BIONESS INC. Patent applications |
Patent application number | Title | Published |
20150265834 | SYSTEMS AND APPARATUS FOR GAIT MODULATION AND METHODS OF USE - An apparatus includes a frame, a sensor, and an electric stimulator. The frame is removably couplable to a portion of a limb. The sensor is configured to produce a first signal associated with a gait characteristic at a first time, and a second signal associated with the gait characteristic at a second time, after the first time. The electric stimulator is removably coupled to the frame and is in electrical communication with an electrode assembly and the sensor to receive the first signal substantially at the first time and the second signal substantially at the second time. Based in part on the gait characteristic at the first time, the electric stimulator sends a third signal to the electrode assembly to provide an electric stimulation to a portion of a neuromuscular system of the limb substantially during a time period defined between the first time and the second time. | 09-24-2015 |
20150143627 | METHODS AND APPARATUS FOR BODY WEIGHT SUPPORT SYSTEM - An apparatus includes a drive mechanism, a patient support mechanism, and an electronic system. The drive mechanism is included in a trolley and is configured to suspend the trolley from a support track. The drive mechanism includes a first sensor configured to sense an operating condition of the drive mechanism. The patient support mechanism couples to the trolley and includes a tether and a second sensor. The tether can be operatively coupled to a patient such that the patient support mechanism supports the patient. The second sensor is configured to sense an operating condition of the patient support mechanism. The electronic system is included in the trolley and has at least a processor and a memory. The processor is configured to define a gait characteristic of the patient based at least in part on a signal received from the first sensor and a signal received from the second sensor. | 05-28-2015 |
20140201906 | METHODS AND APPARATUS FOR BODY WEIGHT SUPPORT SYSTEM - A system includes a first trolley and a second trolley movably suspended from a support track. The first trolley includes a patient attachment mechanism configured to support a first patient. The first trolley is configured to move relative to the support track. The second trolley includes a patient attachment mechanism configured to support a second patient. The second trolley is configured to move relative to the support track such that the movement of the second trolley is independent of the movement of the first trolley. A collision management assembly is configured to be coupled to one of the first trolley and the second trolley. The collision management assembly includes a bumper that is configured to prevent the first trolley from directly contacting the second trolley. | 07-24-2014 |
20140201905 | METHODS AND APPARATUS FOR BODY WEIGHT SUPPORT SYSTEM - A body weight support system includes a trolley, a powered conductor operative coupled to a power supply, and a patient attachment mechanism. The trolley can include a drive system, a control system, and a patient support system. The drive system is movably coupled to a support rail. At least a portion of the control system is physically and electrically coupled to the powered conductor. The patient support mechanism is at least temporarily coupled to the patient attachment mechanism. The control system can control at least a portion of the patient support mechanism based at least in part on a force applied to the patient attachment mechanism. | 07-24-2014 |
20140172053 | IMPLANT, SYSTEM AND METHOD USING IMPLANTED PASSIVE CONDUCTORS FOR ROUTING ELECTRICAL CURRENT - The present invention provides improvements to an implant, system and method using passive electrical conductors which route electrical current to either external or implanted electrical devices, to multiple target body tissues and to selective target body tissues. The passive electrical conductor extends from subcutaneous tissue located below either a surface cathodic electrode or a surface anodic electrode a) to a target tissue to route electrical signals from the target body tissue to devices external to the body; b) to implanted electrical devices to deliver electrical current to such devices, or c) to multiple target body tissues or to selective target body tissues to stimulate the target body tissues. The conductor has specialized ends for achieving such purposes. | 06-19-2014 |
20130310846 | INSERTION TOOLS AND METHODS FOR AN ELECTRICAL STIMULATION IMPLANT - In some embodiments, a method includes inserting at least a distal end portion of an insertion tool within a body. The distal end portion of the insertion tool is coupled to an electronic implant having a stimulation portion, a terminal portion and a substantially flexible conductor disposed between the stimulation portion and the terminal portion. The distal end portion of the insertion tool is moved within the body such that the stimulation portion of the electronic implant is disposed adjacent a target location and the terminal portion of the electronic implant is disposed beneath a skin of the body. | 11-21-2013 |
20130138190 | METHODS AND APPARATUS FOR IMPLANTING ELECTRONIC IMPLANTS WITHIN THE BODY - An apparatus includes an implant delivery device configured to deliver an implant into a body. The implant delivery device includes a target member, an insertion member and an electronic circuit system. The target member has a distal end portion configured to be disposed within the body adjacent a target location. The insertion member is movably coupled to the target member. A distal end portion of the insertion member is configured to be disposed within the body and selectively coupled to the implant. The electronic circuit system is configured to produce an electronic signal in proportion to a distance between the distal end portion of the target member and the distal end portion of the insertion member when the target member and the insertion member are disposed within the body. | 05-30-2013 |
20130138164 | SYSTEM FOR TRANSMITTING ELECTRICAL CURRENT TO A BODILY TISSUE - In some embodiments, an apparatus includes a substantially rigid base and a flexible substrate. The substantially rigid base has a first protrusion and a second protrusion, and is configured to be coupled to an electronic device. The flexible substrate has a first surface and a second surface, and includes an electrical circuit configured to electronically couple the electronic device to at least one of an electrode a battery, or an antenna. The flexible substrate is coupled to the base such that a first portion of the second surface is in contact with the first protrusion. A second portion of the second surface is non-parallel to the first portion. | 05-30-2013 |
20130013041 | IMPLANT, SYSTEM AND METHOD USING IMPLANTED PASSIVE CONDUCTORS FOR ROUTING ELECTRICAL CURRENT - The present invention provides improvements to an implant, system and method using passive electrical conductors which route electrical current to either external or implanted electrical devices, to multiple target body tissues and to selective target body tissues. The passive electrical conductor extends from subcutaneous tissue located below either a surface cathodic electrode or a surface anodic electrode a) to a target tissue to route electrical signals from the target body tissue to devices external to the body; b) to implanted electrical devices to deliver electrical current to such devices, or c) to multiple target body tissues or to selective target body tissues to stimulate the target body tissues. The conductor has specialized ends for achieving such purposes. | 01-10-2013 |
20120330394 | ELECTRODE FOR MUSCLE STIMULATION - Devices and methods of treating a targeted body tissue by stimulating the body tissue with an electric current. In one embodiment, an apparatus includes an electrode carrier configured to be removably coupled to an interior surface of an orthosis. The electrode carrier includes a recess configured to matingly receive a portion of an electrode. The electrode carrier is electrically coupled to the electrode when the portion of the electrode is disposed within the recess. A connection member is electrically coupled to the electrode carrier and is configured to be releasably coupled to a surface of the orthosis. The electrode carrier is electrically coupled to the orthosis when the connection member is coupled to the orthosis. In some embodiments, the electrode carrier is configured to be removably coupled to the interior surface of the orthosis. In some embodiments, at least a portion of the electrode is constructed of an absorptive material. | 12-27-2012 |
20110282412 | TREATMENT OF INDICATIONS USING ELECTRICAL STIMULATION - In one embodiment, a method includes implanting an implant entirely under the subject's skin. The implant includes a passive electrical conductor of sufficient length to extend from subcutaneous tissue located below one of a surface cathodic electrode and a surface anodic electrode to the tibial nerve. The surface electrodes are positioned in spaced relationship on the subject's skin, with one of the electrodes positioned over the pick-up end of the electrical conductor such that the portion of the current is transmitted through the conductor to the tibial nerve, and such that the current flows through the tibial nerve and returns to the other of the surface cathodic electrode and the surface anodic electrode. An electrical current is applied between the surface cathodic electrode and the surface anodic electrode to cause the portion of the electrical current to flow through the implant to stimulate the tibial nerve. | 11-17-2011 |