• Neurosurgical review · Jan 2015

    In vivo porcine training model for cranial neurosurgery.

    • Jan Regelsberger, Sven Eicker, Ioannis Siasios, Daniel Hänggi, Matthias Kirsch, Peter Horn, Peter Winkler, Stefano Signoretti, Kostas Fountas, Henry Dufour, Juan A Barcia, Oliver Sakowitz, Thomas Westermaier, Michael Sabel, and Oliver Heese.
    • Neurochirurgische Klinik, Universätsklinikum Hamburg-Eppendorf, Martinistraße 52, 20246, Hamburg, Germany, j.regelsberger@uke.de.
    • Neurosurg Rev. 2015 Jan 1; 38 (1): 157-63; discussion 163.

    AbstractSupplemental education is desirable for neurosurgical training, and the use of human cadaver specimen and virtual reality models is routine. An in vivo porcine training model for cranial neurosurgery was introduced in 2005, and our recent experience with this unique model is outlined here. For the first time, porcine anatomy is illustrated with particular respect to neurosurgical procedures. The pros and cons of this model are described. The aim of the course was to set up a laboratory scenery imitating an almost realistic operating room in which anatomy of the brain and neurosurgical techniques in a mentored environment free from time constraints could be trained. Learning objectives of the course were to learn about the microsurgical techniques in cranial neurosurgery and the management of complications. Participants were asked to evaluate the quality and utility of the programme via standardized questionnaires by a grading scale from A (best) to E (worst). In total, 154 residents have been trained on the porcine model to date. None of the participants regarded his own residency programme as structured. The bleeding and complication management (97%), the realistic laboratory set-up (89%) and the working environment (94%) were favoured by the vast majority of trainees and confirmed our previous findings. After finishing the course, the participants graded that their skills in bone drilling, dissecting the brain and preserving cerebral vessels under microscopic magnification had improved to level A and B. In vivo hands-on courses, fully equipped with microsurgical instruments, offer an outstanding training opportunity in which bleeding management on a pulsating, vital brain represents a unique training approach. Our results have shown that education programmes still lack practical training facilities in which in vivo models may act as a complementary approach in surgical training.

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