Abstract
Simple SummaryAwake surgery with cognitive monitoring has increasingly been implemented to preserve brain networks and functionality. More recently, not only surgery in the left but also in the right hemisphere, i.c., the parietal lobe, was associated with potential risk for deficits in cognitive functions, such as cognitive flexibility. We describe an explorative pilot study in an international consortium within clinical care as usual. Careful interpretation of our findings indicates that disconnection of the lateral part of the dorsal stream correlated with impaired set-shifting. More importantly, it illustrates the need for international collaboration on neuropsychological tests and methodologies to improve our understanding of white matter networks at risk during awake surgery.Awake surgery with cognitive monitoring has increasingly been implemented to preserve brain networks and functionality. More recently, not only surgery in the left but also in the right hemisphere, i.c., the parietal lobe, was associated with potential risk for deficits in cognitive functions, such as cognitive flexibility. In this explorative pilot study, we compare cognitive performance more than three months after surgery with baseline measurements and explore the association between cognitive decline and subcortical tracts that may have been severed during surgery in the right hemisphere. Twenty-two patients who underwent surgery for a right parietal low-grade glioma were assessed pre- and postoperatively using the Trail Making Test and the Stroop task to administer set-shifting abilities and inhibition. Volume measurements and lesion–symptom mapping analyses were performed on postoperative MRI scans. Careful interpretation of the results shows a change in TMT performance and not on the Stroop Task when the lateral part of the arcuate fasciculus is damaged, indicating that disconnection of the lateral part of the dorsal stream might be correlated specifically with impaired set-shifting and not with inhibition. More importantly, this study underlines the need for international concertation to allow larger studies to increase power and perform more detailed analyses.
Highlights
Monitoring cognition has become imperative in glioma surgery to preserve cognitive functions and maintain quality of life
In this explorative pilot study, thirty-six patients in which the parietal lobe was the main locus of the low-grade primary glioma were sent in for inclusion from the collaborating centres
We set out to explore the risk for a decrease in cognitive flexibility after surgery in patients with a low-grade glioma in the right parietal lobe through an international collaboration within clinical care as usual
Summary
Monitoring cognition has become imperative in glioma surgery to preserve cognitive functions and maintain quality of life. Dajani and Uddin (2015) support this finding by suggesting that the right hemisphere may be recruited with cognitive development since increased activation in right-lateralized regions and decreased activation in left-lateralized regions are seen with age in cognitive flexibility tasks [8]. This is supported by studies that show the central role of the right parietal lobe in the integration of information, as it is considered to be a network hub [9,10]
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