1341results about "Muscular strength measurement" patented technology

Wearable apparatus for monitoring various physiological and environmental factors are provided. Real-time, noninvasive health and environmental monitors include a plurality of compact sensors integrated within small, low-profile devices, such as earpiece modules. Physiological and environmental data is collected and wirelessly transmitted into a wireless network, where the data is stored and / or processed.

Instrumented orthoses with more sophisticated structures provide for coordinated support and rehabilitation of complex joints and multiple injured joints. Improved instrumented orthoses can include hinges that can rotate in multiple different planes. Particularly preferred embodiments include a shoulder brace with a hand hold and a lower extremities brace. Preferably, a control unit monitors the output of transducers used to instrument the brace. A patient can be prompted by the control unit for the performance of a variety of different monitored exercises.

A device (20) for treating a medical condition is provided, and a surgical procedure for implanting the device is disclosed. The device (20) includes a sensor (44), which is adapted to generate a signal responsive to a state of a patient, and at least one electrode (27), which is adapted to be coupled to a pelvic site of the patient. A control unit (22) is adapted to receive the signal, to analyze the signal so as to distinguish between an imminent stress incontinence event and an imminent urge event, and, responsive to analyzing the signal, to apply an electrical waveform to the at least one electrode (27). In various configurations, the device (20) may be used alternatively or additionally to treat fecal incontinence, interstitial cystitis, chronic pelvic pain, or urine retention.

A method and apparatus for acquiring pulse oximetry and electrocardiogram signals from an appendage of a patient. The apparatus can include a substrate that can be attached to the appendage of the patient, an emitter coupled to the substrate, a detector coupled to the substrate, and an electrode coupled to the substrate. The apparatus can generate a blood oxygen saturation output signal based on radiation received by the detector. The apparatus can also generate a reference or non-reference electrocardiogram signal. The apparatus can include a neural-muscular transmission device.

A probe used during a total knee arthroplasty for measuring forces and locations of their points of application and thereby moments includes two load sensitive plates t to be inserted in one joint-compartment of a knee joint each and each being provided with a top surface and a bottom surface. At least two load sensors may be situated on the top surfaces and / or the bottom surface of each load sensitive plate.

An exemplary exercise device includes a handheld force sensor with complementary male and female connectors extending from opposite sides thereof. The force sensor senses pulling and / or pushing forces exerted between the opposing sides. The male connector may be resistant to travel through the female connector except in limited orientations. The connectors allow the exercise device to interface with any mobile or immobile device having complementary connectors. Non-complementary connectors can connect with the exercise device through a body passage. Depending on devices interfaced with the exercise device, force readings can be taken during a vast variety of motions using different muscle groups during training, exercise, and rehabilitation / physical therapy in homes, schools, healthcare facilities, health clubs, etc. Force readings from the force sensor may be communicated via wired and / or wireless technologies to other devices for live (real-time) processing and display as well as additional historical analysis and reporting.

A force measurement system having inertial compensation includes a force measurement assembly with at least one accelerometer configured to measure the acceleration thereof. According to one aspect of the invention, the force measurement system additionally includes at least one angular velocity sensor configured to measure the angular velocity of the force measurement assembly. According to another aspect of the invention, the force measurement system additionally includes a data processing device with a computer-readable medium loaded thereon that is configured to execute a calibration procedure for determining the inertial parameters of the force measurement assembly by utilizing the measured acceleration of the force measurement assembly while the force measurement assembly is subjected to a plurality of applied linear and / or rotational motion profiles. According to still another aspect of the invention, the at least one accelerometer is disposed on the force transducer.

The invention relates to a rehabilitation device which guides a patient to perform a motion with a correct spatial trajectory, by the device applying one or more pushing, assisting, reminding, responding and / or resisting forces during a motion (or intent to move) by the patient. The forces are applied by an actuator, for example, a robotic articulated arm or a spherically jointed lever. The applied forces act as a force fields, optionally continuous, which impeded and / or guides a patient. The device can be programmable with various trajectories (paths and / or velocities) and / or forces. The forces at one point in the trajectory can vary responsive to an actual trajectory by the patient and / or responsive to a rehabilitation plan and / or improvement of the patient. The device can learn a motion entered by a physiotherapist and replay it for the patient.

A method and system are provided for the visual display of anatomical forces, that system having: a motion capture system; a computer, receiving data from said motion capture system; and a computational pipeline disposed on said computer; that computational pipeline being configured to calculate muscle forces and joint torques in real time and visually display those forces and torques.