Abstract
BackgroundLow-frequency oscillations (LFO) detected in the internal globus pallidus of dystonia patients have been identified as a physiomarker for adaptive Deep Brain Stimulation (aDBS), since LFO correlate with dystonic symptoms and are rapidly suppressed by continuous DBS (cDBS). However, it is as yet unclear how LFO should be incorporated as feedback for aDBS. Objectivesto test the acute effects of aDBS, using the amplitude of short-lived LFO-bursts to titrate stimulation, to explore the immediate effects of cDBS on LFO-modulation and dystonic symptoms, and to investigate whether a difference in the resting-state LFO is present between DBS-naïve patients and patients with chronic DBS. Methodsseven patients were assessed during either DBS-implantation (n = 2) or battery replacement surgery (n = 5), and pseudorandomized in three conditions: no stimulation, cDBS, and aDBS. Additionally, resting-state LFP-recordings from patients undergoing battery replacement were compared to those obtained during DBS-implantation; LFP-recordings from a previous cohort of six dystonia patients undergoing DBS-implantation were incorporated into this analysis (total n = 8 newly implanted patients). Resultswe corroborated that a mild LFO-suppression rapidly occurs during cDBS. However, no acute changes in clinical symptoms were observed after cDBS or aDBS. Remarkably, we observed that resting-state LFO were significantly lower in patients who had been effectively treated with chronic cDBS compared to those of newly implanted patients, even when stimulation was suspended. Conclusionsour results indicate that LFO-suppression in dystonia, similar to symptom response to cDBS, might be gradual, and remain after stimulation is suspended. Therefore, tracking gradual changes in LFO may be required for aDBS implementation.
Highlights
Conventional, continuous deep brain stimulation of the in ternal globus pallidus (GPi) is an advanced treatment for dystonia
The most promising physiomarker for dystonia is the magnitude of low-frequency oscillations (LFO; 4–12 Hz) embedded in the local field potential (LFP) activity of the GPi
We explore the effects of delivering stimulation at three different timescales in dystonia patients, in order to generate datadriven hypotheses about the incorporation of Low-frequency oscillations (LFO) as feedback signal in adaptive Deep Brain Stimulation (aDBS) for dystonia
Summary
Conventional, continuous deep brain stimulation (cDBS) of the in ternal globus pallidus (GPi) is an advanced treatment for dystonia. Low-frequency oscillations (LFO) detected in the internal globus pallidus of dystonia patients have been identified as a physiomarker for adaptive Deep Brain Stimulation (aDBS), since LFO correlate with dystonic symptoms and are rapidly suppressed by continuous DBS (cDBS). It is as yet unclear how LFO should be incorporated as feedback for aDBS. We observed that resting-state LFO were significantly lower in patients who had been effectively treated with chronic cDBS compared to those of newly implanted patients, even when stimulation was suspended. Tracking gradual changes in LFO may be required for aDBS implementation
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