STMO-9 Maximal safe glioma resection using high resolution exoscope

INTRODUCTION: Maximal safe glioma resection should be achieved using neuronavigation, electrophysiological monitoring, fluorescence visual system, and so on. Heads-up surgery with exoscope is suitable for the multimodal glioma surgery because multi-monitors come in our sights simultaneously. We introduce our glioma surgery using a latest exoscope and neuronavigation system. METHODS: We attempted maximal safe resection for the patients with high grade glioma using 3D/4K exoscope with 5-ALA-induced fluorescence, neuronavigation, and electrophysiological monitoring or awake mapping. An extent of resection, morbidity, and postoperative infarction were retrospectively reviewed. RESULTS: Twenty-one patients (age 26–79, male 11/female 10, glioblastoma 10/lower grade glioma 11, general anesthesia 16/awake craniotomy 5) underwent exoscopic tumor removal. Neuronavigation and electrophysiological monitoring were displayed in sub-monitors close to the main screen. Navigation could be recognized continuously using electromagnetic navigation technology. Intraoperative fluorescence was observed in 100% of the tumor with gadolinium enhancement. Surrounding structures such as white matter, vessels and nerves were clearly visualized under blue light. Supra-total resection or gross total resection was achieved in 8 (80%) of the patients with glioblastoma. Surgical morbidity included hemiparesis in 1 (4.8%) patient, hemianopsia in 1 (4.8%) patient. Postoperative infarction was observed in 2 (9.5%) patients, which was significantly lower compared to 23 of 77 (29.9%) patients with glioblastoma who underwent tumor resection with fluorescence-equipped microscope (p<0.05). CONCLUSION: High resolution exoscope surgery is effective for patients undergoing glioma surgery with respect to higher extent of resection and lower ischemic complication. Further studies are needed to assess direct comparisons between exoscope and microscope glioma resection.