Visual Evoked Potential Monitoring in Long-term Anesthesia Maintenance and Challenging Environments for Cerebral Arteriovenous Malformation Treatment: A Technical Case Report

抄録

The monitoring of intraoperative optic nerve protection using visual evoked potential has been increasingly used in neurosurgical procedures. Although visual evoked potential is a valuable tool, its application is often hindered by anesthetic limitations and challenges related to measurement and recording environments. This case study indicates the successful use of visual evoked potential monitoring during long-term anesthesia maintenance and in artifact-prone environments for the treatment of a ruptured cerebral arteriovenous malformation. We report the case of a woman in her 30s who underwent surgical treatment for a ruptured cerebral arteriovenous malformation in the right occipital lobe, adjacent to the optic radiation. Visual evoked potential monitoring was essential during both transarterial embolization and subsequent microsurgical resection. During transarterial embolization, the implementation of improved measurement environments, localized light stimulation, and optimized recording conditions facilitated stable visual evoked potential monitoring despite the high levels of environmental noise in the angiography suite. Post-embolization, deep sedation was required to mitigate the risk of postoperative bleeding, causing an 18-hr duration of anesthesia before microsurgical resection. Despite the prolonged anesthesia, visual evoked potential monitoring was successfully maintained by carefully managing anesthesia depth. This case shows that visual evoked potential monitoring can be reliable and reproducible during extended periods of anesthesia and in challenging, artifact-rich environments. These findings underscore the feasibility of using visual evoked potential in complex neurosurgical cases, even under less-than-ideal conditions.