18624644. SYSTEM AND METHOD FOR LEAD PLACEMENT BY EVOKED POTENTIAL simplified abstract (Boston Scientific Neuromodulation Corporation)

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SYSTEM AND METHOD FOR LEAD PLACEMENT BY EVOKED POTENTIAL

Organization Name

Boston Scientific Neuromodulation Corporation

Inventor(s)

G. Karl Steinke of Valencia CA (US)

Soroush Niketeghad of Stevenson Ranch CA (US)

Tomasz Mark Fraczek of Yucaipa CA (US)

SYSTEM AND METHOD FOR LEAD PLACEMENT BY EVOKED POTENTIAL - A simplified explanation of the abstract

This abstract first appeared for US patent application 18624644 titled 'SYSTEM AND METHOD FOR LEAD PLACEMENT BY EVOKED POTENTIAL

The document discusses a computer-implemented method of operating a neurostimulation device to deliver electrical neurostimulation when connected to an implantable stimulation lead. The method includes delivering neurostimulation to a subject that produces evoked potential signals, sensing the evoked potential signals resulting from the neurostimulation, detecting changes in the sensed evoked potential signals in response to a change in at least one of the number of repeated presentations of the neurostimulation or a change in a parameter of the first neurostimulation, and producing an indication of proximity of the stimulation lead to a preferred lead location according to the detected changes in the evoked potential signals.

  • Delivering electrical neurostimulation through an implantable stimulation lead
  • Sensing evoked potential signals produced by the neurostimulation
  • Detecting changes in the sensed evoked potential signals
  • Producing an indication of proximity of the stimulation lead to a preferred lead location
  • Responding to changes in the evoked potential signals to optimize lead location

Potential Applications: - Medical devices for neurostimulation therapy - Neurological disorders treatment - Pain management techniques

Problems Solved: - Optimizing the placement of stimulation leads for effective neurostimulation - Enhancing the precision and accuracy of neurostimulation therapy

Benefits: - Improved treatment outcomes for patients - Enhanced targeting of specific neural pathways - Increased efficiency and effectiveness of neurostimulation therapy

Commercial Applications: Neurostimulation device manufacturers can utilize this technology to develop advanced products for the medical market, catering to patients with neurological disorders and chronic pain conditions.

Questions about Neurostimulation Device Optimization: 1. How does this technology improve the accuracy of neurostimulation therapy?

  - This technology utilizes evoked potential signals to detect changes and optimize the placement of stimulation leads, resulting in more precise targeting of neural pathways.

2. What are the potential long-term benefits of using this method in neurostimulation therapy?

  - By optimizing lead location, this method can lead to improved treatment outcomes, reduced side effects, and enhanced patient comfort over time.


Original Abstract Submitted

This document discusses a computer-implemented method of operating a neurostimulation device to deliver electrical neurostimulation when connected to an implantable stimulation lead. The method includes delivering neurostimulation to a subject that produces evoked potential signals, sensing the evoked potential signals resulting from the neurostimulation, detecting changes in the sensed evoked potential signals in response to a change in at least one of the number of repeated presentations of the neurostimulation or a change in a parameter of the first neurostimulation, and producing an indication of proximity of the stimulation lead to a preferred lead location according to the detected changes in the evoked potential signals.