Provided are tissue-mounted devices and methods for monitoring a thermal transport property (e.g., thermal conductivity, thermal diffusivity, heat capacity) of tissue, such as skin. The devices conformally mount to the tissue and have one or more thermal actuators and a plurality of sensors. The actuator applies heat to the tissue and the sensors to detect a spatio temporal distribution of a physiological tissue parameter or physical property resulting from the heating. This spatio temporal information may be correlated with a rate, velocity and/or direction of blood flow, the presence of a vascular occlusion, circulation changes due to inflammation, hydration level and other physiological parameters.

A device and system for promoting more recuperative sleep by regulating a user's body temperature. This may be done by using a series of devices that measure information about the user both while they are awake and while they are asleep, communicate that information to a processing unit, and create an ideal body temperature range profile based on that information. A temperature stimulus device may ensure that the core body temperature of the user stays substantially within the ideal body temperature range. By keeping the core body temperature of the user within the calculated range, the device and system will ensure deeper, and therefore more recuperative, sleep.

The present invention provides reagents and methods for modulating cone photoreceptor activity, and devices for assessment of cone photoreceptor activity.

A terahertz field effect non-invasive biofeedback diagnosis system comprises a trigger sensor, a terahertz wave source field unit, and a central processing & telemetry unit. The central processing and telemetry unit (CP&T) is used to generate different types of stimulus signals to patients and system operation units. The biofeedback diagnosis system is used to form two biofeedback loops: one loop is through a CP&T-patient-trigger sensor loop and the other loop is through a CP&T-operation unit-trigger sensor loop. The trigger sensor can remotely obtain the biofeedback signal of the patient, and process the feedback signal into a digital signal and send it back to the central processing and telemetry unit. In order to improve the feedback signal of patients, the terahertz wave source field unit is placed near the patient, so as to trigger the feedback signals of biological cells, tissues, organs and brain waves of patients for diagnosis.

A wearable device measures, tracks, and monitors a wearer's physical physiological conditions during a rehabilitation period. Metrics such as temperature, patellar shifting, limb circumference, and acceleration may be collected. Changes in monitored conditions may be assessed for detecting medical abnormalities which require specialized attention, including for example embolisms or infections. A networked communication system and various user interfaces may be used for medical support personnel and patients alike to stay updated with the patient's rehabilitation progress and to make adjustments in a patient's individual rehabilitation program.

Method, device and machine for calculating an index representative of properties of a material of the bone type of an individual to be subjected to tests, particularly wherein the method includes a first acquisition step for acquiring at least one image having a plurality of elementary units of a sample of the material, wherein a generation step is provided for generating a grid of elementary geometric elements, or cells, which is associated with, in particular superimposed on, the image, an image processing step in which it is provided to calculate at least the apparent elastic modulus and a density coefficient of the material, both as a function of characteristic values of each cell, and a calculation step for calculating the index representative of the properties of a material, wherein the index is a function of the value of the apparent elastic modulus net of the contribution of the density coefficient.

A sensor device includes a housing defining a cavity, an inlet to receive fluid pumped from an instrument device, an outlet to return the fluid to a fluid reservoir, and a fluid channel defined inside the cavity between the inlet and the outlet. A heat pump is mounted inside the cavity, and has a side surface thermally coupled to the fluid channel and an opposite side surface thermally coupled to a plate. The heat pump is configured to induce a temperature change. A sensor unit is aligned with an aperture in the plate and includes an optical component and a thermal component. The optical component configured to measure a vascular endothelial response from the induced temperature change.

A loading device, a monitoring system, and a method thereof can measure stiffness of a structural member (SM) and monitor progress or property thereof over time. The loading device includes two types of displacement sensors, one type being an antenna. As the SM, which is in a magnetic or electromagnetic field and electromagnetically coupled to the antenna without contact, undergoes displacement under known loads, characteristics of the electromagnetic field coupling between the antenna and the SM change over time due to the displacement of the SM. The shift in the characteristics of the electromagnetic field coupling between the antenna and the SM can be used to determine the displacement of the SM. Based on the changes in the displacement over time, diagnosis of the SM being monitored over an evaluation period can be made. The loading device includes at least one movable frame to apply a preload to the SM.

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.

The present disclosure provides systems and methods for predicting a disease state of a subject using ultrasound imaging and ancillary information to the ultrasound imaging. At least two quantitative measurements of a subject, including at least one measurement taken using ultrasound imaging, as part of quantified information can be identified. One of the quantitative measurements can be compared to a first predetermined standard, included as part of ancillary information to the quantified information, in order to identify a first initial value. Further, another of the quantitative measurements can be compared to a second predetermined standard, included as part of the ancillary information, in order to identify a second initial value. Subsequently, the quantitative information can be correlated with the ancillary information using the first initial value and the second initial value to determine a final value that is predictive of a disease state of the subject.