Introduced here are techniques for digitally characterizing the movement of a subject in order to detect the presence of a disorder or monitor the progression of the disorder. More specifically, one or more angular features can be identified that define how certain part(s) of the human body move relative to other part(s) of the human body. These angular feature(s) can be used, for example, to affirmatively diagnose instances of a disorder, eliminate a disorder as the source of symptoms experienced by a subject, generate confidence scores that can be used to assist in diagnosing a subject, monitor disorder progression due to treatment or lack thereof, etc.

It is disclosed an apparatus for restoring voluntary control of locomotion in a subject suffering from a neuromotor impairment comprising a multidirectional trunk support system and a device for epidural electrical stimulation. The robotic interface is capable of evaluating, enabling and training motor pattern generation and balance across a variety of natural walking behaviors in subjects with neuromotor impairments. Optionally, pharmacological cocktails can be administered to enhance rehabilitation results. It is also disclosed a method for the evaluation, enablement and training of a subject suffering from neuromotor impairments by combining robotically assisted evaluation tools with sophisticated neurobiomechanical and statistical analyses. A method for the rehabilitation (by this term also comprising restoring voluntary control of locomotion) of a subject suffering from a neuromotor impairment in particular partial or total paralysis of limbs, is also disclosed.

There is disclosed a device for imaging a body. In one arrangement, the device comprises a controller, storage storing electronic program instructions for controlling the controller, a display for displaying a user interface, and an input means. In one form, the controller is operable, under control of the electronic program instructions, to receive input via the input means, where the input comprises a first representation of the body, to process the first representation, to generate a second representation of the body on the basis of processing of the first representation, and to display the generated second representation via the display.

The invention is measurement of two categories of medical attributes that proceed the causes previously measured to cause lower musculoskeletal (MSK) injuries including stress fractures. The innovation is the measurement of increase in the risk for lower musculoskeletal (MSK) injuries, including stress fractures, due to genetic factors that cause disease (pre-cursors of the disease) as an independent cause for an increase in the risk of MSK injuries, and the diseased states themselves as a cause of increased risk for lower MSK injuries. The method to be used for this measurement will be through statistical and quasi-experimental design. The innovation of measuring the genetic pre-cursor of diseases and these diseases themselves includes them as antecedents for the previously measured causes of stress fractures; such as biomechanical and anatomical factors; muscle power; muscle, ligament and tendon flexibility; equipment used; nutritional; bone mineral density; smoking; amenorrhea; estrogen, among others.

A method for diagnosing a condition of a subject includes imaging an abdominal area of the subject to obtain one or more images of the abdominal area. Separation between rectus abdominis muscles in the abdominal area is located from the one or more images. Distance of the separation between the rectus abdominis muscles is quantified. The results of the quantified distance and one or more images are outputted on one or more display units.

The subject invention corresponds to a joint flexion indicator device connecting a first member to a second member, comprising a first housing connected to the first member; a second housing connected to the second member and a sensor arranged between the housings. The sensor detects an alignment between the housings, wherein the housings are aligned facing each other when the joint is extended. The device of the subject invention allows monitoring the relative position between the members articulated by the joint, which is useful for sports training where certain postures are required to achieve an adequate technical performance. For example, in the case of golf, the device of this invention allows monitoring that an arm and forearm joined by an elbow are aligned, thereby achieving superior performance during the swing stroke. The device also allows monitoring the position and alignment of legs, hands, and feet to correct ergonomic or sports postures.

Devices, systems and methods for imaging cortical and trabecular bone are described. An example method for imaging cortical and trabecular bone is provided to include applying one or more adiabatic inversion recoveiy pulses to a cortical and trabecular bone, wherein the one or more adiabatic inversion recoveiy pulses are provided with multiple spokes in a three dimensional adiabatic ultrashort TE cones sequence (3D UTE-Cones sequence) that has a TR/TI combination, TR and TI corresponding to repetition time and inversion time, respectively; and performing data acquisition, by using the multiple spokes, on a target signal obtained after the applying of the one or more adiabatic inversion recoveiy pulses.

An augmented neuromuscular training system and method for providing feedback to a user in order to reduce movement deficits associated with injury risk, prior injury or disease pathology.

Motion data collected by a sensing device attached to a patient's arm may be used to determine whether the arm is subject to thoracic outlet syndrome (TOS) Motion data regarding motion of an arm of a patient may be received from a sensing device. One or more extremity performance parameters for the arm may be determined based, at least in part, on the motion data. A determination may be made based, at least in part, on the one or more extremity performance parameters whether the arm is subject to TOS.

A forearm assessment and training device has a main support, a plurality of finger motion transmission members, a plurality of finger receivers, and a control module. Each of the finger motion transmission members has a member body with a first end and a second end. The first end of the member body of each of the finger motion transmission members is connected to the main support. Each of the finger receivers is connected to the member body of one of the finger motion transmission members. Each of the finger receivers has a finger aperture. The control module is connected to the main support. The control module includes a control module processor, a control module memory, and a sensor. The sensor is configured to measure a force applied to at least one of the finger motion transmission members.