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Somatosensory and transcranial motor evoked potential monitoring in a porcine model for experimental procedures

Evoked potential monitoring has evolved as an essential tool not only for elaborate neurological diagnostics, but also for general clinical practice. Moreover, it is increasingly used to guide surgical procedures and prognosticate neurological outcome in the critical care unit, e.g. after cardiac ar...

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Published in:	PloS one 2018-10, Vol.13 (10), p.e0205410-e0205410
Main Authors:	Maier, Sven, Goebel, Ulrich, Krause, Sonja, Benk, Christoph, Schick, Martin A, Buerkle, Hartmut, Beyersdorf, Friedhelm, Kari, Fabian A, Wollborn, Jakob
Format:	Article
Language:	English
Subjects:	Analysis Anesthesiology Animal experimentation Animal models Biology and Life Sciences Cardiovascular system Care and treatment Computer simulation Critical care Diagnosis Electrodes Evoked potentials Experiments Heart surgery Hogs Innovations Ischemia Laboratory animals Medical innovations Medical research Medicine Medicine and Health Sciences Monitoring Motor evoked potentials Nervous system diseases Neurosurgery Physical Sciences Prognosis Research and Analysis Methods Spinal cord Surgery Surgical instruments Swine
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cited_by	cdi_FETCH-LOGICAL-c692t-2213d72b7cb50a27e20514a920ea6ccf49f9e9b21ca06e9ebbdd0e08717da1453
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creator	Maier, Sven Goebel, Ulrich Krause, Sonja Benk, Christoph Schick, Martin A Buerkle, Hartmut Beyersdorf, Friedhelm Kari, Fabian A Wollborn, Jakob
description	Evoked potential monitoring has evolved as an essential tool not only for elaborate neurological diagnostics, but also for general clinical practice. Moreover, it is increasingly used to guide surgical procedures and prognosticate neurological outcome in the critical care unit, e.g. after cardiac arrest. Experimental animal models aim to simulate a human-like scenario to deduct relevant clinical information for patient treatment and to test novel therapeutic opportunities. Porcine models are particularly ideal due to a comparable cardiovascular system and size. However, certain anatomic disparities have to be taken into consideration when evoked potential monitoring is used in animal models. We describe a non-invasive and reproducible set-up useful for different modalities in porcine models. We further illustrate hints to overcome multi-faceted problems commonly occurring while using this sophisticated technique. Our descriptions can be used to answer a plethora of experimental questions, and help to further facilitate experimental therapeutic innovation.
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subjects	Analysis Anesthesiology Animal experimentation Animal models Biology and Life Sciences Cardiovascular system Care and treatment Computer simulation Critical care Diagnosis Electrodes Evoked potentials Experiments Heart surgery Hogs Innovations Ischemia Laboratory animals Medical innovations Medical research Medicine Medicine and Health Sciences Monitoring Motor evoked potentials Nervous system diseases Neurosurgery Physical Sciences Prognosis Research and Analysis Methods Spinal cord Surgery Surgical instruments Swine
title	Somatosensory and transcranial motor evoked potential monitoring in a porcine model for experimental procedures
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