Abstract
Objective: The intraoperative identification and preservation of optic radiations (OR) during tumor resection requires the patient to be awake. Different tasks are used. However, they do not grant the maintenance of foveal vision during all testing, limiting the ability to constantly monitor the peripheral vision and to inform about the portion of the peripheral field that is encountered. Although hemianopia can be prevented, quadrantanopia cannot be properly avoided. To overcome these limitations, we developed an intra-operative Visual field Task (iVT) to monitor the foveal vision, alerting about the likelihood of injuring the OR during task administration, and to inform about the portion of the peripheral field that is explored. Data on feasibility and efficacy in preventing visual field deficits are reported, comparing the outcome with the standard available task (Double-Picture-Naming-Task, DPNT).Methods: Patients with a temporal and/or parietal lobe tumor in close morphological relationship with the OR, or where the resection can involve the OR at any extent, without pre-operative visual-field deficits (Humphrey) were enrolled. Fifty-four patients were submitted to iVT, 38 to DPNT during awake surgery with brain mapping neurophysiological techniques. Feasibility was assessed as ease of administration, training and mapping time, and ability to alert about the loss of foveal vision. Type and location of evoked interferences were registered. Functional outcome was evaluated by manual and Humphrey test; extent of resection was recorded. Tractography was performed in a sample of patients to compare patient anatomy with intraoperative stimulation site(s).Results: The test was easy to administer and detected the loss of foveal vision in all cases. Stimulation induced visual-field interferences, detected in all patients, classified as detection or discrimination errors. Detection was mostly observed in temporal tumors, discrimination in temporo-parietal ones. Immediate visual disturbances in DPNT group were registered in 84 vs. 24% of iVT group. At 1-month Humphrey evaluation, 26% of iVT vs. 63% of DPNT had quadrantanopia (32% symptomatic); 10% of DPNT had hemianopia. EOR was similar. Detection errors were induced for stimulation of OR; discrimination also for other visual processing tract (ILF).Conclusion: iVT was feasible and sensitive to preserve the functional integrity of the OR.
Highlights
In contemporary neurosurgical oncology, the preservation of full functional integrity is crucial to grant patients’ quality of Life (QoL) [1,2,3]
IVT was installed on the same tablet used for all task presentations for mapping
The Intraoperative Visual Task (iVT) could be administered in both positions and all patients were able to complete the task
Summary
The preservation of full functional integrity is crucial to grant patients’ quality of Life (QoL) [1,2,3]. The duration of the stimuli in this study is short; the subjects were required to merely report whether they saw (detection) a luminous spot stimulus, but not to describe it (discrimination) To overcome these limitations, we developed a new Intraoperative Visual Task (iVT), designed to continuously monitor the detection and the discrimination of the stimuli, requiring the patient to keep the foveal vision on a central fixation point while peripheral targets are shown peripherally. We developed a new Intraoperative Visual Task (iVT), designed to continuously monitor the detection and the discrimination of the stimuli, requiring the patient to keep the foveal vision on a central fixation point while peripheral targets are shown peripherally This enables the neuropsychologist to alert the surgeon as to when central fixation is lost during its administration, preventing the occurrence of false-negative responses
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