Patents Assigned to OrthoCare Innovations LLC
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Publication number: 20180036148Abstract: A prosthetic joint including a hydraulic system, comprising: at least one chamber; at least one accumulator configured to store hydraulic fluid at a high pressure; at least one reservoir configured to store hydraulic fluid at a low pressure; one or more fluid flow paths connecting the chamber to the accumulator and the reservoir, flow controllers in the fluid flow paths, and fluid distributed throughout the hydraulic system; a load-determining sensor; a displacement-determining sensor; and a microprocessor configured to actuate one or more flow controllers based upon a load determining sensor input, a displacement-determining sensor input, a product of the load-determining sensor input and the displacement-determining sensor input, any time derivative thereof, or any combination thereof, wherein one or more flow controllers are configured to control displacing fluid from the chamber to the accumulator during periods of a threshold negative work, and one or more flow controllers are configured to control displType: ApplicationFiled: February 13, 2015Publication date: February 8, 2018Applicant: Orthocare Innovations LLCInventors: Lucas Samuel Lincoln, David Alan Boone, Nicholas Roy Corson
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Publication number: 20170249821Abstract: A method for assessing the risk of a patient to fall. The method includes attaching a pedometer on a patient, wherein the pedometer includes one or more sensors, allowing the patient to engage in activities throughout a predetermined period of time in, at least, an environment the patient occupies for a majority of the day while the pedometer senses information relating to steps taken by the patient. With one or more computers or with the pedometer, calculating at least one step variable from the acceleration information. With one or more computers or with the pedometer, comparing the at least one calculated step variable to a model step variable, and with one or more computers. Then, providing an assessment of the risk of the patient to fall. The pedometer may alert the patient when a risk of falling is detected.Type: ApplicationFiled: October 3, 2016Publication date: August 31, 2017Applicant: Orthocare Innovations LLCInventors: Kim Lisa Coleman Boone, David Alan Boone, Adam Arabian, Michael Orendurff
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Patent number: 9345590Abstract: A prosthesis socket is fitted with a viscoelastic memory material. The material can aspirate a fluid to decrease the interior volume of the socket to compensate for residual limb volume decreases, and fluid can be removed from the viscoelastic memory material to increase the interior volume of the socket to compensate for residual limb volume increases.Type: GrantFiled: July 2, 2012Date of Patent: May 24, 2016Assignee: Orthocare Innovations LLCInventors: Adam Arabian, David Alan Boone
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Patent number: 9295576Abstract: A method for tuning an orthosis for the correct stiffness and/or shank angle includes via one or more computers, receiving patient information including forces experienced by a joint of a patient wearing an orthosis, wherein the orthosis has a degree of stiffness and a shank angle, via one or more computers, comparing the patient information to model information, wherein the model information includes the forces of a correctly functioning joint, and changing the degree of stiffness and/or the shank angle of the orthosis.Type: GrantFiled: September 28, 2011Date of Patent: March 29, 2016Assignee: Orthocare Innovations LLCInventors: David Alan Boone, Toshiki Kobayashi
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Patent number: 9278014Abstract: A computerized prosthesis alignment system includes a transducer that can measure socket reactions in the anterior/posterior plane and the right/left planes, while canceling or reducing the transverse forces on the measurements of these socket reactions. In addition, the transducer is also capable of determining the axial load or weight experienced by the prosthesis. The computerized prosthesis alignment system is in communication with a host computer. The moment data from the transducer is interpreted by the user via a computer interface. The host computer includes memory for storing one or more applications. These applications receive data from the transducer, interpret the data with discrete algebraic or fuzzy logic algorithms, and display the output numerically and graphically. Applications may also interpret the data to provide analyses to the user for aligning the prosthesis.Type: GrantFiled: June 17, 2014Date of Patent: March 8, 2016Assignee: Orthocare Innovations LLCInventors: Ben Gilbert Macomber, David Alan Boone
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Publication number: 20150100292Abstract: A computerized prosthesis alignment system includes a transducer that can measure socket reactions in the anterior/posterior plane and the right/left planes, while canceling or reducing the transverse forces on the measurements of these socket reactions. In addition, the transducer is also capable of determining the axial load or weight experienced by the prosthesis. The computerized prosthesis alignment system is in communication with a host computer. The moment data from the transducer is interpreted by the user via a computer interface. The host computer includes memory for storing one or more applications. These applications receive data from the transducer, interpret the data with discrete algebraic or fuzzy logic algorithms, and display the output numerically and graphically. Applications may also interpret the data to provide analyses to the user for aligning the prosthesis.Type: ApplicationFiled: June 17, 2014Publication date: April 9, 2015Applicant: ORTHOCARE INNOVATIONS LLCInventors: Ben Gilbert Macomber, David Alan Boone
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Patent number: 8998829Abstract: A pedometer that records the number of steps over a defined period of time and a moment sensor that records the moments experienced by a prosthesis are used in a networked computer environment to assess the functional activity level and instability of a lower limb amputee. The networked environment may include a user computer and a server computer in communication through the Internet. Both the user computer and the server computer include a functional assessment tool and a stability assessment tool. The tools on the user computer and server computer cooperate in assessing the activity level and the instability of a lower limb amputee. The server computer may further host a Website and a secure online database that provides support to the user including the managing of clients and their medical records.Type: GrantFiled: September 20, 2010Date of Patent: April 7, 2015Assignee: Orthocare Innovations LLCInventors: Kim Lisa Coleman Boone, David Alan Boone
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Patent number: 8784502Abstract: A computerized prosthesis alignment system includes a transducer that can measure socket reactions in the anterior/posterior plane and the right/left planes, while canceling or reducing the transverse forces on the measurements of these socket reactions. In addition, the transducer is also capable of determining the axial load or weight experienced by the prosthesis. The computerized prosthesis alignment system is in communication with a host computer. The moment data from the transducer is interpreted by the user via a computer interface. The host computer includes memory for storing one or more applications. These applications receive data from the transducer, interpret the data with discrete algebraic or fuzzy logic algorithms, and display the output numerically and graphically. Applications may also interpret the data to provide analysis to the user for aligning the prosthesis.Type: GrantFiled: March 16, 2011Date of Patent: July 22, 2014Assignee: Orthocare Innovations LLCInventors: Ben Gilbert Macomber, David Alan Boone
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Publication number: 20140088726Abstract: A robotic prosthesis alignment device is disclosed that may automatically move the alignment of a prosthesis socket in relation to a prosthesis shank. The robotic prosthesis alignment device provides automatic translation in two axes. The robotic prosthesis alignment device includes angulation mechanics that automatically provide for plantarflexion, dorsiflexion, inversion, and eversion of the foot and shank with respect to the prosthesis socket. A surrogate device is also disclosed that can replicate the alignment achieved with the robotic prosthesis alignment device.Type: ApplicationFiled: April 1, 2013Publication date: March 27, 2014Applicant: ORTHOCARE INNOVATIONS LLCInventors: David Alan Boone, Ben Gilbert Macomber
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Publication number: 20130317628Abstract: A hydraulic device includes a first plate that pivots in a first direction, a second plate that pivots in a second direction orthogonal to the first direction, a first hydraulic system comprising a first cylinder and piston, a second cylinder and piston and, channels connecting the first cylinder to the second cylinder, the first hydraulic system filled with hydraulic fluid, wherein the transfer of fluid between the first cylinder and second cylinder pivots the first plate, and a second hydraulic system comprising a third cylinder and piston, a fourth cylinder and piston and, channels connecting the third cylinder to the fourth cylinder, the second hydraulic system filled with hydraulic fluid, wherein the transfer of fluid between the third cylinder and fourth cylinder pivots the second plate.Type: ApplicationFiled: May 2, 2013Publication date: November 28, 2013Applicants: UT-BATTELLE, LLC, ORTHOCARE INNOVATIONS LLCInventors: David Alan Boone, Ben Gilbert Macomber, Lonnie Love
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Publication number: 20130178950Abstract: A prosthesis socket is fitted with a viscoelastic memory material. The material can aspirate a fluid to decrease the interior volume of the socket to compensate for residual limb volume decreases, and fluid can be removed from the viscoelastic memory material to increase the interior volume of the socket to compensate for residual limb volume increases.Type: ApplicationFiled: July 2, 2012Publication date: July 11, 2013Applicant: ORTHOCARE INNOVATIONS LLCInventors: Adam Arabian, David Alan Boone
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Publication number: 20130173022Abstract: A prosthetic foot assembly is disclosed. The assembly includes a pivoting ankle joint with a hydraulic system, a prosthetic foot connected to the distal side of the ankle joint, and, at the proximal side, the ankle joint includes a transducer with pyramid adaptor for attaching to a pylon. The ankle joint sensor provides data collection during the stance and optionally, the swing, phases of walking using, for example, strain gages and accelerometers. Also disclosed are methods for real-time feature extraction. Key parameters are captured to which are applied linear, fuzzy logic, neural net, or generic algorithms to determine current state (walking flat, uphill, downhill etc.) in real time and execute changes to the angle between the ankle and foot almost instantaneously based on those parameters.Type: ApplicationFiled: July 2, 2012Publication date: July 4, 2013Applicant: ORTHOCARE INNOVATIONS LLCInventors: Adam Arabian, David Alan Boone, Ben Gilbert Macomber, Tyler Butel, Robert Dustin Lane
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Patent number: 8449623Abstract: A hydraulic device includes a first plate that pivots in a first direction, a second plate that pivots in a second direction orthogonal to the first direction, a first hydraulic system comprising a first cylinder and piston, a second cylinder and piston and, channels connecting the first cylinder to the second cylinder, the first hydraulic system filled with hydraulic fluid, wherein the transfer of fluid between the first cylinder and second cylinder pivots the first plate, and a second hydraulic system comprising a third cylinder and piston, a fourth cylinder and piston and, channels connecting the third cylinder to the fourth cylinder, the second hydraulic system filled with hydraulic fluid, wherein the transfer of fluid between the third cylinder and fourth cylinder pivots the second plate.Type: GrantFiled: September 20, 2010Date of Patent: May 28, 2013Assignees: Orthocare Innovations LLC, UT-Battelle, LLCInventors: David Alan Boone, Ben Gilbert Macomber, Lonnie Love
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Patent number: 8416088Abstract: A sensor (which could be detachable) to sense a condition (including pressure from body weight or moisture from incontinence; applied by adhering to skin of a human body or by putting a diaper on the human body, for example), a signal processing circuit, a periodic or continuous transmitter, and a power supply (typically including a battery) are associated with a flexible substrate in low profile enabling disposition adjacent the human body. A transmitter antenna is on the substrate. Insulator film between battery contacts and a switch-and-transistor combination are two power-on techniques. A bedside monitor, a transceiver configured to receive signals from and transmit signals to the bedside monitor, and a computer connected with the transceiver can be included.Type: GrantFiled: December 29, 2011Date of Patent: April 9, 2013Assignee: Orthocare Innovations LLCInventors: Giovani M. Ortega, Michael J. Sciarra
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Patent number: 8409297Abstract: A robotic prosthesis alignment device is disclosed that may automatically move the alignment of a prosthesis socket in relation to a prosthesis shank. The robotic prosthesis alignment device provides automatic translation in two axes. The robotic prosthesis alignment device includes angulation mechanics that automatically provide for plantarflexion, dorsiflexion, inversion, and eversion of the foot and shank with respect to the prosthesis socket. A surrogate device is also disclosed that can replicate the alignment achieved with the robotic prosthesis alignment device.Type: GrantFiled: July 13, 2009Date of Patent: April 2, 2013Assignee: Orthocare Innovations LLCInventors: David Alan Boone, Ben Gilbert Macomber
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Patent number: 8303670Abstract: A vacuum pump system for a prosthesis includes an enhanced suspension mechanism and incorporates a vacuum pump system, an adaptor assembly, circuitry, and a power source. A virtually air-tight seal between a residual limb and a socket of the prosthesis allows a vacuum fit to be generated by the pump system. The pump system may be controlled with various circuits and processors receiving instructions from a software program. The pump system may be located within a pylon, but yet remain vibrationally and acoustically de-coupled from the pylon.Type: GrantFiled: November 1, 2010Date of Patent: November 6, 2012Assignee: OrthoCare Innovations, LLCInventors: James Jay Martin, Tyler Butel, Michael Markmiller, Matt Kozlowski, David Boone
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Publication number: 20120255160Abstract: A method for tuning an orthosis for the correct stiffness and/or shank angle includes via one or more computers, receiving patient information including forces experienced by a joint of a patient wearing an orthosis, wherein the orthosis has a degree of stiffness and a shank angle, via one or more computers, comparing the patient information to model information, wherein the model information includes the forces of a correctly functioning joint, and changing the degree of stiffness and/or the shank angle of the orthosis.Type: ApplicationFiled: September 28, 2011Publication date: October 11, 2012Applicant: ORTHOCARE INNOVATIONS LLCInventors: David Alan Boone, Toshiki Kobayashi
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Patent number: 8215186Abstract: A computerized prosthesis alignment system includes a transducer that can measure socket reactions in the anterior/posterior plane and the right/left planes, while canceling or reducing the transverse forces on the measurements of these socket reactions. In addition, the transducer is also capable of determining the axial load or weight experienced by the prosthesis. The computerized prosthesis alignment system is in communication with a host computer. The moment data from the transducer is interpreted by the user via a computer interface. The host computer includes memory for storing one or more applications. These applications receive data from the transducer, interpret the data with discrete algebraic or fuzzy logic algorithms, and display the output numerically and graphically. Applications may also interpret the data to provide analyses to the user for aligning the prosthesis.Type: GrantFiled: January 6, 2011Date of Patent: July 10, 2012Assignee: Orthocare Innovations LLCInventors: Ben Gilbert Macomber, David Alan Boone, James Christian Beck
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Publication number: 20120119912Abstract: A sensor (which could be detachable) to sense a condition (including pressure from body weight or moisture from incontinence; applied by adhering to skin of a human body or by putting a diaper on the human body, for example), a signal processing circuit, a periodic or continuous transmitter, and a power supply (typically including a battery) are associated with a flexible substrate in low profile enabling disposition adjacent the human body. A transmitter antenna is on the substrate. Insulator film between battery contacts and a switch-and-transistor combination are two power-on techniques. A bedside monitor, a transceiver configured to receive signals from and transmit signals to the bedside monitor, and a computer connected with the transceiver can be included.Type: ApplicationFiled: December 29, 2011Publication date: May 17, 2012Applicant: ORTHOCARE INNOVATIONS LLCInventors: Giovani M. Ortega, Michael J. Sciarra
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Publication number: 20120119904Abstract: A method for assessing the risk of a patient to fall. The method includes attaching a pedometer on a patient, wherein the pedometer includes one or more sensors, allowing the patient to engage in activities throughout a predetermined period of time in, at least, an environment the patient occupies for a majority of the day while the pedometer senses information relating to steps taken by the patient. With one or more computers or with the pedometer, calculating at least one step variable from the acceleration information. With one or more computers or with the pedometer, comparing the at least one calculated step variable to a model step variable, and with one or more computers. Then, providing an assessment of the risk of the patient to fall. The pedometer may alert the patient when a risk of falling is detected.Type: ApplicationFiled: October 19, 2011Publication date: May 17, 2012Applicant: ORTHOCARE INNOVATIONS LLCInventors: Kim Lisa Coleman Boone, David Alan Boone, Adam Arabian, Michael Orendurff