Figure 8 - uploaded by Faisal R. Jahangiri
Content may be subject to copyright.
Visual Evoked Potentials (VEP) responses during tumor resection showing present ERG and loss of VEP responses to left eye stimulation (Left), and present ERG and absent VEP responses to right eye stimulation (Right). Green arrow: baseline P100 responses, Red arrows: loss of P100 responses.
Source publication
This case report illustrates the benefit of utilizing Intraoperative Neurophysiological Monitoring (IONM) during the resection of an optic nerve lesion. A multimodality IONM utilized Electroretinogram (ERG), Visual Evoked Potentials (VEP) and Electroencephalography (EEG).
A 47-year-old female presented with left intracranial meningioma and decreas...
Citations
Visual evoked potential, or VEP is a neuromonitoring modality specifically used for evoking and recording neural signals in the visual/optic pathway – specifically, for detecting injuries surrounding the optic nerve and pre-chiasmatic areas. Visual Evoked Potentials (VEP), also known as Visual Evoked Response (VER), is a type of electrophysiological testing to measure the electrical potential resulting from a visual stimulus. VEP neuromonitoring is prescribed for individuals suffering from different visual pathologies such as multiple sclerosis, loss of vision, abnormalities in color vision, blurred or/and double vision, etc. There are two types of VEPs – pattern VEPs (PVEP) and flash VEPs (FVEP). Pattern VEPs is when the clinician asks the patient to watch a checkered pattern on a screen while recording optic neural signals from the brain. On the other hand, flash VEPs are almost the same type of test but with light-omitting goggles instead of presenting a visual pattern. Light-omitting goggles are placed on the eyes bilaterally, and responses are recorded from visual pathways, including the cornea, optic chiasm, and the occipital lobe (visual cortex). Both tests take no longer than an hour in duration in outpatient clinics. Some factors could influence the VEP responses, such as age, gender, or any medication taken before the test that could produce drowsiness in the patient; thus, it is important to follow instructions from the professional in charge of the neuromonitoring assessment.
