Oscillations of pause-burst neurons in the STN correlate with the severity of motor signs in Parkinson's disease

BACKGROUNDOscillatory activity in the subthalamic nucleus (STN) in Parkinson's disease (PD) is under extensive study. While rhythmic features of local field potentials are implicated in the manifestation of PD motor signs, less is known about single unit activity (SUA). SUA parameters inside the STN show significant heterogeneity, and various firing patterns may contribute unequally to PD pathophysiology. OBJECTIVESWe searched for correlations between SUA parameters and PD motor signs, taking neuronal activity patterns into account. METHODS829 spike trains for STN SUA were recorded during 25 DBS surgeries. We have isolated three firing patterns (tonic, irregular-burst and pause-burst) and, using mixed linear models, examined several spiking parameters and burst descriptors (for the last two patterns) for their correlation with UPDRS-III PD motor signs in the contralateral hemibody. RESULTSThe predominance of pause-burst as opposed to tonic activity was associated with a higher PD motor sign severity UPDRS-III. Spike synchronization in the alpha and beta range correlated positively with bradykinesia scores only for pause-burst neurons, while spike synchrony in the theta frequency (4-8 Hz) in these neurons showed an inverse correlation with bradykinesia scores. Other patterns showed no correlation with PD motor signs. CONCLUSIONSOur work demonstrates the PD motor state is associated with distinct changes in firing patterns and oscillatory synchronization that can be associated with PD motor sign severity. Here, pause-burst patterns were identified as most informative, potentially reflecting a progressive shift from tonic to burst to rhythmic activity in the alpha and beta frequency bands in the parkinsonian state.