An analyzer for diagnosing pulmonary and abdominals including, a pulsed force generator for outputting a mechanical disturbance to generate vibrations and reflected/return waves/vibrations in a patient's torso, and sensors for detecting the vibration/return wave signals. The apparatus compares the detected electrical signals with pre-stored reference wave profiles and based on the compared data generates an output signal indicative of a potential presence or absence of a pulmonary disease and/or condition.

A method of diagnosing and treating a sacroiliac joint of a patient involving delivering a first member into the ilium via a first posterior approach, delivering a second member into the sacrum via a second posterior approach, coupling the first and second members to a pliers, and manipulating the first member relative to the second member via the pliers to determine an ailment of the sacroiliac joint.

Methods, systems, and computer readable media for taking measurements of a material, including determining material anisotropy, are provided. According to one aspect, a method for determining tissue anisotropy comprises: applying, to a tissue sample, a first force having a direction and having a coronal plane normal to the direction of the force, the first force having an oval or other profile with long and short axes within the coronal plane, the long axis being oriented in a first direction within the coronal plane, and measuring a first displacement of the tissue; applying, to the tissue sample, a second force, and measuring a second displacement of the tissue; and calculating a tissue elasticity anisotropy based on the measured first and second displacements. Furthermore, by applying the first and second forces multiple times, tissue viscosity, elasticity, or other anisotropy may be calculated from the multiple displacement measurements.

A method for evaluating pain experienced by a human is disclosed. The method includes applying a first noxious stimulus to a normative site on the human, wherein the first noxious stimulus is applied below a pain threshold of the human and logging a first information associated with the first noxious stimulus. The method further includes applying a second noxious stimulus to a source of the pain in the human, wherein the second noxious stimulus is applied until pain threshold is reached and logging a second information associated with the second noxious stimulus. The method further includes increasing the second noxious stimulus until pain tolerance is reached and logging a third information associated with the second noxious stimulus. The method further includes continuing to apply the second noxious stimulus until the human can no longer tolerate the second noxious stimulus and logging a fourth information associated with the second noxious stimulus.

A massage mechanism includes a portion, which, in a muscle hardness measurement mode, drives an advancing/retreating motor to rotate in a predetermined direction by constant-speed control to press a massage element into a body of a person to be treated, a portion monitoring a change rate of a motor current flowing through the advancing/retreating motor during driving of the advancing/retreating motor and stopping the driving of the advancing/retreating motor when the change rate of the motor current becomes not less than a predetermined threshold, a portion, which, after stoppage of the driving of the advancing/retreating motor, drives a tapping motor to rotate by constant-speed control to make the massage element perform a tapping operation, a current detection portion, detecting a motor current flowing through the tapping motor during driving of the tapping motor, and a portion measuring a muscle hardness of the person to be treated based on the motor current detected by the current detection portion.

A reverberant shear wave field in an object such as a patient's body or organ causes deformations in one or more selected directions measured with an imaging modality such as ultrasound or MR equipment or other imaging equipment, to estimate displacements in one or more selected directions over time increments and then viscoelastic properties such as stiffness or other parameters of the ROI.

Tissue force displacement data can be used to evaluate the suitability of a subject for an apnea therapy, such as therapy with an implanted magnet. A method of evaluating a suitability of a subject for an apnea therapy comprises placing an engagement structure on a tissue of the subject to engage the tissue of the subject. The engagement structure is moved toward the tissue to a location to move the tissue. One or more of the location or a force to the engagement structure at the location is measured. The suitability of the of the subject for the apnea therapy is determined in response to the force at the location.

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 does not include an external on/off switch or any remote on/off switching mechanism. 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.

A wearable orthotic appliance to which at least one corrective element for correcting neuromuscular imbalances may be removably attached is made of fabric assembly held in compressive tension when worn by a user, the fabric assembly including a cavity or chamber into which the corrective element may be placed and secured at any of a plurality of continuously-adjustable positions. Maintenance of the corrective element position during use of the appliance may be assisted by establishing a compression gradient over selected areas of the appliance during assembly. The wearable orthotic appliance may be a shirt, vest, body suit, or other garment or article of clothing, and the corrective elements may be weights, electrodes, or other discrete elements whose therapeutic effect depends on proper positioning relative to the wearer's torso or other body parts.

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 analyzes. 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.