Provided is a test object visualizing device, including: light irradiating unit configured to make wavelength of at least any one of pump light and Stokes light generated on the same optical path variable per test position of test object, and irradiate test object with pump light and Stokes light; molecule distribution image generating unit configured to detect anti-Stokes light emitted from test object according to wavelength difference between pump light and Stokes light, and generate a molecule distribution image based on anti-Stokes light; tomographic image generating unit configured to detect at least any one of reflected light from test object when irradiated with pump light and reflected light from test object when irradiated with Stokes light, and generate a tomographic image of test object based on the reflected light detected; and image display unit configured to display at least any one of molecule distribution image and tomographic image generated.

A system for performing at least one impedance measurement on a biological subject, the system including a measuring device having a first housing including spaced pairs of foot drive and sense electrodes provided in electrical contact with feet of the subject in use, a second housing including spaced pairs of hand drive and sense electrodes provided in electrical contact with hands of the subject in use, at least one signal generator electrically connected to at least one of the drive electrodes to apply a drive signal to the subject, at least one sensor electrically connected to at least one of the sense electrodes to measure a response signal in the subject and a measuring device processor that at least in part controls the at least one signal generator, receives an indication of a measured response signal from the at least one sensor and generates measurement data indicative of at least one measured impedance value and a client device in communication with the measuring device, the client device being adapted to receive measurement data allowing the client device to display an indicator associated a result of the impedance measurement.

A method and system for selecting a treatment for a subject based on a value for the interstitial space volume of the subject utilizes plurality of sample data values representing concentrations of small and large markers in plurality of blood samples over time. The sample concentrations are utilized to predict a hypothetical peak concentration of the small marker prior to the dissipation of the markers during the test period. This hypothetical peak concentration and other sample values are utilized with either a bi-exponential or tri-exponential decay curve fitting algorithm to define a decay curve, the curve characteristics of which are then utilized to calculate values for glomerular filtration rate, a leakage rate of the small marker into interstitial space, and finally a value for the interstitial volume. The determined value for the interstitial volume can then be compared with number thresholds and decisions made for recommended therapy for the subject, if desired.

A system for performing at least one impedance measurement on a biological subject, the system including a measuring device having a first housing including spaced pairs of foot drive and sense electrodes provided in electrical contact with feet of the subject in use, a second housing including spaced pairs of hand drive and sense electrodes provided in electrical contact with hands of the subject in use, at least one signal generator electrically connected to at least one of the drive electrodes to apply a drive signal to the subject, at least one sensor electrically connected to at least one of the sense electrodes to measure a response signal in the subject and a measuring device processor that at least in part controls the at least one signal generator, receives an indication of a measured response signal from the at least one sensor and generates measurement data indicative of at least one measured impedance value and a client device in communication with the measuring device, the client device being adapted to receive measurement data allowing the client device to display an indicator associated a result of the impedance measurement.

The terminal may include a touch panel including first electrodes arranged in a first direction and second electrodes arranged in the second direction intersecting the first direction, a display panel attached to the touch panel and to display an image, and a processor to control the touch panel and the display panel. In a measuring mode, the processor is configured to: apply a driving signal to the touch panel, the touch panel being configured to form an electric field and/or magnetic field when the driving signal is applied, and determine body composition of a user based on a sensing signal output from the touch panel in accordance with eddy current, the eddy current being induced to a body of the user by the electric field and/or magnetic field formed around the touch panel.

Described herein are systems and methods for performing multi-parametric diagnosis for liver disease. Systems and methods as described herein can include positioning a subject-in association with a medical imaging device and using the medical imaging device to measure the subject's liver for extracellular fluid and iron content. Systems and methods as described herein can further include determining whether iron overload may be indicated or present from the measurement for iron content, and if indicated, correcting the measurement for extra cellular fluid. Systems and methods as described herein can further include measuring the liver for hepatic lipid content (HLC). Systems and methods as described herein can determine the presence or absence of liver disease from measurements obtained from a subject. In certain embodiments, the medical imaging device is a magnetic resonance (MR) scanner. In certain embodiments, the liver is measured for iron overload.

An apparatus, method and computer program is described comprising: varying a magnetic field strength of a magnetic field applied to a subject; determining a rate of power loss of the magnetic field, wherein the rate of power loss is a function of the varying magnetic field strength; and providing an output signal based on the determined rate of power loss, wherein the output signal comprises information relating to a conductivity distribution of the subject.

A system for performing at least one impedance measurement on a biological subject, the system including a measuring device having a first housing including spaced pairs of foot drive and sense electrodes provided in electrical contact with feet of the subject in use, a second housing including spaced pairs of hand drive and sense electrodes provided in electrical contact with hands of the subject in use, at least one signal generator electrically connected to at least one of the drive electrodes to apply a drive signal to the subject, at least one sensor electrically connected to at least one of the sense electrodes to measure a response signal in the subject and a measuring device processor that at least in part controls the at least one signal generator, receives an indication of a measured response signal from the at least one sensor and generates measurement data indicative of at least one measured impedance value and a client device in communication with the measuring device, the client device being adapted to receive measurement data allowing the client device to display an indicator associated a result of the impedance measurement.

The embodiments disclose a test cartridge assembly system including a test cartridge assembly for loading of a test sample moving the fluid through the internal fluidic channels processing and presenting the sample to one or more electrochemical sensors for measuring analytes in the test sample, at least one fluidic channel formed directly in a rigid portion of an upper test cartridge assembly housing to form a fluidic path, a port coupled to the at least one fluidic channel for receiving a spring loaded vacuum source, a port coupled to the upper test cartridge assembly housing to communicate the vacuum through the upper cartridge housing into the fluidic path, and a functional layer coupled to the test cartridge assembly configured to provide electrical functionalities and interconnections to various fluidic components.

System for determining heart failure indicator indicative of a heart failure disease state in a subject, including processing device(s) that at least in part control signal generator(s) and receives an indication of a measured response signal from sensor(s) allowing first and second impedance measurement(s) to be performed across at least one body segment, determines a first fluid level indicator using first impedance value(s) obtained by performing the first impedance measurement(s), the first fluid indicator being indicative of a first ratio of ECF to TBW at a first time, determines a second fluid level indicator using second impedance value(s) obtained by performing the second impedance measurement(s), the second fluid indicator being indicative of a second ratio of ECF to TBW at a second time, determines a fluid level change using a difference in the first and second fluid level indicators, and, determines the heart failure indicator using the fluid level change.