Abdulaziz A AlQahtani1, Abeer A Albathi2, Othman M Alhammad3, Abdulkarim S Alrabie3. 1. Department of Otorhinoraryngology/Head and Neck Surgery, Prince Sultan Military Medical City, P.O. Box 7897, Riyadh, 11159, Saudi Arabia. qahtani24@hotmail.com. 2. Department of Otorhinoraryngology/Head and Neck Surgery, Prince Sultan Military Medical City, P.O. Box 7897, Riyadh, 11159, Saudi Arabia. 3. Department of Neurosurgery, Prince Sultan Military Medical City, Riyadh, Saudi Arabia.
Abstract
OBJECTIVE: To study the feasibility of designing a human cadaveric simulation model of real CSF leak for rhinology training. METHOD: The laboratory investigation took place at the surgical academic center of Prince Sultan Military Medical City between 2016 and 2017. Five heads of human cadaveric specimens were cannulated into the intradural space through two frontal bone holes. Fluorescein-dyed fluid was injected intracranialy, then endoscopic endonasal iatrogenic skull base defect was created with observation of fluid leak, followed by skull base reconstruction. The outcome measures included subjective assessment of integrity of the design, the ability of creating real CSF leak in multiple site of skull base and the possibility of watertight closure by various surgical techniques. RESULTS: The fluid filled the intradural space in all specimens without spontaneous leak from skull base or extra sinus areas. Successfully, we demonstrated fluid leak from all areas after iatrogenic defect in the cribriform plate, fovea ethmoidalis, planum sphenoidale sellar and clival regions. Watertight closure was achieved in all defects using different reconstruction techniques (overly, underlay and gasket seal closure). CONCLUSION: The design is simulating the real patient with CSF leak. It has potential in the learning process of acquiring and maintaining the surgical skills of skull base reconstruction before direct involvement of the patient. This model needs further evaluation and competence measurement as training tools in rhinology training.
OBJECTIVE: To study the feasibility of designing a human cadaveric simulation model of real CSF leak for rhinology training. METHOD: The laboratory investigation took place at the surgical academic center of Prince Sultan Military Medical City between 2016 and 2017. Five heads of human cadaveric specimens were cannulated into the intradural space through two frontal bone holes. Fluorescein-dyed fluid was injected intracranialy, then endoscopic endonasal iatrogenic skull base defect was created with observation of fluid leak, followed by skull base reconstruction. The outcome measures included subjective assessment of integrity of the design, the ability of creating real CSF leak in multiple site of skull base and the possibility of watertight closure by various surgical techniques. RESULTS: The fluid filled the intradural space in all specimens without spontaneous leak from skull base or extra sinus areas. Successfully, we demonstrated fluid leak from all areas after iatrogenic defect in the cribriform plate, fovea ethmoidalis, planum sphenoidale sellar and clival regions. Watertight closure was achieved in all defects using different reconstruction techniques (overly, underlay and gasket seal closure). CONCLUSION: The design is simulating the real patient with CSF leak. It has potential in the learning process of acquiring and maintaining the surgical skills of skull base reconstruction before direct involvement of the patient. This model needs further evaluation and competence measurement as training tools in rhinology training.
Entities:
Keywords:
CSF leak; Reconstruction; Rhinology; Simulation; Skull base; Training
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