Intra-Stimulus Recruitment Control

Organization Name

Saluda Medical Pty Ltd

Inventor(s)

Dean Michael Karantonis of Macquarie Park (AU)

Peter Scott Vallack Single of Macquarie Park (AU)

James Hamilton Wah of Macquarie Park (AU)

Intra-Stimulus Recruitment Control - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240033522 titled 'Intra-Stimulus Recruitment Control

Simplified Explanation

The abstract of this patent application describes a method for recording evoked neural responses. It involves delivering a stimulus to a neural pathway using stimulus electrodes, which generates an evoked compound action potential (ECAP) on the neural pathway. During the delivery of the stimulus, a neural compound action potential signal is recorded using measurement circuitry and sensed at sense electrodes. The recorded signal is then processed to determine at least one characteristic of the ECAP. Based on this determined characteristic, at least one characteristic of the stimulus is defined.

• The patent/application describes a method for recording evoked neural responses.
• It involves delivering a stimulus using electrodes and recording the neural compound action potential signal.
• The recorded signal is processed to determine at least one characteristic of the evoked compound action potential (ECAP).
• Based on the determined characteristic of the ECAP, at least one characteristic of the stimulus is defined.

Potential Applications:

• Neuroscience research: This technology can be used in neuroscience research to study and understand neural pathways and responses.
• Medical diagnostics: It can be applied in medical diagnostics to assess the health and functionality of neural pathways.
• Prosthetics and rehabilitation: The technology can be used in the development of prosthetics and rehabilitation techniques to interface with the nervous system.

Problems Solved:

• Non-invasive measurement: The method allows for non-invasive measurement of neural compound action potentials, reducing the need for invasive procedures.
• Characterization of neural responses: It provides a way to characterize the evoked compound action potentials, enabling better understanding of neural pathways and responses.
• Objective assessment: The technology allows for objective assessment of neural responses, reducing the reliance on subjective measures.

Benefits:

• Improved research capabilities: The method provides researchers with a tool to study and analyze neural responses in a more precise and objective manner.
• Enhanced diagnostics: It can contribute to more accurate and reliable diagnostics of neural disorders and conditions.
• Advancements in prosthetics and rehabilitation: The technology can aid in the development of more advanced prosthetics and rehabilitation techniques by providing a better understanding of neural pathways and responses.

Original Abstract Submitted

recording evoked neural responses comprises delivering a stimulus from one or more stimulus electrodes to a neural pathway in order to give rise to an evoked compound action potential (ecap) on the neural pathway. and, recording with measurement circuitry, during delivery of at least part of the stimulus, a neural compound action potential signal sensed at one or more sense electrodes. and, processing the recording of the neural compound action potential signal to determine at least one characteristic of the ecap. at least one characteristic of the stimulus is then defined based on the determined at least one characteristic of the ecap.