Precision surgery of rolandic glioma and insights from extended functional mapping

Abstract

Objectives: Electrical cortical stimulation mapping (ECSM) is the current gold standard functional mapping technique; however, it is burdened by several limitations. Our objective in this study is to show that extended functional mapping modalities can (1) allow neurosurgeons to map and preserve eloquent regions that are inaccessible by the traditional ECSM technique and (2) factor into the operative decision-making process and surgical trajectory during resection of Rolandic brain tumors.

Patients and methods: A 55year old patient having a right Rolandic glioblastoma underwent subdural grid implantation followed by surgical resection. Multimodal functional mapping including electrical stimulation, high gamma power mapping, functional magnetic resonance imaging, and diffusion tensor imaging were performed to define the location of the patient's eloquent cortex and white matter tracts in relation to the tumor and determine the optimal surgical trajectory prior to resection.

Results: The patient tolerated a safe surgical resection without any new postoperative deficits. ECSM mapping successfully delineated safe areas for resection as well as eloquent areas related to motor control and speech production. High gamma power analysis successfully mapped areas involved in arm reach. Functional MRI showed the regions related to finger tapping. DTI demonstrated the corticospinal tract and its relation to the hand motor cortex and the tumor.

Conclusion: Adjunct mapping techniques used to supplement the data offered by ECSM can help advance the field of functional mapping and Rolandic surgery via broadening our accessibility to the human brain and providing a comprehensive map of eloquent grey and white matter structures and their relation to the tumor.

Keywords: Cortical stimulation; DTI; Epilepsy; Functional mapping; High gamma; Rolandic glioma; fMRI.