Patents by Inventor Eyal Lasko
Eyal Lasko 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).
-
Patent number: 11247048Abstract: A gait modulation system including: (a) a sensor device including a sensor adapted for associating with at least one lower limb of the patient, the sensor for transducing at least one parameter related to a gait of the patient, so as to obtain gait data related to the gait, and (b) a muscle stimulator including: (i) an electrical stimulation circuit, the circuit adapted to supply an electrical stimulation output to an electrode array for performing functional electrical stimulation of at least one muscle of the lower limb, and (ii) a microprocessor, operatively connected to the at least one sensor, the microprocessor adapted for: receiving a stream of gait information based on the gait data; processing the gait information, and controlling the stimulation output based on the processing of the gait information, and wherein the microprocessor is further adapted to identify a failure in the stream of gait information, and to consequently control the electrical stimulation circuit to deliver a fail-safe stimulatiType: GrantFiled: January 27, 2020Date of Patent: February 15, 2022Assignee: Bioness Neuromodulation Ltd.Inventors: Eyal Lasko, Shmuel Springer, Mark Rubin, Amit Dar
-
Publication number: 20200155842Abstract: A gait modulation system including: (a) a sensor device including a sensor adapted for associating with at least one lower limb of the patient, the sensor for transducing at least one parameter related to a gait of the patient, so as to obtain gait data related to the gait, and (b) a muscle stimulator including: (i) an electrical stimulation circuit, the circuit adapted to supply an electrical stimulation output to an electrode array for performing functional electrical stimulation of at least one muscle of the lower limb, and (ii) a microprocessor, operatively connected to the at least one sensor, the microprocessor adapted for: receiving a stream of gait information based on the gait data; processing the gait information, and controlling the stimulation output based on the processing of the gait information, and wherein the microprocessor is further adapted to identify a failure in the stream of gait information, and to consequently control the electrical stimulation circuit to deliver a fail-safe stimulatiType: ApplicationFiled: January 27, 2020Publication date: May 21, 2020Applicant: Bioness Neuromodulation Ltd.Inventors: Eyal LASKO, Shmuel SPRINGER, Mark RUBIN, Amit DAR
-
Patent number: 10543365Abstract: A gait modulation system including: (a) a sensor device including a sensor adapted for associating with at least one lower limb of the patient, the sensor for transducing at least one parameter related to a gait of the patient, so as to obtain gait data related to the gait, and (b) a muscle stimulator including: (i) an electrical stimulation circuit, the circuit adapted to supply an electrical stimulation output to an electrode array for performing functional electrical stimulation of at least one muscle of the lower limb, and (ii) a microprocessor, operatively connected to the at least one sensor, the microprocessor adapted for: receiving a stream of gait information based on the gait data; processing the gait information, and controlling the stimulation output based on the processing of the gait information, and wherein the microprocessor is further adapted to identify a failure in the stream of gait information, and to consequently control the electrical stimulation circuit to deliver a fail-safe stimulatiType: GrantFiled: July 9, 2018Date of Patent: January 28, 2020Assignee: Bioness Neuromodulation Ltd.Inventors: Eyal Lasko, Shmuel Springer, Mark Rubin, Amit Dar
-
Publication number: 20190009086Abstract: A gait modulation system including: (a) a sensor device including a sensor adapted for associating with at least one lower limb of the patient, the sensor for transducing at least one parameter related to a gait of the patient, so as to obtain gait data related to the gait, and (b) a muscle stimulator including: (i) an electrical stimulation circuit, the circuit adapted to supply an electrical stimulation output to an electrode array for performing functional electrical stimulation of at least one muscle of the lower limb, and (ii) a microprocessor, operatively connected to the at least one sensor, the microprocessor adapted for: receiving a stream of gait information based on the gait data; processing the gait information, and controlling the stimulation output based on the processing of the gait information, and wherein the microprocessor is further adapted to identify a failure in the stream of gait information, and to consequently control the electrical stimulation circuit to deliver a fail-safe stimulatiType: ApplicationFiled: July 9, 2018Publication date: January 10, 2019Applicant: Bioness Neuromodulation Ltd.Inventors: Eyal LASKO, Shmuel SPRINGER, Mark RUBIN, Amit DAR
-
Patent number: 10016598Abstract: A gait modulation system including: (a) a sensor device including a sensor adapted for associating with at least one lower limb of the patient, the sensor for transducing at least one parameter related to a gait of the patient, so as to obtain gait data related to the gait, and (b) a muscle stimulator including: (i) an electrical stimulation circuit, the circuit adapted to supply an electrical stimulation output to an electrode array for performing functional electrical stimulation of at least one muscle of the lower limb, and (ii) a microprocessor, operatively connected to the at least one sensor, the microprocessor adapted for: receiving a stream of gait information based on the gait data; processing the gait information, and controlling the stimulation output based on the processing of the gait information, and wherein the microprocessor is further adapted to identify a failure in the stream of gait information, and to consequently control the electrical stimulation circuit to deliver a fail-safe stimulatiType: GrantFiled: August 15, 2016Date of Patent: July 10, 2018Assignee: Bioness Neuromodulation Ltd.Inventors: Eyal Lasko, Shmuel Springer, Mark Rubin, Amit Dar
-
Publication number: 20170065815Abstract: A gait modulation system including: (a) a sensor device including a sensor adapted for associating with at least one lower limb of the patient, the sensor for transducing at least one parameter related to a gait of the patient, so as to obtain gait data related to the gait, and (b) a muscle stimulator including: (i) an electrical stimulation circuit, the circuit adapted to supply an electrical stimulation output to an electrode array for performing functional electrical stimulation of at least one muscle of the lower limb, and (ii) a microprocessor, operatively connected to the at least one sensor, the microprocessor adapted for: receiving a stream of gait information based on the gait data; processing the gait information, and controlling the stimulation output based on the processing of the gait information, and wherein the microprocessor is further adapted to identify a failure in the stream of gait information, and to consequently control the electrical stimulation circuit to deliver a fail-safe stimulatiType: ApplicationFiled: August 15, 2016Publication date: March 9, 2017Applicant: Bioness Neuromodulation Ltd.Inventors: Eyal LASKO, Shmuel SPRINGER, Mark RUBIN, Amit DAR
-
Patent number: 9415205Abstract: A gait modulation system including: (a) a sensor device including a sensor adapted for associating with at least one lower limb of the patient, the sensor for transducing at least one parameter related to a gait of the patient, so as to obtain gait data related to the gait, and (b) a muscle stimulator including: (i) an electrical stimulation circuit, the circuit adapted to supply an electrical stimulation output to an electrode array for performing functional electrical stimulation of at least one muscle of the lower limb, and (ii) a microprocessor, operatively connected to the at least one sensor, the microprocessor adapted for: receiving a stream of gait information based on the gait data; processing the gait information, and controlling the stimulation output based on the processing of the gait information, and wherein the microprocessor is further adapted to identify a failure in the stream of gait information, and to consequently control the electrical stimulation circuit to deliver a fail-safe stimulatiType: GrantFiled: July 16, 2014Date of Patent: August 16, 2016Assignee: Bioness Neuromodulation Ltd.Inventors: Eyal Lasko, Shmuel Springer, Mark Rubin, Amit Dar
-
Patent number: 9095417Abstract: Systems, devices and methods for treating a targeted body tissue (e.g., bone, soft tissue, muscle, ligaments, etc.) by stimulating the body tissue with an electric current are described herein. In one embodiment, an apparatus includes a first orthosis member that includes a first electrode. The first orthosis member is configured to be disposed about a first portion of a limb of a user of the apparatus such that the first electrode is in contact with the first portion of the limb. The apparatus includes a second orthosis member that includes a second electrode. The second orthosis member is configured to be disposed about a second portion of the limb such that the second electrode is in contact with the second portion of the limb. A connector is configured to couple the second orthosis member to the first orthosis member and the connector has a selectively adjustable length.Type: GrantFiled: February 7, 2011Date of Patent: August 4, 2015Assignee: Bioness Neuromodulation Ltd.Inventors: Amit Dar, Shmuel Springer, Eyal Lasko, Jonathan Bar-Or
-
Publication number: 20150080979Abstract: A gait modulation system including: (a) a sensor device including a sensor adapted for associating with at least one lower limb of the patient, the sensor for transducing at least one parameter related to a gait of the patient, so as to obtain gait data related to the gait, and (b) a muscle stimulator including: (i) an electrical stimulation circuit, the circuit adapted to supply an electrical stimulation output to an electrode array for performing functional electrical stimulation of at least one muscle of the lower limb, and (ii) a microprocessor, operatively connected to the at least one sensor, the microprocessor adapted for: receiving a stream of gait information based on the gait data; processing the gait information, and controlling the stimulation output based on the processing of the gait information, and wherein the microprocessor is further adapted to identify a failure in the stream of gait information, and to consequently control the electrical stimulation circuit to deliver a fail-safe stimulatiType: ApplicationFiled: July 16, 2014Publication date: March 19, 2015Applicant: BIONESS NEUROMODULATION LTD.Inventors: Eyal LASKO, Shmuel SPRINGER, Mark RUBIN, Amit DAR
-
Patent number: 8788049Abstract: A gait modulation system including: (a) a sensor device including a sensor adapted for associating with at least one lower limb of the patient, the sensor for transducing at least one parameter related to a gait of the patient, so as to obtain gait data related to the gait, and (b) a muscle stimulator including: (i) an electrical stimulation circuit, the circuit adapted to supply an electrical stimulation output to an electrode array for performing functional electrical stimulation of at least one muscle of the lower limb, and (ii) a microprocessor, operatively connected to the at least one sensor, the microprocessor adapted for: receiving a stream of gait information based on the gait data; processing the gait information, and controlling the stimulation output based on the processing of the gait information, and wherein the microprocessor is further adapted to identify a failure in the stream of gait information, and to consequently control the electrical stimulation circuit to deliver a fail-safe stimulatiType: GrantFiled: May 1, 2007Date of Patent: July 22, 2014Assignee: Bioness Neuromodulation Ltd.Inventors: Eyal Lasko, Shmuel Springer, Mark Rubin, Amit Dar
-
Publication number: 20120203156Abstract: Systems, devices and methods for treating a targeted body tissue (e.g., bone, soft tissue, muscle, ligaments, etc.) by stimulating the body tissue with an electric current are described herein. In one embodiment, an apparatus includes a first orthosis member that includes a first electrode. The first orthosis member is configured to be disposed about a first portion of a limb of a user of the apparatus such that the first electrode is in contact with the first portion of the limb. The apparatus includes a second orthosis member that includes a second electrode. The second orthosis member is configured to be disposed about a second portion of the limb such that the second electrode is in contact with the second portion of the limb. A connector is configured to couple the second orthosis member to the first orthosis member and the connector has a selectively adjustable length.Type: ApplicationFiled: February 7, 2011Publication date: August 9, 2012Inventors: Amit Dar, Shmuel Springer, Eyal Lasko, Jonathan Bar-Or
-
Publication number: 20090069865Abstract: A gait modulation system including: (a) a sensor device including a sensor adapted for associating with at least one lower limb of the patient, the sensor for transducing at least one parameter related to a gait of the patient, so as to obtain gait data related to the gait, and (b) a muscle stimulator including: (i) an electrical stimulation circuit, the circuit adapted to supply an electrical stimulation output to an electrode array for performing functional electrical stimulation of at least one muscle of the lower limb, and (ii) a microprocessor, operatively connected to the at least one sensor, the microprocessor adapted for: receiving a stream of gait information based on the gait data; processing the gait information, and controlling the stimulation output based on the processing of the gait information, and wherein the microprocessor is further adapted to identify a failure in the stream of gait information, and to consequently control the electrical stimulation circuit to deliver a fail-safe stimulatiType: ApplicationFiled: May 1, 2007Publication date: March 12, 2009Inventors: Eyal Lasko, Shmuel Springer, Mark Rubin, Amit Dar