Patents by Inventor Elizabeth M. Annoni
Elizabeth M. Annoni has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20230121855Abstract: A virtual or augmented reality system is disclosed which is capable of both (i) evaluating prospective implantable neurostimulator patient candidates, and (ii) determining optimal stimulation settings for already-implanted neurostimulation patients. Physiological sensors are included with the system to provide objective measurements relevant to a patient's symptoms, such as pain in a Spinal Cord Stimulation (SCS) system. Such objective measurements are determined during the presentation of various virtual or augmented environments, and can be useful to determining which patients are suitable candidates to consider for implantation. Stimulation settings for already-implanted patients may be adjusted while presenting a virtual or augmented environment to the patient, with objective measurements being determined for each stimulation setting. Such objective measurements can then be used to determine optimal stimulation settings for the patient.Type: ApplicationFiled: December 20, 2022Publication date: April 20, 2023Inventors: Elizabeth M. Annoni, Bryan A. Clark, Dennis Zottola, Kyle H. Srivastava, Jonathan B. Shute
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Patent number: 11559355Abstract: A virtual or augmented reality system is disclosed which is capable of both (i) evaluating prospective implantable neurostimulator patient candidates, and (ii) determining optimal stimulation settings for already-implanted neurostimulation patients. Physiological sensors are included with the system to provide objective measurements relevant to a patient's symptoms, such as pain in a Spinal Cord Stimulation (SCS) system. Such objective measurements are determined during the presentation of various virtual or augmented environments, and can be useful to determining which patients are suitable candidates to consider for implantation. Stimulation settings for already-implanted patients may be adjusted while presenting a virtual or augmented environment to the patient, with objective measurements being determined for each stimulation setting. Such objective measurements can then be used to determine optimal stimulation settings for the patient.Type: GrantFiled: June 17, 2019Date of Patent: January 24, 2023Assignee: Boston Scientific Neuromodulation CorporationInventors: Elizabeth M. Annoni, Bryan A. Clark, Dennis Zottola, Kyle H. Srivastava, Jonathan B. Shute
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Publication number: 20200376262Abstract: A stimulation lead includes light emitters disposed along the distal portion of the lead and stimulation electrodes disposed along the distal portion of the lead with a portion of the lead upon which at least one of the light emitters and at least one of the electrodes is disposed is arranged to form a coil or spiral. Another stimulation lead includes a lead body; a paddle or cuff attached to the lead body; light emitters disposed on the paddle or cuff; and stimulation electrodes disposed on the paddle or cuff. Yet another stimulation lead includes a lead body; a paddle or cuff attached to the lead body; at least one long electrode disposed on the paddle or cuff and extending at least 50% of a width or length of the paddle or cuff; and segmented stimulation electrodes disposed in at least one row or column on the paddle or cuff.Type: ApplicationFiled: May 26, 2020Publication date: December 3, 2020Inventors: Bryan Allen Clark, Elizabeth M. Annoni
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Patent number: 10750994Abstract: An example of a system for managing pain may include a pain monitoring circuit, a pain relief device, and a control circuit. The pain monitoring circuit may include a parameter analyzer and a pain score generator. The parameter analyzer may be configured to receive and analyze at least two parameters selected from a physiological parameter indicative of a physiological function or state of a patient, a functional parameter indicative of a physical activity or state of the patient, or a patient parameter including subjective information provided by the patient. The pain score generator may be configured to compute a composite pain score using an outcome of the analysis. The composite pain score may indicate a degree of the pain. The pain relief device may be configured to deliver a pain-relief therapy. The control circuit may be configured to control the delivery of the pain-relief therapy using the composite pain score.Type: GrantFiled: August 28, 2017Date of Patent: August 25, 2020Assignee: Boston Scientific Neuromodulation CorporationInventors: Elizabeth M. Annoni, Bryan Allen Clark, Pramodsingh Hirasingh Thakur, Jianwen Gu, James John Kleinedler, Kyle Harish Srivastava, David J. Ternes, David L. Perschbacher, Rosana Esteller
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Patent number: 10610688Abstract: Systems and methods for managing pain in patient are described. A system may include sensors configured to sense physiological or functional signals, and a pain analyzer to generate signal metrics from the physiological or functional signals. The pain analyzer also generates weight factors corresponding to the signal metrics. The weight factors may indicate the signal metrics reliability in representing an intensity of the pain. The pain analyzer generates a pain score using a plurality of signal metrics and a plurality of weight factors. The pain score may be output to a user or a process. The system may additionally include an electrostimulator to generate and deliver closed-loop pain therapy according to the pain score.Type: GrantFiled: September 21, 2017Date of Patent: April 7, 2020Assignee: Boston Scientific Neuromodulation CorporationInventors: Pramodsingh Hirasingh Thakur, Jianwen Gu, Bryan Allen Clark, David J. Ternes, David L. Perschbacher, James John Kleinedler, Elizabeth M. Annoni
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Publication number: 20200069366Abstract: A system and method for denervation where a catheter includes a radially expandable member, the radially expandable member including an exterior surface, a plurality of electrodes on the exterior surface configured for delivery of energy during a denervation procedure in a vessel, and a chemical agent coating on the exterior surface, wherein the chemical agent inhibits or prevents nerve regeneration. The radially expandable member is configured to have a first unexpanded configuration and a second expanded configuration, and is configured to bring the exterior surface in contact with a wall of a vessel when it is in the expanded configuration.Type: ApplicationFiled: August 28, 2019Publication date: March 5, 2020Inventors: Bryan Allen Clark, Vijay Koya, Elizabeth M. Annoni, Hong Cao
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Publication number: 20200030035Abstract: A virtual or augmented reality system is disclosed which is capable of both (i) evaluating prospective implantable neurostimulator patient candidates, and (ii) determining optimal stimulation settings for already-implanted neurostimulation patients. Physiological sensors are included with the system to provide objective measurements relevant to a patient's symptoms, such as pain in a Spinal Cord Stimulation (SCS) system. Such objective measurements are determined during the presentation of various virtual or augmented environments, and can be useful to determining which patients are suitable candidates to consider for implantation. Stimulation settings for already-implanted patients may be adjusted while presenting a virtual or augmented environment to the patient, with objective measurements being determined for each stimulation setting. Such objective measurements can then be used to determine optimal stimulation settings for the patient.Type: ApplicationFiled: June 17, 2019Publication date: January 30, 2020Inventors: Elizabeth M. Annoni, Bryan A. Clark, Dennis Zottola, Kyle H. Srivastava, Jonathan B. Shute
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Publication number: 20190254740Abstract: Devices, systems, and methods for regulating glucose levels, including treating diabetes, in accordance with the present disclosure may include a catheter having an expandable or inflatable portion, one or more electrodes disposed on the expandable or inflatable portion of the catheter, wherein the electrodes are configured to deliver energy to a patient's gastrointestinal tract, and a drug delivery mechanism for delivering a drug therapy subsequent to energy delivery by the electrodes. A method for regulating glucose levels according to the present disclosure may include inserting a catheter into a patient's gastrointestinal tract, positioning the catheter in a duodenum of the patient's gastrointestinal tract, expanding or inflating a portion of the catheter in the duodenum, the expandable or inflatable portion of the catheter including electrodes, applying energy to the duodenum via the electrodes to ablate tissue of the duodenum, and delivering a drug therapy to the ablated tissue of the duodenum.Type: ApplicationFiled: February 19, 2019Publication date: August 22, 2019Inventors: Vijay Koya, Elizabeth M. Annoni, Bryan A. Clark, Bruce Forsyth, Hong Cao, Matthew R. DeWitt, Kyle H. Srivastava
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Publication number: 20180085055Abstract: An example of a system for managing pain may include a pain monitoring circuit, a pain relief device, and a control circuit. The pain monitoring circuit may include a parameter analyzer and a pain score generator. The parameter analyzer may be configured to receive and analyze at least two parameters selected from a physiological parameter indicative of a physiological function or state of a patient, a functional parameter indicative of a physical activity or state of the patient, or a patient parameter including subjective information provided by the patient. The pain score generator may be configured to compute a composite pain score using an outcome of the analysis. The composite pain score may indicate a degree of the pain. The pain relief device may be configured to deliver a pain-relief therapy. The control circuit may be configured to control the delivery of the pain-relief therapy using the composite pain score.Type: ApplicationFiled: August 28, 2017Publication date: March 29, 2018Inventors: Elizabeth M. Annoni, Bryan Allen Clark, Pramodsingh Hirasingh Thakur, Jianwen Gu, James John Kleinedler, Kyle Harish Srivastava, David J. Ternes, David L. Perschbacher, Rosana Esteller
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Publication number: 20180085584Abstract: Systems and methods for managing pain in patient are described. A system may include sensors configured to sense physiological or functional signals, and a pain analyzer to generate signal metrics from the physiological or functional signals. The pain analyzer also generates weight factors corresponding to the signal metrics. The weight factors may indicate the signal metrics reliability in representing an intensity of the pain. The pain analyzer generates a pain score using a plurality of signal metrics and a plurality of weight factors. The pain score may be output to a user or a process. The system may additionally include an electrostimulator to generate and deliver closed-loop pain therapy according to the pain score.Type: ApplicationFiled: September 21, 2017Publication date: March 29, 2018Inventors: Pramodsingh Hirasingh Thakur, Jianwen Gu, Bryan Allen Clark, David J. Ternes, David L. Perschbacher, James John Kleinedler, Elizabeth M. Annoni