facial nerve is often abnormally elongated and encompassed by malformation. Pre-operative imaging, facial nerve identification and dissection allow excellent postoperative facial nerve function.
Authors: Randall A Bly; Robert N Holdefer; Jefferson Slimp; Gregory A Kinney; Vicente Martinez; Scott C Manning; Jonathan A Perkins Journal: JAMA Otolaryngol Head Neck Surg Date: 2018-05-01 Impact factor: 6.223