Pinghua Wu1,2, Zeyu Li3, Chang Liu3, Jun Ouyang4, Shizhen Zhong5. 1. Department of Neurosurgery, Affiliated Cancer Hospital of Guangxi Medical University, 71 Hedi Road, Nanning, 530021, Guangxi Zhuang Autonomous Region, China. docwph@126.com. 2. Institute of Clinical Anatomy, Guangdong Provincial Medical Biomechanical Key Laboratory, Southern Medical University, North-1838 Guangzhou Avenue, Guangzhou, 510515, Guangdong, China. docwph@126.com. 3. Institute of Clinical Anatomy, Guangdong Provincial Medical Biomechanical Key Laboratory, Southern Medical University, North-1838 Guangzhou Avenue, Guangzhou, 510515, Guangdong, China. 4. Institute of Clinical Anatomy, Guangdong Provincial Medical Biomechanical Key Laboratory, Southern Medical University, North-1838 Guangzhou Avenue, Guangzhou, 510515, Guangdong, China. jouyang@126.com. 5. Institute of Clinical Anatomy, Guangdong Provincial Medical Biomechanical Key Laboratory, Southern Medical University, North-1838 Guangzhou Avenue, Guangzhou, 510515, Guangdong, China. zhszh@fimu.com.
Abstract
OBJECTIVES: To develop a combined pedicled flap comprising the mucoperiosteum and mucoperichondrium of the inferior turbinate, lateral nasal wall, nasal floor, and nasal septum based on the posterior lateral nasal artery, a branch of the sphenopalatine artery, for the reconstruction of skull base defects resulting from endoscopic expanded endonasal approaches. METHODS: Eleven fresh adult cadaver heads were dissected. Arterial distribution patterns of the inferior turbinate, lateral nasal wall, nasal floor, and nasal septum were investigated. The posterior pedicled inferior turbinate-nasoseptal flap was designed, measured, and harvested, and its ability to cover ventral skull base defects was examined. RESULTS: The inferior turbinate artery and/or posterior lateral nasal artery had 3.19 ± 1.47 (range 2-7) branches [mean outer diameter of largest branch, 0.40 ± 0.10 (range 0.24-0.60) mm] that anastomosed with the nasoseptal artery. These anastomosing arteries allowed the posterior lateral nasal artery to supply arterial blood to the nasoseptal mucoperichondrium and mucoperiosteum. Mean flap length was 100.65 ± 5.61 (range 91.43-109.44) mm, and minimum and maximum widths were 25.21 ± 2.29 (range 22.36-30.23) and 44.53 ± 5.02 (range 36.45-54.10) mm, respectively. Mean flap area was 3090.69 ± 288.08 (range 2612.97-3880.09) mm(2). The flap covered defects extending from the frontal sinus to the foramen magnum in all specimens. CONCLUSIONS: Harvesting of a posterior pedicled inferior turbinate-nasoseptal flap is feasible. It should be considered a useful option for the reconstruction of large defects involving the anterior skull base, planum sphenoidale, sella turcica, and/or clivus.
OBJECTIVES: To develop a combined pedicled flap comprising the mucoperiosteum and mucoperichondrium of the inferior turbinate, lateral nasal wall, nasal floor, and nasal septum based on the posterior lateral nasal artery, a branch of the sphenopalatine artery, for the reconstruction of skull base defects resulting from endoscopic expanded endonasal approaches. METHODS: Eleven fresh adult cadaver heads were dissected. Arterial distribution patterns of the inferior turbinate, lateral nasal wall, nasal floor, and nasal septum were investigated. The posterior pedicled inferior turbinate-nasoseptal flap was designed, measured, and harvested, and its ability to cover ventral skull base defects was examined. RESULTS: The inferior turbinate artery and/or posterior lateral nasal artery had 3.19 ± 1.47 (range 2-7) branches [mean outer diameter of largest branch, 0.40 ± 0.10 (range 0.24-0.60) mm] that anastomosed with the nasoseptal artery. These anastomosing arteries allowed the posterior lateral nasal artery to supply arterial blood to the nasoseptal mucoperichondrium and mucoperiosteum. Mean flap length was 100.65 ± 5.61 (range 91.43-109.44) mm, and minimum and maximum widths were 25.21 ± 2.29 (range 22.36-30.23) and 44.53 ± 5.02 (range 36.45-54.10) mm, respectively. Mean flap area was 3090.69 ± 288.08 (range 2612.97-3880.09) mm(2). The flap covered defects extending from the frontal sinus to the foramen magnum in all specimens. CONCLUSIONS: Harvesting of a posterior pedicled inferior turbinate-nasoseptal flap is feasible. It should be considered a useful option for the reconstruction of large defects involving the anterior skull base, planum sphenoidale, sella turcica, and/or clivus.
Authors: Emmanuel Babin; Sylvain Moreau; Marc Goullet de Rugy; Pierre Delmas; André Valdazo; Arnaud Bequignon Journal: Otolaryngol Head Neck Surg Date: 2003-02 Impact factor: 3.497
Authors: Gustavo Hadad; Luis Bassagasteguy; Ricardo L Carrau; Juan C Mataza; Amin Kassam; Carl H Snyderman; Arlan Mintz Journal: Laryngoscope Date: 2006-10 Impact factor: 3.325