Somatosensory Evoked Potentials (SSEP): Difference between revisions
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Distal peripheral nerves are stimulated for SSEP recordings; typically the median or ulnar nerve at the wrist for upper extremity SSEPs, or posterior tibial nerve at the ankle for lower extremity SSEPs. The ascending sensory volley enters the spinal cord through dorsal nerve roots. Multiple dorsal or posterior column spinal pathways such as the gracile fasciculus (legs and trunk) and the cuneate fasciculus (arms and trunk) mediate the SSEP responses. They arrive at the medulla and make synaptic connection at the medullary nuclei (nucleus cuneatus and nucleus gracilis). From there they cross and ascend in the medial lemniscal pathways to thalamic nuclei, which in turn project up to the somatosenory cortex. | Distal peripheral nerves are stimulated for SSEP recordings; typically the median or ulnar nerve at the wrist for upper extremity SSEPs, or posterior tibial nerve at the ankle for lower extremity SSEPs. The ascending sensory volley enters the spinal cord through dorsal nerve roots. Multiple dorsal or posterior column spinal pathways such as the gracile fasciculus (legs and trunk) and the cuneate fasciculus (arms and trunk) mediate the SSEP responses. They arrive at the medulla and make synaptic connection at the medullary nuclei (nucleus cuneatus and nucleus gracilis). From there they cross and ascend in the medial lemniscal pathways to thalamic nuclei, which in turn project up to the somatosenory cortex. | ||
There is no synapses between the peripheral stimulation sites and the medullary nuclei. Synapses are the sites of action for inhalational anesthetic agents. Therefore any SSEP responses recorded below the level of medullary nuclei are affected only minimally by general anesthesia. The cortical SSEP responses, however, are greatly affected by inhalational agents; whichever recorded anesthetic management is very required. | There is no synapses between the peripheral stimulation sites and the medullary nuclei. Synapses are the sites of action for inhalational anesthetic agents. Therefore any SSEP responses recorded below the level of medullary nuclei are affected only minimally by general anesthesia. The cortical SSEP responses, however, are greatly affected by inhalational agents; whichever recorded anesthetic management is very much required. | ||
== Stimulation == | == Stimulation == |
Revision as of 12:54, 25 October 2013
Somatosensory evoked potentials (SSEP) are recorded from the central nervous system following stimulation of peripheral nerves.
Introduction
Somatosensory Evoked Potentials (SSEPs) are electric signals recorded from the scalp or spine following stimulation to the peripheral nerves. They are time-locked responses, representing the function of the ascending sensory pathways. Early in the 1960s Larson et al introduced the use of somatosensory evoked potentials to monitor neural structure during neurosurgical procedures. It was utilized as a supplement to the wake-up test during correctional spinal surgeries for spinal deformities such as scoliosis to provide warning of compromised spinal cord function to the spine surgeons, as reported by McCallum et al and Nash et al in the 1970s. Since then SSEP has become one of the earliest and primary tools for intraoperative neurophysiological monitoring.
Somatosensory Pathways
Distal peripheral nerves are stimulated for SSEP recordings; typically the median or ulnar nerve at the wrist for upper extremity SSEPs, or posterior tibial nerve at the ankle for lower extremity SSEPs. The ascending sensory volley enters the spinal cord through dorsal nerve roots. Multiple dorsal or posterior column spinal pathways such as the gracile fasciculus (legs and trunk) and the cuneate fasciculus (arms and trunk) mediate the SSEP responses. They arrive at the medulla and make synaptic connection at the medullary nuclei (nucleus cuneatus and nucleus gracilis). From there they cross and ascend in the medial lemniscal pathways to thalamic nuclei, which in turn project up to the somatosenory cortex.
There is no synapses between the peripheral stimulation sites and the medullary nuclei. Synapses are the sites of action for inhalational anesthetic agents. Therefore any SSEP responses recorded below the level of medullary nuclei are affected only minimally by general anesthesia. The cortical SSEP responses, however, are greatly affected by inhalational agents; whichever recorded anesthetic management is very much required.
Stimulation
Recording Techniques
Waveform
Intraoperative Monitoring
Anesthesia and Other Factors
References
- Larson SJ, Sances A. Evoked potentials in man: neurosurgical applications. Am J Surg 1966; 111: 857-861.
- McCallum JE, Bennett MH. Electrophysiologic monitoring of spinal cord function during intraspinal surgery. Surg Forum 1975; 26: 469-471.
- Nash CL, Long RA, Schatzinger LA, Brown RH. Spinal cord monitoring during operative treatment of the spine. Clin Orthop 1977; 126: 100-105.
- Powers SK, Bolger CA, Edwards MSB. Spinal cord pathways mediating somatosensory evoked potentials. J Neurosurg 1982; 57: 472-82.
- Simpson RK JR, Blackburn JG, Martin HF III, Katz S. Peripheral nerve fibers and spinal cord pathway contribution to the somatosensory evoked potentials. Exp Neurol 1981; 73: 700-15.
- Toleikis JR. Intraoperative monitoring using somatosensory evoked potentials: A position statement by the American Society of Neurophysiological Monitoring. J Clin Monit Comput. 2005; 19(3):241-58.