The present disclosure provides systems and methods for predicting a disease state of a subject using ultrasound imaging. The method includes identifying at least one quantitative measurement of a subject using ultrasound imaging, the at least one quantitative measurement included as part of quantitative information of the subject gathered based on the ultrasound imaging, comparing the at least one quantitative measurement to a first predetermined standard to determine a first initial value, the first predetermined standard falling within a first range of quantities, identifying at least one qualitative measurement of the subject using the ultrasound imaging, the at least one qualitative measurement included as part of qualitative information of the subject gathered based on the ultrasound imaging, comparing the at least one qualitative measurement to a second predetermined standard to determine a second initial value, the second predetermined standard falling within a second range of quantities; and correlating at least the quantitative information and the qualitative information using the first initial value and the second initial value to determine a final value that is used in predicting a disease state of the subject.

The present invention relates generally to a system and method for measuring the structural characteristics of an object. The object is subjected to an energy application processes and provides an objective, quantitative measurement of structural characteristics of an object. The system may include a device, for example, a percussion instrument, capable of being reproducibly placed against the object undergoing such measurement for reproducible positioning. The system includes features for adjusting the energy applied to an energy application tool to compensate for the physical characteristics or type of the object, and/or for orientation of the device relative to the horizontal during measurement. The system also includes a disposable feature or assembly for minimizing cross-contamination between tests. The structural characteristics as defined herein may include vibration damping capacities, acoustic damping capacities, structural integrity or structural stability.

An ultrasonic diagnostic imaging system produces an image of shear wave velocities by transmitting push pulses to generate shear waves. A plurality of tracking lines are transmitted and echoes received by a focusing beamformer adjacent to the location of the push pulses. The tracking lines are sampled in a time-interleaved manner. The echo data acquired along each tracking line is processed to determine the time of peak tissue displacement caused by the shear waves at points along the tracking line, and the times of peaks at adjacent tracking lines compared to compute a local shear wave velocity. The resultant map of shear wave velocity values is color-coded and displayed over an anatomical image of the region of interest.

A pressure compensating non-invasive blood-component measuring device has electrically insulated parallel electrodes mounted on a dielectric membrane (106). A main circuit board (201) provides electrical connections to the electrodes and has an orifice (402) to allow flexing. A housing supports the main circuit board, with a second orifice to facilitate the application of a finger onto the insulated electrodes. A bottom circuit board (401) supports a force sensor (408) and fixing elements (313, 314) secure the bottom circuit board to the top circuit board, such that the bottom circuit board does not contact the housing directly. An intermediate board (316) is guided but not restrained by the fixing elements, and is arranged to apply force onto said force sensor.

Systems, devices, and methods are described herein that relate to massage devices with force control and feedback for providing pain relief and improved muscle recover to users. The massage devices can output mechanisms for applying a mechanical output to a muscle area of a user to treat a muscle condition, driving mechanisms for driving the movement of the output mechanisms, and sensors for measuring force and other properties associated with application of the mechanical output. The massage devices can be configured to adapt therapy being applied to a muscle area or provide users with feedback based on sensor measurements.

Systems, methods, apparatus, and non-transitory computer readable media for measuring and analyzing galvanic skin response. Responses to stimuli including electromagnetic waves and mechanical waves, as well as substances exposed to electromagnetic waves and mechanical waves, are recorded and analyzed. Electromagnetic waves and mechanical waves are constructed based on biological outputs in one embodiment.

The invention relates to a method of determining the laxity of a joint (9, 15) of a human (5) or an animal. The method comprises providing at least one patient-specific geometrical model (1) of at least one bone and/or at least one prosthesis comprised by the joint. Known loads are applied to the joint or to a part of the body connected to the joint, and a series of actual images (16) of the joint are obtained while the loads are applied. Then the at least one patient-specific geometrical model (1) is registered onto the actual images (16). Based thereon relative displacement and/or rotation of the at least one bone and/or at least one prosthesis is calculated as a function of the applied loads, and based thereon a measure of the laxity of the joint is determined. The invention further relates to a system for performing such a method and to a computer readable medium for performing such a method.

There is provided herein a method for assessing a speech/lingual quality of a subject, the method comprising: providing a content-containing stimulus to a user; recording the user's vocal response to the stimulus and/or to instructions related thereto; processing the user's recorded vocal response to measure/extract/compute at least one linguistics (prosodic) parameter and at least one acoustic parameter; transforming the user's vocal response into a transformed text section, which is based on a processing unit's interpretation of the user's verbal response; comparing the transformed text section to a predetermined text section, which represents the user's expected; and computing an output signal indicative of at least one speech/lingual quality of the user, based at least on data resulted from the texts comparison, the at least one measured/extracted/computed linguistic parameter and the at least one acoustic parameter.

The present invention relates to enhancing mechanical properties of tissue such as collagenous or collagen-containing or elastin-containing tissue (e.g., tendons, ligaments, and cartilage) and treating related musculoskeletal and non-musculoskeletal conditions or injuries.

A medical device is for applying a force to the body of a subject by means of a force application surface. A material structure has an input for receiving a manual input force from a user of the medical device, and an output coupled to the force application surface for delivering an output force. The material structure implements a force transfer function which includes a force limiting function, so that a limited known force is applied to the body of the subject.