An apparatus for testing and exercising pelvic floor musculature, the apparatus comprising an elongate housing adapted for a pelvic floor aperture. The housing accommodates an oscillator and an accelerometer connected to a signal processor configured for communicating signals representative of values read from the accelerometer. A result is calculated from an applied oscillation and a response measured, and used for characterizing the musculature. In one embodiment the frequency resulting in the greatest response from the musculature is measured, and this frequency is applied during exercise.

Provided is an information processing device including an acquisition unit configured to acquire motion information of a foot of a user measured by a motion measurement device and a determination unit configured to determine whether or not the user is in a pedaling state in which the user pedals a bicycle based on an angle between a sole and a ground generated from the motion information.

A physical training system for pelvic floor muscle, wherein the physical training system for pelvic floor muscle is capable of providing at least one optional exercising setting to user for making the physical training system for pelvic floor muscle can guide the user to accomplish at least one exercising movement, wherein the exercising setting is selected from a group of exercising settings, wherein the group of exercising settings comprises an exercising movement setting, an exercising time setting, an exercising intensity setting, an exercising frequency setting, an exercising guidance setting, an exercising auxiliary setting and an exercising feedback setting, wherein the physical training system for pelvic floor muscle comprises a processor and a Client, wherein the processor is capable of providing at least one optional exercising setting to user, wherein the exercising settings are set to be displayed on the Client.

A physical training system for pelvic floor muscle, wherein the physical training system for pelvic floor muscle is capable of providing at least one optional exercising setting to user for making the physical training system for pelvic floor muscle can guide the user to accomplish at least one exercising movement, wherein the exercising setting is selected from a group of exercising settings, wherein the group of exercising settings comprises an exercising movement setting, an exercising time setting, an exercising intensity setting, an exercising frequency setting, an exercising guidance setting, an exercising auxiliary setting and an exercising feedback setting, wherein the physical training system for pelvic floor muscle comprises a processor and a Client, wherein the processor is capable of providing at least one optional exercising setting to user, wherein the exercising settings are set to be displayed on the Client.

A system and method are described for assessing muscle parameters (e.g., force(s) exerted, force dynamics, strength, voluntary muscle movement, etc.) in a diagnostic or therapeutic environment. The muscle parameter assessment system includes a force-gauging device and a computing device. The force-gauging device includes at least one pressure-sensing component (e.g., transducer, pressure sensor, etc.) configured to respond to a force applied by a subject and produce one or more output signals. The force-gauging device can further include electronic circuitry configured to convert the output signals into data indicative of a muscle parameter. The computing device is configured to build a muscle assessment protocol based on one or more patient characteristics and/or user input. The computing device is further configured to execute one or more muscle assessments via the force-gauging device, receive data from the force-gauging device, and determine one or more muscle measurements for a subject.

We report method of detecting a pathological body state of a patient, comprising receiving a body signal of the patient; determining a body index from said body signal; determining an activity level of said patient; determining a value range for said body index for said patient, based at least in part on said activity level; comparing said body index to said value range; and detecting a pathological state when said body index is outside said value range. We also report a medical device system configured to implement the method. We also report a non-transitory computer readable program storage unit encoded with instructions that, when executed by a computer, perform the method.

An apparatus for evaluating the tongue strength and coordination of a subject includes an intermediate device such as a lever which is pivotably attached to a coupling device and extends into a cavity of a nipple element. The lever is detached from the nipple and pivotable in response to deformation of the nipple element by a tongue force exerted on the nipple element by a subject during a suck-swallow-breathe sequence. The coupling device includes a sensing device to wirelessly transmit sensor outputs to a mobile device paired to the sensing device. The sensing device includes at least one sealed chamber defined by a membrane and a sensor. In one example, a first membrane and sensor senses pressure change in a fluid in the apparatus, and a second membrane and sensor is actuated by the intermediate device to sense deformation of the nipple element. A method using the apparatus is provided.

A gait analysis system is disclosed. Some implementations of the gait analysis system include instrumented footwear including mobile sensors, a processor, a computer-readable data storage device storing program instructions. The program instructions can control the system to perform operations, including, determining gait information of a user performing a test routine, using the instrumented footwear. The operations can also include determining gait parameters based on the gait information. The operations can also include determining gait symmetry of the user based on the gait parameters. The operations can also include determining a gait signature of the user based on the gait parameters. The operations can also include determining a treatment effect based on the gait signature.

A gait analysis system is disclosed. Some implementations of the gait analysis system include instrumented footwear including mobile sensors, a processor, a computer-readable data storage device storing program instructions. The program instructions can control the system to perform operations, including, determining gait information of a user performing a test routine, using the instrumented footwear. The operations can also include determining gait parameters based on the gait information. The operations can also include determining gait symmetry of the user based on the gait parameters. The operations can also include determining a gait signature of the user based on the gait parameters. The operations can also include determining a treatment effect based on the gait signature.

A pain-monitoring device and method according to an embodiment of the present disclosure is a pain-monitoring device for obtaining information related to a pain of a user and providing a service of monitoring the pain of the user, includes: an input unit sensing pain-related input of the user; a display unit outputting pain-related information; and a control unit controlling the input unit and the display unit, in which the input unit includes: a touch input unit sensing touch input of the user; and a pressure measurement unit measuring pressure input of the user, and the control unit creates user-input pain information in accordance with the sensed pressure input and touch input.