Transitions between repetitive tapping and upper limb freezing show impaired movement-related beta band modulation

•We observed movement-related beta power modulation during finger movements in PD.•This modulation was attenuated before upper limb freezing occurred.•Synchronization increased between the fronto-parietal and the sensorimotor area. Freezing phenomena in idiopathic Parkinson’s disease (PD) constitute an important unaddressed therapeutic need. Changes in cortical neurophysiological signatures may precede a single freezing episode and indicate the evolution of abnormal motor network processes. Here, we hypothesize that the movement-related power modulation in the beta-band observed during regular finger tapping, deteriorates in the transition period before upper limb freezing (ULF). We analyzed a 36-channel EEG of 13 patients with PD during self-paced repetitive tapping of the right index finger. In offline analysis, we compared the transition period immediately before ULF (‘transition’) with regular tapping regarding movement-related power modulation and interregional phase synchronization. From time-frequency analyses, we observed that the tap cycle related beta-band power modulation over the left sensorimotor area was diminished in the transition period before ULF. Furthermore, increased beta-band power was observed in the transition period compared to regular tapping centered over the left centro-parietal and right frontal areas. Phase synchronization between the left fronto-parietal areas and the left sensorimotor area was elevated during transition compared to regular tapping. Together, these results indicate that diminished beta band power modulation and increased phase synchronization precede ULF. We demonstrate that pathological cortical motor processing is present in the transition phase from regular tapping to an ULF episode.