Active ankle foot orthosis
First Claim
1. A variable-impedance active ankle foot orthosis comprising:
- a) an actuator configured to support a human ankle joint;
b) at least one of an ankle angle sensor and a ground reaction force sensor; and
c) a computer controller linked to the actuator and the sensor, the computer controller configured to receive sensory information from the at least one sensor and configured to modulate, in an updating manner, impedance of the actuator in response to at least one signal from the sensor, thereby modulating, by computer-controlled actuation, impedance of the human ankle joint, including a joint stiffness or damping of the ankle joint, from step-to-step of a walk cycle for treating an ankle foot gait pathology.
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Accused Products
Abstract
An Active Ankle Foot Orthosis (AAFO) is provided where the impedance of an orthotic joint is modulated throughout the walking cycle to treat ankle foot gait pathology, such as drop foot gait. During controlled plantar flexion, a biomimetic torsional spring control is applied where orthotic joint stiffness is actively adjusted to minimize forefoot collisions with the ground. Throughout late stance, joint impedance is minimized so as not to impede powered plantar flexion movements, and during the swing phase, a torsional spring-damper (PD) control lifts the foot to provide toe clearance. To assess the clinical effects of variable-impedance control, kinetic and kinematic gait data were collected on two drop foot participants wearing the AAFO. It has been found that actively adjusting joint impedance reduces the occurrence of slap foot, allows greater powered plantar flexion, and provides for less kinematic difference during swing when compared to normals.
132 Citations
36 Claims
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1. A variable-impedance active ankle foot orthosis comprising:
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a) an actuator configured to support a human ankle joint; b) at least one of an ankle angle sensor and a ground reaction force sensor; and c) a computer controller linked to the actuator and the sensor, the computer controller configured to receive sensory information from the at least one sensor and configured to modulate, in an updating manner, impedance of the actuator in response to at least one signal from the sensor, thereby modulating, by computer-controlled actuation, impedance of the human ankle joint, including a joint stiffness or damping of the ankle joint, from step-to-step of a walk cycle for treating an ankle foot gait pathology. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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- 18. A method comprising the step of modulating, by computer-controlled actuation, impedance, including joint stiffness or damping, of an ankle joint in an updating manner from step-to-step of a walk cycle, in response to at least one of an ankle angle sensor and a ground force reaction sensor, by modulating an actuator connected to the ankle joint.
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25. A method of treating an ankle foot gait pathology using functional electrical stimulation, comprising the step of:
applying computer-controlled electrical pulses in response to at least one of an ankle angle sensor and a ground force reaction sensor, to elicit muscle contraction of a human ankle joint to actively modulate impedance, including ankle stiffness, or damping, or both during walking, wherein joint stiffness or damping or both is modulated-in an updating manner from step-to-step of a walk cycle. - View Dependent Claims (26, 27, 28, 29)
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30. A variable-impedance active ankle foot orthosis, comprising:
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a) an actuator that includes a spring, wherein the actuator is configured to support a human ankle joint; b) at least one of an ankle angle sensor and ground reaction force sensor; and c) a computer controller linked to the actuator and the sensor, the actuator configured to receive sensory information from the at least one sensor and to modulate impedance, including a joint stiffness or damping of an ankle joint, by controlling compression of the spring in response to the sensory information comprising at least one of an ankle angle and a ground reaction force, the actuator modulating the joint stiffness or damping of the ankle joint by controlling the spring in an updating manner from step-to-step of a walk cycle in response to the at least one of ankle angle and ground reaction force.
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31. A method of treating an ankle foot gait pathology using functional electrical stimulation, comprising the step of:
applying computer-controlled electrical pulses, in response to at least one of an ankle angle sensor and a ground force reaction sensor, to elicit muscle contractions of a human ankle joint to actively modulate impedance, including ankle stiffness, or, damping, or both in an updating manner from step-to-step of a walking cycle, the joint stiffness or damping further being modulated by controlling a spring connected to an orthosis supporting the human ankle joint.
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32. A variable impedance active ankle foot orthosis comprising:
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a) an actuator configured to support a human ankle joint; b) at least one of a ground reaction force sensor and an ankle angle sensor; and c) a computer controller linked to the actuator and to the sensor, wherein the orthosis is configured to receive sensory information from the at least one sensor and configured to modulate, by computer-controlled actuation, ankle joint impedance, including a joint stiffness or damping of an ankle joint, wherein modulation of the joint impedance is adaptive in nature.
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33. A device for treating an ankle foot gait pathology comprising:
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an orthosis including an orthosis leg portion configured to be attachable to a leg of a person and an orthosis foot portion configured to be attachable to a foot of the person; and an actuator configured to act on a spring; at least one of an ankle angle sensor and a ground reaction force sensor; and a computer controller linked to the actuator and the sensor, the computer controller configured to receive sensory information from the at least one sensor and configured to modulate by computer-controlled actuation, impedance, including joint stiffness or damping of the ankle joint, wherein modulation of joint impedance is adaptive in nature.
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34. A method comprising modulating, by computer-controlled actuation, impedance, including joint stiffness or damping of an ankle joint wherein modulation of joint impedance is adaptive in nature and in response to at least one of an ankle angle sensor and a ground force reaction sensor, and wherein the actuator is an actuator that is connected to an orthosis that supports an ankle joint.
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35. A variable impedance active ankle foot orthosis comprising:
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a) an actuator and a spring operatively linked to the actuator b) an ankle angle sensor; c) a ground force reaction sensor; and d) a controller linked to the sensors and to the actuator, wherein the actuator is configured to receive sensory information from the at least two sensors and configured to modulate, by computer-controlled actuation, impedance, including a joint stiffness or damping of an ankle joint, by controlling compression of the spring, in response to the two sensors during walking, the actuator modulating the joint stiffness or damping of the ankle joint, wherein modulation of joint impedance is adaptive in nature.
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36. A method of treating an ankle foot gait pathology using functional electrical stimulation, comprising the steps of:
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applying electrical pulses to elicit muscle contractions to actively modulate, by computer-controlled actuation, impedance, including ankle joint stiffness or damping, or both, of an ankle joint, wherein modulation of joint impedance is adaptive in nature, the modulation being in response to at least one of an ankle angle sensor or a ground reaction force sensor, the joint stiffness or damping further being modulated by controlling a spring linked to an orthosis that is supporting the ankle joint.
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Specification