Long term real-world monitoring supports the superiority of adaptive deep brain stimulation: preliminary data on three patients with Parkinson’s disease

L. Caffi, R. Habib, L. Borellini, E. Mailland, F. Cogiamanian, M. Arlotti, L. Rossi, S. Bonvegna, C. Palmisano, S. Marceglia, A. Priori, G. Pezzoli, M. Locatelli, IU. Isaias (Würzburg, Germany)

Meeting: 2025 International Congress

Keywords: Deep brain stimulation (DBS), Parkinson’s

Category: Parkinson’s Disease: Clinical Trials

Objective: Describe the preliminary results of adaptive deep brain stimulation (aDBS) treatment for Parkinson’s disease (PD) and the value of real-world monitoring in defining clinical benefit.

Background: Adaptive mode holds the promise of improving DBS treatment through real-time adaptation of stimulation delivery to the patient’s needs. Given the characteristic of aDBS to vary over time, its programming and effectiveness may particularly benefit from prolonged evaluations in a real-world context.

Method: We studied three patients with Parkinson’s disease and subthalamic DBS and directional electrodes (male, age: 59-66 years, disease duration: 9-16 years, days since surgery: 42-62). The patients, blinded to treatment, received cDBS and aDBS for two weeks respectively, in randomised order, and with unchanged drug therapy. Patients were assessed blindly with different scales (MDS-UPDRS, MDS-UDysRs, FOG-Q, etc.). For three days, they filled in Hauser’s diary and were monitored in the real-world for akinetic-rigid symptoms and gait with a wearable device. In aDBS mode, our rechargeable fully implantable pulse generator applies a linear algorithm that changes the stimulation current every minute according to the average amplitude of the local field potential (LFP) calculated in a patient-specific beta frequency range.

Results: All three patients preferred aDBS over cDBS for a better improvement in motor fluctuations. One patient preferred aDBS also for a significant benefit on gait. Evaluations in the clinic were similar between the two stimulation modes. In contrast, real-world monitoring showed for all patients an increase in good-on-time (on time without troublesome dyskinesia) by an average of 2 hours per day. Subthalamic LFP were recorded successfully and correlated with the patient’s daily activities.

Conclusion: Real-world monitoring with inertial sensors can help document the additional benefit of new stimulation paradigms such as aDBS.

To cite this abstract in AMA style:

L. Caffi, R. Habib, L. Borellini, E. Mailland, F. Cogiamanian, M. Arlotti, L. Rossi, S. Bonvegna, C. Palmisano, S. Marceglia, A. Priori, G. Pezzoli, M. Locatelli, IU. Isaias. Long term real-world monitoring supports the superiority of adaptive deep brain stimulation: preliminary data on three patients with Parkinson’s disease [abstract]. Mov Disord. 2025; 40 (suppl 1). https://www.mdsabstracts.org/abstract/long-term-real-world-monitoring-supports-the-superiority-of-adaptive-deep-brain-stimulation-preliminary-data-on-three-patients-with-parkinsons-disease/. Accessed October 5, 2025.

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