Application and Value of Evoked Potential Technique in Diagnosis of Patients with Consciousness Disorder

Authors

  • Shuai He Shaanxi University of Chinese Medicine, Xianyang 712046, Shaanxi, China
  • Xiao Chen Xi'an TCM Hospital of Encephalopathy, Xi'an 710068, Shaanxi, China

DOI:

https://doi.org/10.53469/jcmp.2024.06(08).35

Keywords:

Evoked potential technology, Brainstem auditory evoked potential, Somatosensory evoked potential, Disturbance of consciousness

Abstract

Consciousness disorder is a common nervous system disease, its etiology is complicated, diagnosis and treatment is difficult. In recent years, evoked potential technology, as a non-invasive neuroelectrophysiological method, provides objective evaluation indicators by recording the brain's electrical activity to stimulation, provides opportunities for early diagnosis and treatment, evaluates the therapeutic effect and guides rehabilitation training. This article will discuss the application and value of evoked potential technology in the diagnosis of patients with consciousness disorders.

References

Jiang, J. Y., Gao, G. Y., Feng, J. F., Mao, Q., Chen, L. G., Yang, X. F., Liu, J. F., Wang, Y. H., Qiu, B. H., & Huang, X. J. (2019). Traumatic brain injury in China. The Lancet. Neurology, 18(3), 286–295.

Gao Y, Yang J, Ma L L, et al. [J] Gao Y, Yang J, Ma L L, et al. Application value of somatosensory evoked potential, brainstem auditory evoked potential and P300 detection in prognosis of patients with persistent vegetative state [J]. Chinese Journal of Marine Medicine and Hyperbaric Medicine,2019, (05):412-413-414-415.

Di Stadio, A., Dipietro, L., Ralli, M., Meneghello, F., Minni, A., Greco, A., Stabile, M. R., & Bernitsas, E. (2018). Sudden hearing loss as an early detector of multiple sclerosis: a systematic review. European review for medical and pharmacological sciences, 22(14), 4611–4624.

Carter, B.G., Butt, W. A prospective study of outcome predictors after severe brain injury in children. Intensive Care Med 31, 840-845 (2005).

Laureys, S., Owen, A. M., & Schiff, N. D. (2004). Brain function in coma, vegetative state, and related disorders. The Lancet. Neurology, 3(9), 537–546.

Thibaut A, Bruno MA, Chatelle C, et al. Metabolic activity in external and internal awareness networks in severely brain-damaged patients. Journal of Rehabilitation Medicine. 2012 May; 44 (6): 487-494.

Laureys, S., Celesia, G. G., Cohadon, F., Lavrijsen, J., Leon-Carrion, J., Sannita, W. G., Sazbon, L., Schmutzhard, E., von Wild, K. R., Zeman, A., Dolce, G., & European Task Force on Disorders of Consciousness (2010). Unresponsive wakefulness syndrome: a new name for the vegetative state or apallic syndrome. BMC medicine, 8, 68.

Zhang M D, Chen X S. Brain evoked potentials [M]. Shanghai: Shanghai Science and Technology Education Press,1995:105-106.

HU C C. The value of brainstem auditory evoked potential in the early warning of progressive cerebral ischemic stroke [D]; Bengbu Medical College, 2017.

Chen Xiwen. Study on correlation between brainstem auditory evoked potential and behavioral evaluation in patients with chronic consciousness disorder [D]. Nanchang university, 2023. DOI: 10.27232 /, dc nki. Gnchu. 2023.000843.

Pan Y F. Clinical evoked potential [M]. Beijing: People's Medical Publishing House, 2000:74,75, 78-84.

Meng Jiangtao. Study on the value of diffusion tensor imaging combined with motor evoked potential in prognosis assessment of cerebral infarction patients with hemiplegia [D]. Shanxi medical university, 2023. DOI: 10.27288 /, dc nki. Gsxyu. 2023.000912.

Guerit J. M. (2010). Neurophysiological testing in neurocritical care. Current opinion in critical care, 16(2), 98-104.

Estraneo, A., Moretta, P., Loreto, V., Lanzillo, B., Cozzolino, A., Saltalamacchia, A., Lullo, F., Santoro, L., & Trojano, L. (2013). Predictors of recovery of responsiveness in prolonged anoxic vegetative state. Neurology, 80(5), 464-470.

Hu Huihua. Somatosensory evoked potential and brainstem auditory evoked potential in predicting prognosis of cerebrovascular disease patients [J]. Chinese Journal of Applied Neurological Diseases, 2019,22(04):386-391.

Andre-Obadia N, Zyss J, Gavaret M, et al... Recommendations for the use of electroencephalography and evoked potentials in comatose patients. Neurophysiol Clin 2018; 48:14 3-169.

Chen X. Clinical study on EEG and evoked potential in 80 patients with persistent vegetative state [J]. Clinical medicine literature electronic journal, 2017, 4 (33): 6405. DOI: 10.16281 / j.carol carroll nki jocml. 2017.33.046.

Wang Lei. Clinical study of brain stem auditory evoked potential and midbrain morphology on prognosis assessment of coma patients with severe craniocerebral injury [D]. Southern Medical University,2012.

Fang H, Guo Y, Wang JF. Significance of brainstem auditory evoked potential, V-wave threshold and visual evoked potential in the diagnosis of cerebral palsy children [J]. Journal of Epilepsy and Neuroelectrophysiology, 2019, 28 (1): 26-29.

Wang X, Yang J. Application of auditory evoked potential in the detection of severe brain function [J]. Chinese Pediatric Emergency Medicine, 2017, 24 (6): 420-424.

Zheng Jianghuan. Evaluation value of event-related potential, ambulate electroencephalogram combined with brainstem auditory evoked potential in coma patients [J]. Chinese Journal of Gerontology, 2017,37(03):627-629.

Liu Chunming, Liu Yun, He Liping, et al. Clinical characteristics of brainstem auditory evoked potential in children with brain injury syndrome [J]. Journal of Kunming Medical University, 2019,40 (3): 78-82. (in Chinese)

Ke H, Duan C Z, Wang C L, TSEP combined with BAEP monitoring for predicting the effect of microvascular decompression in trigeminal neuralgia and hearing loss [J]. Journal of Guangxi Medical University, 20, 37 (7): 1297-1301.

Lu W W, Dong H F. Early diagnosis of acute bilirubin encephalopathy in neonates by brainstem auditory evoked potential [J]. Journal of Bengbu Medical College, 2019, 46 (6): 748-750.

Feng Y, Xiao Nong, Chen YX, et al. Somatosensory evoked potential and brainstem auditory evoked potential in predicting the recovery of consciousness in children with severe consciousness disorder during convalescence [J]. Journal of Clinical Pediatrics, 2016,34 (11): 806-810.

Zhang XG, Du Yanru, Han Shuang, et al. Effect of different doses of cis-atracurium on monitoring somatosensory evoked potential combined with motor evoked potential in neurosurgical patients [J]. Clinical Misdiagnosis and Treatment, 2019,32 (4): 20-25. (in Chinese)

He Y, Li Y L, Shao Xicang, et al. Correlation analysis of short latency somatosensory evoked potential, F-wave and nerve function in patients with cervical spinal cord injury without fracture and dislocation [J]. Journal of Epilepsy and Neuroelectrophysiology, 2019,28 (5): 279-283, 287.

Singh, H., Vogel, R. W., Lober, R. M., Doan, A. T., Matsumoto, C. I., Kenning, T. J., & Evans, J. J. (2016). Intraoperative Neurophysiological Monitoring for Endoscopic Endonasal Approaches to the Skull Base: A Technical Guide. Scientifica, 2016, 1751245.

Downloads

Published

2024-08-21

How to Cite

He, S., & Chen, X. (2024). Application and Value of Evoked Potential Technique in Diagnosis of Patients with Consciousness Disorder. Journal of Contemporary Medical Practice, 6(8), 169–172. https://doi.org/10.53469/jcmp.2024.06(08).35