A method for detecting disease using a manometry includes obtaining pressure values from each of the plurality of pressure sensors during a pre-set time, obtaining a three-dimensional pressure distribution showing the changes in the pressure values according to location and time by using the time, the pressure values, and locations in which the pressure sensors are disposed within the arbitrary location section, and calculating the volume integral value of the interest location which is predetermined in accordance with the disease, in the three-dimensional pressure distribution.

A variety of medical and non-medical devices are exploited by users to address a wide range of conditions. However, in the vast majority of instances, the device has a limited number of options with respect to its fit for the user and its performance. Further, the determination of target performance and fit are established on a qualitative basis rather than a quantitative basis. In many instances, these combinations lead to low user acceptance of the device due to the resulting performance and fit issues. Accordingly, it would enhance performance and user acceptance if a quantitative determination provided a recommended type where options exist, and this determination provided the basis of a custom designed device to the user's specific anatomical and/or performance requirements.

A therapeutic pelvic region analyzer and method of use thereof that includes an expandable device sized and shaped for insertion into an opening in a pelvic region of a user and a collapsible reservoir fluidly coupled to the expandable device. The collapsible reservoir is configured to temporarily retain and expel an amount of fluid. A tube defining a fluid-flow path for the amount of fluid is between the expandable device and the collapsible reservoir. The therapeutic pelvic region analyzer also includes fluid-flow control valve disposed between the expandable device and the collapsible reservoir. The fluid-flow control valve is operable to provide a selectively variable level of resistance as the amount fluid passes from the expandable device to the collapsible reservoir.

Systems and methods for mapping a cavernous nerve near an organ. The system includes: one or more processors; and a memory that is communicatively coupled to the one or more processors and stores one or more sequences of instructions, which when executed by one or more processors causes steps to be performed comprising: applying an excitation signal to an electrode at a tip of an laparoscope, the tip being configured to contact a point on a tissue near an organ; responsive to the excitation signal, measuring a change in a signal from a pair of electrodes configured to be installed on the penis, the change in the signal being associated with an erectile function of the penis; and based on the change in the signal from the pair of electrodes, determining a distance between the point on the tissue and a cavernous nerve near the organ.

The present invention relates to the diagnosis and treatment of pelvic floor prolapse. The diagnosis and treatment may involve the use of a multiple sensor-enabled device for vaginal insertion capable of providing real-time data regarding the patient's physiology, the position and movement of the urethra, and the muscular strength of the patient's vagina and pelvic floor. The methods and devices of the invention may also be useful to addressing other medical issues, including urinary incontinence, sexual health, and fecal incontinence, as well as facilitate patient home wellness activities.

A muscle training apparatus capable of generating a force is disclosed. The muscle training apparatus includes a second support shell, a force-generating unit and an elastic covering unit. The second support shell is spherical and has a second containing space. The force-generating unit is disposed and fixed in the second containing space of the second supporting shell for generating a force. The elastic covering unit covers the second support shell to have a soft surface. The muscle training device can generate a force in a specific direction and intensity by the force-generating unit.

A muscle training apparatus with muscle strength detecting function includes a first supporting shell, a plurality of membrane pressure-sensing units, an arithmetic processing unit and an elastic covering unit. The first support shell is spherical and has a first outer surface and a first containing space. The membrane pressure-sensing unit is disposed on the first outer surface of the first support shell. The arithmetic processing unit is disposed in the first containing space and electrically connected to the membrane pressure-sensing unit. The elastic covering unit covers the first support shell.

A pelvic floor muscle training and profiling apparatus for inserting into a body cavity of a human, said apparatus comprising; a body having a distal end, an opposite proximal end and an outer surface, the body extending between said ends, a sensor array encompassed in the body, the sensor array comprising a sensor unit, the sensor unit being adapted for detecting an exterior force applied to the outer surface of the body, a micro-control unit adapted to receive sensor data from the sensor array, wherein the sensor unit is adapted for detecting a specific position of the exterior force applied to the outer surface of the body.

The diagnostic probe can be inserted into a vaginal or rectal body endo-cavity of the human body so as to measure the displacement of the walls of the endo-cavity and organs that surround the endo-cavity and so as to measure the displacement and the passive and active resistance of at least one muscle of the perineum. The diagnostic probe includes at least one endo-cavitary body provided with at least two pressure sensors arranged in the same plane and acting either in the same direction or in two opposite directions. The endo-cavitary body can be deformable without opposing resistance and matching the walls of the endo-cavity. The endo-cavitary body includes at least one device for measuring the displacement of the endo-cavitary wall along the three axes X, Y and Z.

A method and a robotic system for online localized fatigue-state detection of a subject in a co-working environment using a non-intrusive approach is disclosed. A force sensor, mounted on the robotic system is capable of capturing effective force applied by local muscles of the subject co-working with the robotic system, providing a non-intrusive sensing. The captured force is analyzed on-line by the robotic system 102 to detect current fatigue state of the subject and proactively predict the future state of the subject. Thus, enables alerting the subject before time avoiding any possible accident.