The present invention is directed to a device for measurement of the rigidity and/or tumescence of a penis during a penile tumescent event. In particular, the device of the present invention comprises axial and/or radial monitoring means for monitoring the axial and/or radial tumescence and/or rigidity of a penis during a penile tumescent event. The present invention further also provides methods for monitoring the axial and/or radial tumescence and rigidity of a penis.

Systems and methods for estimating emotional states, moods, affects of an individual and providing feedback to the individual or others are disclosed. Systems and methods that provide real time detection and monitoring of physical aspects of an individual and/or aspects of the individual's activity and means of estimating that person's emotional state or affect and change to those are also disclosed. Real time feedback to the individual about the person's emotional change, change or potential change is provided to the user, helping the user cope, adjust or appropriately act on their emotions.

The present invention relates to a device for treating an aneurysm of a human or mammal patient, wherein the aneurysm may self expand, leading to the aneurysm bursting with high risk for death of the human or mammal patient. The device is provided with an implantable member to be placed in connection with the outside of a blood vessel having the aneurysm, and to exercise a pressure on the outside of the blood vessel having the aneurysm, a measuring device or sensor for measuring or sensing an expansion of the aneurysm, and a monitoring system for monitoring the expansion of the aneurysm based on a signal received from the measuring device or sensor.

A system and a method for improved imaging and segmentation of cavernous nerves are disclosed herein. Some exemplary embodiments are related to a method of imaging erectile nerves using a magnetic resonance imaging (MRI) system. The method includes positioning a first radiofrequency (RF) coil on a first side of a body of a patient disposed on an MRI table and a second RF coil on a second side of the body of the patient symmetrical with respect to the first RF coil; performing a localizer scan sequence to determine plotting of image slices; performing a T2-weighted true (FISP) cine MRI sequence of the pelvic region to determine whether patient physiological activity corresponds to a desired condition; generating a plurality of images of the pelvic region using an MRI sequence protocol; and performing post-processing and 3D reconstruction on the plurality of images to map the at least one erectile nerve.

Arousal events can be determined for a user associated with a wearable device, such as a user wearing a wearable computing device including one or more sensors. The one or more sensors may obtain EDA information that may determine a sympathetic nervous system response of the user, which may be responsive to an arousal event or an activation. Detection of events that increase the EDA response may provide information to the user regarding arousal events and provide recommendations to the user to address the arousal events to decrease their response.

Arousal events can be determined for a user associated with a wearable device, such as a user wearing a wearable computing device including one or more sensors. The one or more sensors may obtain EDA information that may determine a sympathetic nervous system response of the user, which may be responsive to an arousal event or an activation. Detection of events that increase the EDA response may provide information to the user regarding arousal events and provide recommendations to the user to address the arousal events to decrease their response.

A fabric strain gauge includes a knitted fabric and a plurality of conductive measuring fibers, a first high conductivity fiber, and a second high conductivity fiber. The conductive measuring fibers are threaded with the knitted fabric, the first high conductivity conductive fiber is threaded with the knitted fabric, and connected to one or more ends of the conductive measuring fibers, and the second high conductivity fiber is threaded with the knitted fabric, and connected to the other ends of at least part of the conductive measuring fibers. In addition, a fabric pressure gauge and a smart clothing are also disclosed herein.

A method and system to obtain and process data indicative of muscle reflexes for screening and/or diagnosing a patient with a brain injury or spinal cord injury, and especially for obtaining and processing data indicative of reflexes from the bulbospongiosus muscle. Certain embodiments employ a novel electromechanical probe for stimulating the bulbospongiosus muscle to identify a time of the stimulation so that electrical responses from electrodes on the patient's skin can be identified for analysis.

Systems and methods for monitoring penile tumescence are provided that overcome the drawbacks of previously known systems by providing a wearable formed of a flexible and elastic tube having a plurality of sensors disposed on or embedded within it, the wearable configured to be applied to a penis of a subject, and a spaced-apart controller operatively coupled to retrieve data regarding circumferential and axial dimensional changes and penile rigidity from the plurality of sensors and transmit that data to an external computer or smartphone for analysis and display. The plurality of sensors may be coupled to the spaced-apart controller via a flexible lead or wirelessly using a passive RFID system.

Methods and apparatuses for monitoring and regulating physiological states and functions are disclosed. Several embodiments include application of one or more microelectrode arrays to a dorsal root ganglion for measurement of sensory neuron activity, or stimulation of sensory reflex circuits. The methods and apparatuses can be used, for example, for monitoring or controlling bladder function in a patient.