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Journal of Clinical Monitoring and Computing
Published in: Journal of Clinical Monitoring and Computing 1/2020

01-02-2020 | Motor Evoked Potential | Brief Communication

Somatosensory evoked potential loss due to intraoperative pulse lavage during spine surgery: case report and review of signal change management

Authors: Arun George, Hironobu Hayashi, John F. Bebawy, Antoun Koht

Published in: Journal of Clinical Monitoring and Computing | Issue 1/2020

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Abstract

Intraoperative neurophysiologic monitoring (IONM) includes various neurophysiologic tests which assess the functional integrity of the central and peripheral nervous systems during surgical procedures which place these structures at risk for iatrogenic injury. The rational for using IONM is to provide timely feedback of changes in neural function to enable the reversal of such insult before the development of irreversible neural injury. There are various causes of intraoperative loss of neuromonitoring signals and it is important to systematically rule out all possible causes quickly and thoroughly in order to target the cause of signal loss, correct it and take measures to prevent the same in the future. One such rare cause, is targeted and pressurized cold (room temperature) irrigation of the surgical site, which may induce irritation and vasospasm leading to ischemia of the affected portion of the spinal cord, hence leading to signal changes. We present this case to stress the importance of having knowledgeable members of the team who are well acquainted with all aspects of monitoring in close proximity to the operating room, so as to minimize troubleshooting time. Furthermore, we suggest the use of warm (body temperature) saline during irrigation to the surgical site, especially when using pressurized irrigation systems.
Literature
1.
Devlin VJ, Schwartz DM. Intraoperative neurophysiologic monitoring during spinal surgery. JAAOS 2007;15(9):549–60.PubMed
2.
Koht A, Sloan TB, Toleikis JR. Monitoring applications and evaluating changes. In: Koht A, Sloan T, Toleikis J, editors. Monitoring the nervous system for anesthesiologists and other health care professionals. Boston: Springer; 2017.CrossRef
3.
Tamaki T, Kubota S. History of the development of intraoperative spinal cord monitoring. Eur Spine J 2007;16(2):140–6.CrossRef
4.
Merton PA, Morton HB. Stimulation of the cerebral cortex in the intact human subject. Nature. 1980;285(5762):227.CrossRef
5.
Sloan TB, Heyer EJ. Anesthesia for intraoperative neurophysiologic monitoring of the spinal cord. J Clin Neurophysiol. 2002;19(5):430–43.CrossRef
6.
Grundy BL, Jannetta PJ, Procopio PT, Lina A, Boston JR, Doyle E. Intraoperative monitoring of brain-stem auditory evoked potentials. J Neurosurg. 1982;57(5):674–81.CrossRef
7.
Grundy BL. Monitoring of sensory evoked potentials during neurosurgical operations: methods and applications. Neurosurgery. 1982;11(4):556–75.CrossRef
8.
Klee MR, Pierau FK, Faber DS. Temperature effects on resting potential and spike parameters of cat motoneurons. Exp Brain Res. 1974;19:478–92.CrossRef
9.
Desmedt JE. Somatosensory evoked potentials in neuromonitoring. In: Desmedt JE, editor. Neuromonitoring for surgery. Amsterdam: Elsevier; 1989. pp. 1–22.
10.
Weight FF, Erulkar SD. Synaptic transmission and effects of temperature at the squid giant synapse. Nature. 1976;261:720–2.CrossRef
11.
Dolman J, Silvay G, Zappulla R, Toth C, Erickson N, Mindich BP, et al. The effect of temperature, mean arterial pressure, and cardiopulmonary bypass flows on somatosensory evoked potential latency in man. Thorac Cardiovasc Surg. 1986;34:217–22.CrossRef
12.
Lang M, Welte M, Syben R, Hansen D. Effects of hypothermia on median nerve somatosensory evoked potentials during spontaneous circulation. J Neurosurg Anesthesiol. 2002;14:141–5.CrossRef
13.
Mackey-Hargadine JR, Hall JW III. Sensory evoked responses in head injury. Cent Nerv Syst Trauma. 1985;2(3):187–206.CrossRef
14.
Deutsch E, Sohmer H, Weidenfeld J, Zelig S, Chowers I. Auditory nerve brain-stem evoked potentials and EEG during severe hypoglycemia. Electroencephalogr Clin Neurophysiol. 1983;55:714–6.CrossRef
15.
Bebawy JF, Gupta DK, Koht A. Compartment syndrome caused by a properly functioning infusion pump. J Clin Anesth. 2011;23(2):134–6.CrossRef
16.
Kalkman CJ, Drummond JC, Ribberink AA, Patel PM, Sano T, Bickford RG. Effects of propofol, etomidate, midazolam, and fentanyl on motor evoked responses to transcranial electrical or magnetic stimulation in humans. Anesthesiology. 1992;76(4):502–9.CrossRef
17.
Sloan TB. General anesthesia for monitoring. In: Koht A, Sloan T, Toleikis J, editors. Monitoring the nervous system for anesthesiologists and other health care professionals. Boston: Springer; 2012.
18.
Asouhido I, Katsardis V, Vaidis G, Ioannou P, Givissis P, Christodoulou A, et al. Seoseamrchatosensory evoked potentials suppression due to remifentanil during spinal operations; a prospective clinical study. Scoliosis. 2010;5:8–13.CrossRef
19.
Sloan TB, Heyer EJ. Anesthesia for intraoperative neurophysiologic monitoring of the spinal cord. J Clin Neurophysiol. 2002;19:430–43.CrossRef
20.
Lo YL, Dan YF, Tan YE, et al. Intra-operative monitoring in scoliosis surgery with multi-pulse cortical stimuli and desflurane anesthesia. Spinal Cord. 2004;42:342–5.CrossRef
21.
Ubags LH, Kalkman CJ, Been HD. Influence of isoflurane on myogenic motor evoked potentials to single and multiple transcranial stimuli during nitrous oxide/opioid anesthesia. Neurosurgery. 1998;43:90–4.CrossRef
22.
Raynor BL, Bright JD, Lenke LG, Ra’Kerry KR, Bridwell KH, Riew KD, Buchowski JM, Luhmann SJ, Padberg AM. Significant change or loss of intraoperative monitoring data: a 25-year experience in 12,375 spinal surgeries. Spine. 2013;38(2):E101-8.CrossRef
23.
Koht A, Sloan T, Ronai A, Toleikis JR. Intraoperative deterioration of evoked potentials during spinal surgery. In Spinal cord monitoring 1985 (pp. 161–166). Springer, Berlin, Heidelberg.CrossRef
24.
York DH, Chabot RJ, Gaines RW. Response variability of somatosensory evoked potentials during scoliosis surgery. Spine. 1987;12(9):864–76.CrossRef
Metadata
Title
Somatosensory evoked potential loss due to intraoperative pulse lavage during spine surgery: case report and review of signal change management
Authors
Arun George
Hironobu Hayashi
John F. Bebawy
Antoun Koht
Publication date
01-02-2020
Publisher
Springer Netherlands
Published in
Journal of Clinical Monitoring and Computing / Issue 1/2020
Print ISSN: 1387-1307
Electronic ISSN: 1573-2614
DOI
https://doi.org/10.1007/s10877-019-00294-z

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