npj Parkinson's Disease (Apr 2022)

Toward therapeutic electrophysiology: beta-band suppression as a biomarker in chronic local field potential recordings

  • Lucia K. Feldmann,
  • Roxanne Lofredi,
  • Wolf-Julian Neumann,
  • Bassam Al-Fatly,
  • Jan Roediger,
  • Bahne H. Bahners,
  • Petyo Nikolov,
  • Timothy Denison,
  • Assel Saryyeva,
  • Joachim K. Krauss,
  • Katharina Faust,
  • Esther Florin,
  • Alfons Schnitzler,
  • Gerd-Helge Schneider,
  • Andrea A. Kühn

DOI
https://doi.org/10.1038/s41531-022-00301-2
Journal volume & issue
Vol. 8, no. 1
pp. 1 – 9

Abstract

Read online

Abstract Adaptive deep brain stimulation (aDBS) is a promising concept for feedback-based neurostimulation, with the potential of clinical implementation with the sensing-enabled Percept neurostimulator. We aim to characterize chronic electrophysiological activity during stimulation and to validate beta-band activity as a biomarker for bradykinesia. Subthalamic activity was recorded during stepwise stimulation amplitude increase OFF medication in 10 Parkinson’s patients during rest and finger tapping. Offline analysis of wavelet-transformed beta-band activity and assessment of inter-variable relationships in linear mixed effects models were implemented. There was a stepwise suppression of low-beta activity with increasing stimulation intensity (p = 0.002). Low-beta power was negatively correlated with movement speed and predictive for velocity improvements (p < 0.001), stimulation amplitude for beta suppression (p < 0.001). Here, we characterize beta-band modulation as a chronic biomarker for motor performance. Our investigations support the use of electrophysiology in therapy optimization, providing evidence for the use of biomarker analysis for clinical aDBS.