The Neurodiagnostic journal
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Detecting potential intraoperative injuries to the femoral nerve should be the main goal of neuromonitoring of lateral lumber interbody fusion (LLIF) procedures. We propose a theory and technique to utilize motor evoked potentials (MEPs) to protect the femoral nerve (a peripheral nerve), which is at risk in LLIF procedures. MEPs have been advocated and widely used for monitoring spinal cord function during surgical correction of spinal deformity and surgery of the cervical and thoracic spine, but have had limited acceptance for use in lumbar procedures. ⋯ Insult to the fully formed femoral nerve, which completely blocks conduction in motor axons, should theoretically abolish all MEP responses to the quadriceps muscles. On multiple occasions over the past year, our neuro-monitoring groups have observed significantly degraded amplitudes of the femoral motor and/or sensory evoked potentials limited to only the surgical side. Most of these degraded response amplitudes rapidly returned to baseline values with a surgical intervention (i.e., prompt removal of surgical retraction).
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Sleep is integral to the health and well-being of all people. Sleep disorders are on the rise and affect millions of people in America. Misconceptions about sleep are prevalent, and the negative effects of poor sleep on society are underrepresented. ⋯ The beginnings of these solutions lie in the hands of healthcare workers and educational institutions. Interventions in the form of questionnaires have been validated as effective in determining a person's risk of sleep apnea. The STOP-BANG questionnaire is one such intervention that may be useful by allied health professionals to assist in patient screening of sleep apnea.
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Review
Current trends in pedicle screw stimulation techniques: lumbosacral, thoracic, and cervical levels.
Unequivocally, pedicle screw instrumentation has evolved as a primary construct for the treatment of both common and complex spinal disorders. However an inevitable and potentially major complication associated with this type of surgery is misplacement of a pedicle screw(s) which may result in neural and vascular complications, as well as impair the biomechanical stability of the spinal instrumentation resulting in loss of fixation. In light of these potential surgical complications, critical reviews of outcome data for treatment of chronic, low-back pain using pedicle screw instrumentation concluded that "pedicle screw fixation improves radiographically demonstrated fusion rates;" however the expense and complication rates for such constructs are considerable in light of the clinical benefit (Resnick et al. 2005a). ⋯ In particular free-run and triggered EMG have been well recognized in numerous publications for improving both the accuracy and safety of pedicle screw implantation. Currently, treatment with pedicle screw instrumentation routinely involves all levels of the spine - lumbosacral, thoracic, and cervical. Significant historical events, various neuromonitoring modalities, intraoperative alarm criteria, clinical efficacy, current trends, and caveats related to pedicle screw stimulation along the entire vertebral column will be reviewed.
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Review Case Reports
Reversible posterior leukoencephalopathy syndrome: a case presentation.
Reversible posterior leukoencephalopathy syndrome (RPLS) is encountered in many subspecialty areas of medical practice but is seen relatively infrequently by the neurodiagnostic technologist. There are several different names for this condition including: reversible posterior leukoencephalopathy, reversible posterior leukoencephalopathy syndrome, posterior reversible encephalopathy syndrome, and hypertensive encephalopathy. A brief review of RPLS and the case presentation of a woman who developed eclampsia, temporary blindness, and recurrent seizures captured by EEG/video monitoring are presented in this paper EEG samples and brain magnetic resonance imaging (MRI) changes related to RPLS are highlighted.