Federica Basaldella scite author profile

Intra-operative neurophysiology is the gold standard to localise and preserve brain functions during surgery and is increasingly used in paediatric neurosurgery. Yet, the developing nervous system has peculiar characteristics in terms of anatomical and physiological maturation, and some technical aspects need to be tailored for its use in children, especially in infants. This paper will review the most recent advances in the field of intra-operative neurophysiology (ION) techniques during brain surgery, focussing on those aspects that are relevant to the paediatric neurosurgery practice.

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Genetic profile of patients with early onset inflammatory bowel disease

Girardelli

Basaldella

Paolera

et al. 2018

Gene

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Long-term motor deficit in brain tumour surgery with preserved intra-operative motor-evoked potentials

Giampiccolo

Parisi

Meneghelli

et al. 2021

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Muscle motor evoked potentials (MEPs) are commonly monitored during brain tumour surgery in motor areas, as these are assumed to reflect the integrity of descending motor pathways, including the corticospinal tract. However, while the loss of MEPs at the end of surgery is associated with long-term motor deficits (MEP-related deficits), there is increasing evidence that motor deficit can occur despite no change in MEPs (MEP-unrelated deficits), particularly following surgery of non-primary regions involved in motor control. In this study we aimed to investigate the incidence of MEP-unrelated deficits and to identify the associated brain regions. We retrospectively reviewed one hundred and twenty-five consecutive patients who underwent surgery for peri-Rolandic lesions using intraoperative neurophysiological monitoring. Intraoperative changes in MEPs were correlated with motor outcome, assessed by the Medical Research Council scale. We performed voxel-lesion-symptom mapping to identify which resected regions were associated with short- and long-term MEP-associated motor deficits. MEP reductions significantly predicted long-term motor deficits. However, in over half of patients who experienced long-term deficits (12/22 patients), no MEP reduction was reported during surgery. Lesion analysis showed that MEP-related long-term motor deficits were associated with direct or ischemic damage to the corticospinal tract, whereas MEP-unrelated deficits occurred when supplementary motor areas were resected in conjunction with dorsal premotor regions and the anterior cingulate. Our results indicate that long-term motor deficits unrelated to the corticospinal tract can occur more often than currently reported. As these deficits cannot be predicted by MEPs, a combination of awake and/or novel asleep techniques other than MEP monitoring should be implemented.

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Feasibility of cerebello-cortical stimulation for intraoperative neurophysiological monitoring of cerebellar mutism

et al. 2021

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Background Cerebellar mutism can occur in a third of children undergoing cerebellar resections. Recent evidence proposes it may arise from uni- or bilateral damage of cerebellar efferents to the cortex along the cerebello-dento-thalamo-cortical pathway. At present, no neurophysiological procedure is available to monitor this pathway intraoperatively. Here, we specifically aimed at filling this gap. Methods We assessed 10 patients undergoing posterior fossa surgery using a conditioning-test stimulus paradigm. Electrical conditioning stimuli (cStim) were delivered to the exposed cerebellar cortex at interstimulus intervals (ISIs) of 8–24 ms prior to transcranial electric stimulation of the motor cortex, which served as test stimulus (tStim). The variation of motor-evoked potentials (MEP) to cStim + tStim compared with tStim alone was taken as a measure of cerebello-cortical connectivity. Results cStim alone did not produce any MEP. cStim preceding tStim produced a significant inhibition at 8 ms (p < 0.0001) compared with other ISIs when applied to the lobules IV-V-VI in the anterior cerebellum and the lobule VIIB in the posterior cerebellum. Mixed effects of decrease and increase in MEP amplitude were observed in these areas for longer ISIs. Conclusions The inhibition exerted by cStim at 8 ms on the motor cortex excitability is likely to be the product of activity along the cerebello-dento-thalamo-cortical pathway. We show that monitoring efferent cerebellar pathways to the motor cortex is feasible in intraoperative settings. This study has promising implications for pediatric posterior fossa surgery with the aim to preserve the cerebello-cortical pathways and thus prevent cerebellar mutism.

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