Abstract: The present invention relates to a stimulation generator suitable for use in an implantable neurostimulator, including an injectable neurostimulator. The stimulation generator is adapted to provide a configurable stimulation signal comprising a component, such as a pulse. The stimulation generator comprises circuitry to receive and combine an amplitude control signal and a duty cycle signal to produce a preliminary output voltage signal which includes the component of the stimulation signal. It further comprises a voltage-controlled current source adapted to be driven by the preliminary output voltage signal; and a mode selector controlled by a stimulation mode signal to output the component from the preliminary output voltage signal as a current-controlled component of the stimulation signal via the voltage-controlled current source or as a voltage-controlled component of the stimulation signal.
Type:
Application
Filed:
December 15, 2021
Publication date:
February 22, 2024
Applicant:
Capri Medical Limited
Inventors:
Cédric ASSAMBO, Tim RING, Mike O'KEEFFE, Farhat ABBAS, John MULLINS, Fergal WARD, Muhammad USMAN
Abstract: Disclosed is a method of treating sleep apnea in a patient by operating an implanted neurostimulator implant to stimulate the genioglossus nerve branch and/or the genioglossus muscle. Also disclosed is a method of implanting a neurostimulator implant in the genioglossus muscle proximal to the genioglossus nerve branch. Further disclosed is a sleep apnea treatment system and a guide for the sleep apnea treatment system.
Type:
Application
Filed:
May 17, 2023
Publication date:
December 28, 2023
Applicant:
Capri Medical Limited
Inventors:
Fergal Ward, Ross Lewis, Ricardo Vallejo, Jorge Armando Cuartas, Michael Herzog, David Leonardo Cedeno, Willard S. Noyes
Abstract: A method of percutaneously implanting a neurostimulator implant in tissue of a patient, the neurostimulator implant having a wireless power receiver and an elongate electrode lead, includes percutaneously implanting the neurostimulator implant such that the wireless power receiver is oriented towards the skin surface of the patient at the implantation site.
Abstract: A delivery device (10) for percutaneously implanting a medical implant (1) in tissue of a patient includes a delivery sheath (12, 13, 53, 61, 62, 65, 66) adapted to at least partially surround the medical implant and carry the medical implant for percutaneous delivery in the patient's tissue. The delivery device also includes a power delivery system (37) adapted to provide electric power to the medical implant within the delivery sheath.
Abstract: The present application provides a delivery device (10) for percutaneously implanting a medical implant (1) in tissue of a patient. The delivery device comprises a delivery sheath (12, 13, 53, 61, 62, 65, 66) adapted to at least partially surround the medical implant and carry the medical implant for percutaneous delivery in the patient's tissue. The delivery device also includes a power delivery system (37) adapted to provide electric power to the medical implant within the delivery sheath.
Type:
Application
Filed:
May 17, 2023
Publication date:
December 21, 2023
Applicant:
Capri Medical Limited
Inventors:
Fergal Ward, Richard LeBaron, Zeeshan Ahmed, Ross Lewis, Donogh O'Sullivan
Abstract: A delivery device for percutaneous delivery of a medical implant into a patient's tissue includes a delivery sheath having a lumen adapted to hold the medical implant. The delivery sheath is percutaneously positionable for implanting the medical implant into the patient's tissue and includes a side wall having a side opening through which at least a part of the medical implant is ejected during use.