Patents by Inventor Scott Lempka
Scott Lempka 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: 20240033514Abstract: One aspect of the present disclosure is a system including a waveform generator, a controller, and an electrical contact. The waveform generator is for generating an electrical nerve conduction block (ENCB). The controller is coupled with the waveform generator. The controller is configured to receive an input comprising at least one parameter to adjust the ENCB. The electrical contact is coupled with the waveform generator. The electrical contact is configured to be placed into contact with a nerve. The electrical contact comprises a high charge capacity material that prevents formation of damaging electro-chemical products at a charge delivered by the ENCB. The electrical contact is configured to deliver the ENCB to the nerve to block transmission of a signal related to a pain through the nerve.Type: ApplicationFiled: October 9, 2023Publication date: February 1, 2024Inventors: Niloy Bhadra, Narendra Bhadra, Kevin L. Kilgore, Scott Lempka, Jesse Wainright, Tina Vrabec, Manfred Franke
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Patent number: 11872394Abstract: Described herein are systems and methods for the treatment of pain using electrical nerve conduction block (ENCB). Contrary to other methods of pain treatment, the ENCB can establish a direct block of neural activity, thereby eliminating the pain. Additionally, the ENCB can be administered without causing electrochemical damage. An example method can include: placing at least one electrode contact in electrical communication with a region of a subject's spinal cord; applying an electrical nerve conduction block (ENCB) to a nerve in the region through the at least one electrode contact; and blocking neural activity with the ENCB to reduce the pain or other unwanted sensation in the subject.Type: GrantFiled: May 13, 2021Date of Patent: January 16, 2024Assignees: CASE WESTERN RESERVE UNIVERAITY, NATIONAL INSTITUTES OF HEALTH (NIH), U.S. DEPT. OF HEALTH AND HUMAN SERVICES (DHHS), U.S. GOVERNMENTInventors: Niloy Bhadra, Narendra Bhadra, Kevin L Kilgore, Scott Lempka, Jesse Wainright, Tina Vrabec, Manfred Franke
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Patent number: 11779762Abstract: One aspect of the present disclosure is a system including a waveform generator, a controller, and an electrical contact. The waveform generator is for generating an electrical nerve conduction block (ENCB). The controller is coupled with the waveform generator. The controller is configured to receive an input comprising at least one parameter to adjust the ENCB. The electrical contact is coupled with the waveform generator. The electrical contact is configured to be placed into contact with a nerve. The electrical contact comprises a high charge capacity material that prevents formation of damaging electro-chemical products at a charge delivered by the ENCB. The electrical contact is configured to deliver the ENCB to the nerve to block transmission of a signal related to a pain through the nerve.Type: GrantFiled: December 10, 2020Date of Patent: October 10, 2023Assignee: CASE WESTERN RESERVE UNIVERSITYInventors: Niloy Bhadra, Narendra Bhadra, Kevin L. Kilgore, Scott Lempka, Jesse Wainright, Tina Vrabec, Manfred Franke
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Patent number: 11318300Abstract: Described herein are systems and methods for the treatment of pain using electrical nerve conduction block (ENCB). Contrary to other methods of pain treatment, the ENCB can establish a direct block of neural activity, thereby eliminating the pain. Additionally, the ENCB can be administered without causing electrochemical damage. An example method can include: placing at least one electrode contact in electrical communication with a region of a subject's spinal cord; applying an electrical nerve conduction block (ENCB) to a nerve in the region through the at least one electrode contact; and blocking neural activity with the ENCB to reduce the pain or other unwanted sensation in the subject.Type: GrantFiled: November 3, 2017Date of Patent: May 3, 2022Assignee: CASE WESTERN RESERVE UNIVERSITYInventors: Niloy Bhadra, Narendra Bhadra, Kevin L. Kilgore, Scott Lempka, Tina Vrabec, Manfred Franke
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Patent number: 11291832Abstract: Embodiments discussed herein facilitate identification of a target area within a region of a brain for stimulation via one or more BS (Brain Stimulation) electrodes. One example embodiment comprises generating, based on radiological imaging of a region of a brain of a patient and BS electrode lead(s), a patient-specific anatomical model of the region and lead(s); populating the patient-specific anatomical model with neuron models based on associated neuronal densities of at least one of the region or one or more sub-regions of the region; constructing a patient-specific local field potential (LFP) model of the region based on the patient-specific anatomical model and location(s)/orientation(s) of the one or more BS electrode leads; and identifying, via the patient-specific LFP model of the region, a target area within the region for at least one of monitoring or treatment of a medical condition via the one or more BS electrode leads.Type: GrantFiled: April 29, 2019Date of Patent: April 5, 2022Assignee: Case Western Reserve UniversityInventors: Cameron McIntyre, Nicholas Maling, Scott Lempka
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Publication number: 20210275802Abstract: Described herein are systems and methods for the treatment of pain using electrical nerve conduction block (ENCB). Contrary to other methods of pain treatment, the ENCB can establish a direct block of neural activity, thereby eliminating the pain. Additionally, the ENCB can be administered without causing electrochemical damage. An example method can include: placing at least one electrode contact in electrical communication with a region of a subject's spinal cord; applying an electrical nerve conduction block (ENCB) to a nerve in the region through the at least one electrode contact; and blocking neural activity with the ENCB to reduce the pain or other unwanted sensation in the subject.Type: ApplicationFiled: May 13, 2021Publication date: September 9, 2021Inventors: Niloy Bhadra, Narendra Bhadra, Kevin L. Kilgore, Scott Lempka, Jesse Wainright, Tina Vrabec, Manfred Franke
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Patent number: 11033734Abstract: Described herein are systems and methods for the treatment of pain using electrical nerve conduction block (ENCB). Contrary to other methods of pain treatment, the ENCB can establish a direct block of neural activity, thereby eliminating the pain. Additionally, the ENCB can be administered without causing electrochemical damage. An example method can include: placing at least one electrode contact in electrical communication with a region of a subject's spinal cord; applying an electrical nerve conduction block (ENCB) to a nerve in the region through the at least one electrode contact; and blocking neural activity with the ENCB to reduce the pain or other unwanted sensation in the subject.Type: GrantFiled: February 4, 2019Date of Patent: June 15, 2021Assignee: CASE WESTERN RESERVE UNIVERSITYInventors: Niloy Bhadra, Narendra Bhadra, Kevin L. Kilgore, Scott Lempka, Jesse Wainright, Tina Vrabec, Manfred Franke
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Publication number: 20210113840Abstract: One aspect of the present disclosure is a system including a waveform generator, a controller, and an electrical contact. The waveform generator is for generating an electrical nerve conduction block (ENCB). The controller is coupled with the waveform generator. The controller is configured to receive an input comprising at least one parameter to adjust the ENCB. The electrical contact is coupled with the waveform generator. The electrical contact is configured to be placed into contact with a nerve. The electrical contact comprises a high charge capacity material that prevents formation of damaging electro-chemical products at a charge delivered by the ENCB. The electrical contact is configured to deliver the ENCB to the nerve to block transmission of a signal related to a pain through the nerve.Type: ApplicationFiled: December 10, 2020Publication date: April 22, 2021Inventors: Niloy Bhadra, Narendra Bhadra, Kevin L. Kilgore, Scott Lempka, Jesse Wainright, Tina Vrabec, Manfred Franke
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Patent number: 10864373Abstract: One aspect of the present disclosure is a system including a waveform generator, a controller, and an electrical contact. The waveform generator is for generating an electrical nerve conduction block (ENCB). The controller is coupled with the waveform generator. The controller is configured to receive an input comprising at least one parameter to adjust the ENCB. The electrical contact is coupled with the wave-form generator. The electrical contact is configured to be placed into contact with a nerve. The electrical contact comprises a high charge capacity material that prevents formation of damaging electro-chemical products at a charge delivered by the ENCB. The electrical contact is configured to deliver the ENCB to the nerve to block transmission of a signal related to a pain through the nerve.Type: GrantFiled: December 15, 2016Date of Patent: December 15, 2020Assignee: CASE WESTERN RESERVE UNIVERSITYInventors: Niloy Bhadra, Narendra Bhadra, Kevin L. Kilgore, Scott Lempka, Jesse Wainright, Tina Vrabec, Manfred Franke
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Publication number: 20200001071Abstract: Embodiments discussed herein facilitate identification of a target area within a region of a brain for stimulation via one or more BS (Brain Stimulation) electrodes. One example embodiment comprises generating, based on radiological imaging of a region of a brain of a patient and BS electrode lead(s), a patient-specific anatomical model of the region and lead(s); populating the patient-specific anatomical model with neuron models based on associated neuronal densities of at least one of the region or one or more sub-regions of the region; constructing a patient-specific local field potential (LFP) model of the region based on the patient-specific anatomical model and location(s)/orientation(s) of the one or more BS electrode leads; and identifying, via the patient-specific LFP model of the region, a target area within the region for at least one of monitoring or treatment of a medical condition via the one or more BS electrode leads.Type: ApplicationFiled: April 29, 2019Publication date: January 2, 2020Inventors: Cameron McIntyre, Nicholas Maling, Scott Lempka
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Publication number: 20190269921Abstract: Described herein are systems and methods for the treatment of pain using electrical nerve conduction block (ENCB). Contrary to other methods of pain treatment, the ENCB can establish a direct block of neural activity, thereby eliminating the pain. Additionally, the ENCB can be administered without causing electrochemical damage. An example method can include: placing at least one electrode contact in electrical communication with a region of a subject's spinal cord; applying an electrical nerve conduction block (ENCB) to a nerve in the region through the at least one electrode contact; and blocking neural activity with the ENCB to reduce the pain or other unwanted sensation in the subject.Type: ApplicationFiled: November 3, 2017Publication date: September 5, 2019Inventors: Niloy Bhadra, Narendra Bhadra, Kevin L. Kilgore, Scott Lempka, Tina Vrabec, Manfred Franke
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Publication number: 20190167996Abstract: Described herein are systems and methods for the treatment of pain using electrical nerve conduction block (ENCB). Contrary to other methods of pain treatment, the ENCB can establish a direct block of neural activity, thereby eliminating the pain. Additionally, the ENCB can be administered without causing electrochemical damage. An example method can include: placing at least one electrode contact in electrical communication with a region of a subject's spinal cord; applying an electrical nerve conduction block (ENCB) to a nerve in the region through the at least one electrode contact; and blocking neural activity with the ENCB to reduce the pain or other unwanted sensation in the subject.Type: ApplicationFiled: February 4, 2019Publication date: June 6, 2019Inventors: Niloy Bhadra, Narendra Bhadra, Kevin L. Kilgore, Scott Lempka, Jesse Wainright, Tina Vrabec, Manfred Franke
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Patent number: 10195434Abstract: Described herein are systems and methods for the treatment of pain using electrical nerve conduction block (ENCB). Contrary to other methods of pain treatment, the ENCB can establish a direct block of neural activity, thereby eliminating the pain. Additionally, the ENCB can be administered without causing electrochemical damage. An example method can include: placing at least one electrode contact in electrical communication with a region of a subject's spinal cord; applying an electrical nerve conduction block (ENCB) to a nerve in the region through the at least one electrode contact; and blocking neural activity with the ENCB to reduce the pain or other unwanted sensation in the subject.Type: GrantFiled: November 7, 2016Date of Patent: February 5, 2019Assignee: Case Western Reserve UniversityInventors: Niloy Bhadra, Narendra Bhadra, Kevin L. Kilgore, Scott Lempka, Jesse Wainright, Tina Vrabec, Manfred Franke
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Publication number: 20180361155Abstract: One aspect of the present disclosure is a system including a waveform generator, a controller, and an electrical contact. The waveform generator is for generating an electrical nerve conduction block (ENCB). The controller is coupled with the waveform generator. The controller is configured to receive an input comprising at least one parameter to adjust the ENCB. The electrical contact is coupled with the wave-form generator. The electrical contact is configured to be placed into contact with a nerve. The electrical contact comprises a high charge capacity material that prevents formation of damaging electro-chemical products at a charge delivered by the ENCB. The electrical contact is configured to deliver the ENCB to the nerve to block transmission of a signal related to a pain through the nerve.Type: ApplicationFiled: December 15, 2016Publication date: December 20, 2018Inventors: Niloy Bhadra, Narendra Bhadra, Kevin L. Kilgore, Scott Lempka, Jesse Wainright, Tina Vrabec, Manfred Franke
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Patent number: 9981123Abstract: One aspect of the present disclosure relates to lead assemblies for stimulating tissue. The lead assemblies can include lead bodies that are slidably coupled to each other and include one or more contacts that are moveably disposed within the slits of the lead bodies. The positions of the one or more contacts can be adjusted to change the direction of stimulation. For example, the positions of the one or more contacts can be adjusted based on theoretically-optimal positions determined from a patient-specific computer model. Parameters of the stimulation applied by the one or more contacts can also be optimized based on the patient-specific computer model.Type: GrantFiled: June 1, 2017Date of Patent: May 29, 2018Assignee: The Cleveland Clinic FoundationInventors: Andre G. Machado, Mark S. Lobosky, Karl West, Scott Lempka
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Publication number: 20170266435Abstract: One aspect of the present disclosure relates to lead assemblies for stimulating tissue. The lead assemblies can include lead bodies that are slidably coupled to each other and include one or more contacts that are moveably disposed within the slits of the lead bodies. The positions of the one or more contacts can be adjusted to change the direction of stimulation. For example, the positions of the one or more contacts can be adjusted based on theoretically-optimal positions determined from a patient-specific computer model. Parameters of the stimulation applied by the one or more contacts can also be optimized based on the patient-specific computer model.Type: ApplicationFiled: June 1, 2017Publication date: September 21, 2017Inventors: Andre G. Machado, Mark S. Lobosky, Karl West, Scott Lempka
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Patent number: 9731117Abstract: One aspect of the present disclosure relates to lead assemblies for stimulating tissue. The lead assemblies can include lead bodies that are slid ably coupled to each other and include one or more contacts that are movably disposed within the slits of the lead bodies. The positions of the one or more contacts can be adjusted to change the direction of stimulation. For example, the positions of the one or more contacts can be adjusted based on theoretically-optimal positions determined from a patient-specific computer model. Parameters of the stimulation applied by the one or more contacts can also be optimized based on the patient-specific computer model.Type: GrantFiled: June 1, 2015Date of Patent: August 15, 2017Assignee: The Cleveland Clinic FoundationInventors: Andre G. Machado, Mark S. Lobosky, Karl West, Scott Lempka
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Patent number: 9694181Abstract: Described herein are methods of treating various neurological disorders using electrical nerve conduction block (ENCB) without causing electrochemical damage. Examples of the various neurological disorders can include pain, muscle spasticity, hyperhidrosis, vertigo, sialorrhea, or the like. The methods can include placing an electrode contact in electrical communication with a nerve that transmits a signal related to the neurological disorder. The method also includes applying an ENCB to the nerve through the electrode contact. The electrode contact can include a high charge capacity material that prevents formation of damaging electrochemical reaction products at a charge delivered by the ENCB. The method also includes blocking transmission of the signal related to the neurological disorder through the nerve with the ENCB to treat the neurological disorder.Type: GrantFiled: December 15, 2015Date of Patent: July 4, 2017Assignee: Case Western Reserve UniversityInventors: Niloy Bhadra, Narendra Bhadra, Kevin L. Kilgore, Scott Lempka, Jesse Wainright, Tina Vrabec, Manfred Franke
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Publication number: 20170050024Abstract: Described herein are systems and methods for the treatment of pain using electrical nerve conduction block (ENCB). Contrary to other methods of pain treatment, the ENCB can establish a direct block of neural activity, thereby eliminating the pain. Additionally, the ENCB can be administered without causing electrochemical damage. An example method can include: placing at least one electrode contact in electrical communication with a region of a subject's spinal cord; applying an electrical nerve conduction block (ENCB) to a nerve in the region through the at least one electrode contact; and blocking neural activity with the ENCB to reduce the pain or other unwanted sensation in the subject.Type: ApplicationFiled: November 7, 2016Publication date: February 23, 2017Inventors: Niloy Bhadra, Narendra Bhadra, Kevin L. Kilgore, Scott Lempka, Jesse Wainright, Tina Vrabec, Manfred Franke
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Patent number: 9463327Abstract: One aspect of the present disclosure relates a method for determining effective stimulation parameters to apply to a patient in order to improve the patient's medical condition. The method can employ functional and/or structural imaging to determine the effective stimulation parameters. As such, the method includes programming a stimulation device with an initial stimulation parameter. An image can be received of at least a portion of the patient that is affected by a stimulation by the stimulation device. Based on the image, the efficacy of the stimulation with the at least one initial stimulation parameter can be assessed. The at least one initial stimulation parameter can be updated based on the assessed efficacy.Type: GrantFiled: June 1, 2015Date of Patent: October 11, 2016Assignee: The Cleveland Clinic FoundationInventors: Scott Lempka, Andre G. Machado