Results 51 to 60 of about 59,004 (115)
Use of transcranial motor evoked potentials (TcMEPs) in spine deformity surgery in a case of Charcot-Marie-tooth disease-what we should know? A case report. [PDF]
Spinal Cord Ser CasesSrivastava A +3 more
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Transcranial Motor Evoked Potentials as a Predictive Modality for Postoperative Deficit in Cervical Spine Decompression Surgery - A Systematic Review and Meta-Analysis. [PDF]
Global Spine JReddy RP +10 more
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Seminars in Anesthesia, Perioperative Medicine and Pain, 1994
During the last decade, somatosensory evoked potentials (SSEP) have become established as a practical method for monitoring the spinal cord during various surgical procedures where there is a risk of paraplegia, e.g., scoliosis surgery, thoracic aortic surgery, and neurosurgical procedures upon the spinal cord. However, it has also become apparent that
O, Keren, H, Ring
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During the last decade, somatosensory evoked potentials (SSEP) have become established as a practical method for monitoring the spinal cord during various surgical procedures where there is a risk of paraplegia, e.g., scoliosis surgery, thoracic aortic surgery, and neurosurgical procedures upon the spinal cord. However, it has also become apparent that
O, Keren, H, Ring
openaire +3 more sources
Physical Medicine and Rehabilitation Clinics of North America, 2004
Noninvasive electrical stimulation of the human brain first was attempted in the 1950s. In the early 1980s, the first clinical application method of transcranial electrical stimulation was developed. Investigators in the mid-1980s showed that it was possible to stimulate the nerve and the brain using external magnetic stimulation (transcranial magnetic
Young H, Sohn, Mark, Hallett
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Noninvasive electrical stimulation of the human brain first was attempted in the 1950s. In the early 1980s, the first clinical application method of transcranial electrical stimulation was developed. Investigators in the mid-1980s showed that it was possible to stimulate the nerve and the brain using external magnetic stimulation (transcranial magnetic
Young H, Sohn, Mark, Hallett
openaire +3 more sources
International Anesthesiology Clinics, 1990
A complication resulting from surgery for spinal deformity and certain types of aortic aneurysms is a loss of spinal cord function. In order to detect the intraoperative occurrence of this event, techniques, that monitor spinal cord function are administered.
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A complication resulting from surgery for spinal deformity and certain types of aortic aneurysms is a loss of spinal cord function. In order to detect the intraoperative occurrence of this event, techniques, that monitor spinal cord function are administered.
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2017
The term “motor evoked potential” (MEP) commonly refers to the action potential elicited by non-invasive (magnetic) stimulation of the motor cortex through the scalp. MEPs can be recorded using surface electromyography from all skeletal muscles and are mediated by fast-conducting cortico-motoneuronal connections projecting monosynaptically to the alpha-
Abbruzzese G., Trompetto C.
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The term “motor evoked potential” (MEP) commonly refers to the action potential elicited by non-invasive (magnetic) stimulation of the motor cortex through the scalp. MEPs can be recorded using surface electromyography from all skeletal muscles and are mediated by fast-conducting cortico-motoneuronal connections projecting monosynaptically to the alpha-
Abbruzzese G., Trompetto C.
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2021
Abstract Motor evoked potentials can be generated by either electrical or magnetic stimulation of the corticospinal pathways. Direct activation of pyramidal cells and indirect activation of cortical interneurons generate impulses that propagate down the spinal cord as D-waves and I-waves, ultimately stimulating anterior horn cells and ...
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Abstract Motor evoked potentials can be generated by either electrical or magnetic stimulation of the corticospinal pathways. Direct activation of pyramidal cells and indirect activation of cortical interneurons generate impulses that propagate down the spinal cord as D-waves and I-waves, ultimately stimulating anterior horn cells and ...
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2013
AbstractTranscranial electrical stimulationhas provided important insights into motor physiology and pathophysiology, although discomfort associated with scalp stimulation limits its practical application. Painless transcranial magnetic stimulation has generally replaced electric shock, gaining wide acceptance in the clinical study.
Jay L. Shils, Vedran Deletis
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AbstractTranscranial electrical stimulationhas provided important insights into motor physiology and pathophysiology, although discomfort associated with scalp stimulation limits its practical application. Painless transcranial magnetic stimulation has generally replaced electric shock, gaining wide acceptance in the clinical study.
Jay L. Shils, Vedran Deletis
openaire +2 more sources
A comparison of somatosensory evoked and motor evoked potentials in stroke
Annals of Neurology, 1989AbstractNineteen patients with radiologically confirmed stroke, and varying degrees of hemiparesis, were studied using somatosensory evoked potentials and the recently developed technique of transcutaneous motor cortex stimulation. The functional deficit caused by stroke was assessed at the time of evoked potential testing and again on follow‐up 2 ...
R A, Macdonell, G A, Donnan, P F, Bladin
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