A measurement system for measuring blood characteristics includes a controller, an emitter, a sensor, and a reference sensor. The emitter emits light at a plurality of wavelengths from a first side of a blood flow channel to a second side of the blood flow channel. The sensor is provided on the second side of the blood flow channel. The reference sensor is provided on the first side of the blood flow channel. The controller compensates measurements from the sensor based upon measurements from the reference sensor. The reference sensor may be disposed in a position to increase noise immunity of the measurement system. The measurement system may be connected to or part of a dialysis system.

An optical system having a chamber for receiving an element of body fluid or tissue or environmental sample to be characterized has a light source for illuminating the chamber with light, and a spectrometer for recording a spectrum of light originating from the chamber. The light source has two separate LEDs to emit light having at least two spectral maxima of different wavelength ranges. The light from the light source is directed to the chamber. A method for determining a parameter representing a property of the element with the optical system, wherein, light having at least two spectral maxima of different wavelength ranges generated by separate LEDs is directed onto the element, a spectrum with reflected components of the light, scattered components of the light, and/or light caused by Raman scattering or fluorescence of the element is measured with the spectrometer, and the parameter is determined by evaluating the spectrum.

In the present invention, a fluorescent substance detection system (S) for detecting fluorescent substances in any environment is provided. Said detection system (S) comprises at least one illumination unit (1) which emits light to said environment in order to excite said substances; detection units (2), at least at a number equal to the number of types of fluorescent substances, for detecting emissions coming from said excited fluorescent substances and bandpass filters (3), each connected to detection units (2) one by one, wherein bandpass filters (3) have a center wavelength matched to the center emission wavelength of corresponding fluorescent substance.

Absorption monitor system comprising a light source and a light detector arranged so as to define an absorption detection light path there between, and a controller arranged to control the operation of the light source, wherein the light source comprises a Light Emitting Diode capable of emitting light in the UV range (UV-LED) and wherein the absorption monitor system does not comprise a reference light-detector and the controller is arranged to compensate for fluctuations in light output intensity from the UV-LED.

A measurement system for measuring blood characteristics includes a controller, an emitter, a sensor, and a reference sensor. The emitter emits light at a plurality of wavelengths from a first side of a blood flow channel to a second side of the blood flow channel. The sensor is provided on the second side of the blood flow channel. The reference sensor is provided on the first side of the blood flow channel. The controller compensates measurements from the sensor based upon measurements from the reference sensor. The reference sensor may be disposed in a position to increase noise immunity of the measurement system. The measurement system may be connected to or part of a dialysis system.

A flow cell system for an optical fluid analysis comprises a disposable flow cell having at least one flow chamber comprising a fluid pathway, and at least one pair of opposed light transmitting windows along the fluid pathway, an external flow cell holder for holding the flow cell, at least one light source, and an external detection device couplable with at least one of the flow cell holder and the flow cell for bringing the external detection device in optical communication with the flow cell, the device having at least one optical detection unit. The external detection device is configured to conduct optical measurements of the fluid that flows in the flow cell through at least one pair of windows from externally under illumination by the at least one light source.

An instrument for processing and/or measuring a biological process comprises a sample processing system and an excitation source exhibiting a spectral function of output power or intensity verses wavelength of output power or intensity. The spectral function has a minima wavelength corresponding to a local minima value of the output power or intensity; a first maxima wavelength corresponding to a first local maxima of output power or intensity, the output power or intensity at the first local maxima being greater than the output power or intensity at any wavelength less than the minima wavelength; a second maxima wavelength corresponding to a second local maxima of output power or intensity, the output power or intensity at the second local maxima being greater than the output at any wavelength greater than the minima wavelength; the minima wavelength is between the first maxima wavelength and the second maxima wavelength.

In the present invention, a fluorescent substance detection system (S) for detecting fluorescent substances in any environment is provided. Said detection system (S) comprises at least one illumination unit (1) which emits light to said environment in order to excite said substances; detection units (2), at least at a number equal to the number of types of fluorescent substances, for detecting emissions coming from said excited fluorescent substances and bandpass filters (3), each connected to detection units (2) one by one, wherein bandpass filters (3) have a center wavelength matched to the center emission wavelength of corresponding fluorescent substance.

In the present invention, a fluorescent substance detection system (S) for detecting fluorescent substances in any environment is provided. Said detection system (S) comprises at least one illumination unit (1) which emits light to said environment in order to excite said substances; detection units (2), at least at a number equal to the number of types of fluorescent substances, for detecting emissions coming from said excited fluorescent substances and bandpass filters (3), each connected to detection units (2) one by one, wherein bandpass filters (3) have a center wavelength matched to the center emission wavelength of corresponding fluorescent substance.

The invention relates to a system for the in vitro detection and/or quantification, by fluorometry, of at least one analyte in a sample of fluid constituting a biological material, in particular for an immunological test, including a radiation source, followed by an optical splitter for splitting the main beam into a sample-energizing beam and a reference beam, with a first photodetector means for detecting a fluorescence ray emitted by the sample and a second photodetector means for the reference beam, said system also including a generator outputting a sinusoidal carrier signal and at least one digital demodulation signal, and a digital processing means for processing, by demodulation, the signals from the two photodetector means in order to extract a fluorescence value that is characteristic of the amplitude of the fluorescence ray and a second reference value that is characteristic of the amplitude of the reference beam.