Deep Learning and fMRI-Based Pipeline for Optimization of Deep Brain Stimulation During Parkinson's Disease Treatment: Toward Rapid Semi-Automated Stimulation Optimization.

Journal: IEEE journal of translational engineering in health and medicine
PMID: 39247846

Abstract

OBJECTIVE: Optimized deep brain stimulation (DBS) is fast becoming a therapy of choice for the treatment of Parkinson's disease (PD). However, the post-operative optimization (aimed at maximizing patient clinical benefits and minimizing adverse effects) of all possible DBS parameter settings using the standard-of-care clinical protocol requires numerous clinical visits, which substantially increases the time to optimization per patient (TPP), patient cost burden and limit the number of patients who can undergo DBS treatment. The TPP is further elongated in electrodes with stimulation directionality or in diseases with latency in clinical feedback. In this work, we proposed a deep learning and fMRI-based pipeline for DBS optimization that can potentially reduce the TPP from ~1 year to a few hours during a single clinical visit.

Authors

  • Jianwei Qiu
    GE HealthCare, Troy, NY, USA.
  • Afis Ajala
    GE HealthCare Technology & Innovation Center Niskayuna NY 12309 USA.
  • John Karigiannis
    GE Global Research Niskayuna NY 12309 USA.
  • Jurgen Germann
    Division of Neurosurgery, Department of Surgery, University Health Network and University of Toronto, Toronto, ON, Canada.
  • Brendan Santyr
    Division of NeurosurgeryDepartment of SurgeryUniversity Health Network Toronto ON M5G 2C4 Canada.
  • Aaron Loh
    Division of Neurosurgery, Department of Surgery, University Health Network and University of Toronto, Toronto, ON, Canada.
  • Luca Marinelli
  • Thomas Foo
    GE HealthCare Technology & Innovation Center Niskayuna NY 12309 USA.
  • Radhika Madhavan
  • Desmond Yeo
    GE HealthCare Technology & Innovation Center Niskayuna NY 12309 USA.
  • Alexandre Boutet
    Joint Department of Medical Imaging, University of Toronto, Toronto, Canada.
  • Andrés Lozano
    Department of Communication Engineering, University of Málaga, Málaga, Spain.

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