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"Live Cadaver" Model for Internal Carotid Artery Injury Simulation in Endoscopic Endonasal Skull Base Surgery

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dc.contributor.author Pacca, Paolo
dc.contributor.author Jhawar, Sukhdeep
dc.contributor.author Seclen, Daniel
dc.contributor.author Wang, Eric
dc.contributor.author Snyderman, Carl
dc.contributor.author Gardner, Paul
dc.contributor.author Aboud, Emad
dc.contributor.author Fernandez-Miranda, Juan C
dc.date.accessioned 2018-07-31T17:01:14Z
dc.date.available 2018-07-31T17:01:14Z
dc.date.issued 2017-12-01
dc.identifier.issn 2332-4260
dc.identifier.other 10.1093/ons/opx035
dc.identifier.uri https://doi.org/10.1093/ons/opx035
dc.identifier.uri http://repositorio.hospitalelcruce.org/xmlui/handle/123456789/711
dc.description Fil: Seclen, D. Hospital de Alta Complejidad en Red El Cruce Dr. Néstor C. Kirchner. Servicio de Neurocirugía. Florencio Varela, Argentina. es_AR
dc.description.abstract BACKGROUND: Intraoperative injury of the internal carotid artery (ICA) is the most dreaded complication in endoscopic endonasal surgery (EES) of skull base. Training for ICA injury is practically impossible in live operative settings. OBJECTIVE: To evaluate a pulsatile perfusion-based live cadaveric model for ICA injury simulation in a laboratory setting. The major emphasis of the study was to evaluate various means of controlling acute bleeding and evaluating the practical utility of this model for training purposes. METHODS: Five embalmed, uninjected cadaveric heads were prepared for study by connecting to a pulsatile perfusion pump system filled with artificial blood solution. EES approaches were used to evaluate different types of ICA injuries similar to operative scenarios. Various methods of managing ICA injuries such as packing, clipping, and trapping, were evaluated. The educational advantages of the live cadaver model were assessed using questionnaires given to participants in a hands-on dissection course. RESULTS: The trainee was faced with several scenarios similar to those encountered during an actual intraoperative ICA injury. Packing, clipping, and trapping of the ICA injury were successfully achieved in all segments of the ICA. Clip-based reconstruction techniques were successfully developed. All trainees reported gaining new knowledge, learning new techniques. The responses to the questionnaire confirmed the significant educational value of this model. CONCLUSION: The live cadaver model presented here provides real-life experience with major vessel injury during EES in a laboratory setting. This model could significantly improve current training for the management of intraoperative vascular injuries during EES. es_AR
dc.language.iso en_US es_AR
dc.relation.ispartofseries Operative Neurosurgery (Hagerstown, Md.);2017;13(6):732-8
dc.subject Cadáver es_AR
dc.subject Cirugía Endoscópica por Orificios Naturales es_AR
dc.subject Natural Orifice Endoscopic Surgery es_AR
dc.subject Endoscopía es_AR
dc.subject Endoscopy es_AR
dc.subject Arteria Carótida Interna es_AR
dc.subject Carotid Artery, Internal es_AR
dc.subject Base del Cráneo es_AR
dc.subject Skull Base es_AR
dc.subject Entrenamiento Simulado es_AR
dc.subject Simulation Training es_AR
dc.subject Lesiones del Sistema Vascular es_AR
dc.subject Vascular System Injuries es_AR
dc.title "Live Cadaver" Model for Internal Carotid Artery Injury Simulation in Endoscopic Endonasal Skull Base Surgery es_AR
dc.type Article es_AR


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