Targeting the centromedian thalamic nucleus for deep brain stimulation

Objectives: Deep brain stimulation (DBS) of the centromedian thalamic nucleus (CM) is an emerging treatment for multiple brain diseases, including the drug-resistant epilepsy Lennox-Gastaut syndrome (LGS). We aimed to improve neurosurgical targeting of the CM by (i) developing a structural MRI approach for CM visualisation, (ii) identifying the CM9s neurophysiological characteristics, and (iii) mapping connectivity from CM-DBS sites using functional MRI (fMRI). Methods: Nineteen patients with LGS (mean age=28 years) underwent pre-surgical 3 tesla MRI using magnetisation-prepared 2 rapid acquisition gradient echoes (MP2RAGE) and fMRI sequences; 16 proceeded to bilateral CM-DBS implantation and intraoperative microelectrode recordings (MERs) from the thalamus. CM visualisation was achieved by highlighting intrathalamic borders on MP2RAGE using Sobel edge-detection. Mixed-effects analysis compared two MER features (spike firing rate, background noise) between ventrolateral, CM, and parafasicular nuclei. Resting-state fMRI connectivity was assessed using implanted CM-DBS electrode positions as regions-of-interest. Results: The CM appeared as a hyperintense region bordering the comparatively hypointense pulvinar, mediodorsal, and parafasicular nuclei. At the group-level, reduced spike firing and background noise distinguished CM from the ventrolateral nucleus; however, these trends were not found in 20-25% of individual MER trajectories. Areas of fMRI connectivity included basal ganglia, brainstem, cerebellum, sensorimotor/premotor and limbic cortex. Conclusions: In the largest clinical trial cohort of LGS patients undergoing CM-DBS reported to date, we show that accurate targeting of the CM is achievable using 3 tesla MP2RAGE MRI. MERs may provide additional localising features in some cases, however their utility is limited by inter-patient variability. Therapeutic effects of CM-DBS may be mediated via connectivity with brain networks that support diverse arousal, cognitive, and sensorimotor processes.