Abstract: An optical sampling subsystem and method that reduces the effect of errors in an optical sampling subsystem when heterogeneously distributed samples are measured in the path of a spectrometer. The optical sampling subsystem is used to collect the non-uniformly distributed radiation exiting the heterogeneous sample and produce a uniform irradiance at its output. The output is then directed into the wavenumber (inverse of wavelength in centimeters) dispersive or modulating device of the spectrometer. The resulting spectra exhibit less spectral complexity arising from components of the sampling subsystem design and the heterogeneous sample, in particular, the effect of wavenumber shift is minimized. Improved quantitative predictions, qualitative analysis and calibration transfer are direct consequences of the reduced spectral complexity.
Type:
Grant
Filed:
April 4, 2002
Date of Patent:
January 27, 2004
Assignee:
Inlight Solutions, Inc.
Inventors:
Trent Ridder, John D. Maynard, Russell E. Abbink, Robert D. Johnson
Abstract: A vertical cavity surface-emitting laser (VCSEL) package utilized as a laser reference for use in interferometry. The primary disadvantage of VCSELs, in terms of interferometry, has been found to be the relatively poor wavenumber stability of the beam. The present invention is a method and apparatus that makes viable a VCSEL package suitable for use as a reference in interferometry. The VCSEL package incorporates current control, temperature control and an algorithm for correcting wavenumber drift. The algorithm is derived from spectroscopic analysis of a reference sample having a known spectrum and comparing the generated spectrum to the known spectrum.
Abstract: Methods and apparatus for non-invasive tissue urea concentrations during or subsequent to hemodialysis using near-infrared spectroscopy are discussed. Near-infrared tissue spectra can be obtained by projecting near-infrared radiation into skin on the underside of human forearms and capturing the light reflected back and out through the tissue. An index matching medium is used to couple the tissue to the analyzer. The tissue spectrum collected preferably includes primarily diffuse reflected light reflected from the inner dermis. Multiple tissue spectra of known urea concentration are used to build a model from which the urea concentration of an unknown sample can be devised. The model is based on a partial least squares algorithm applied to multiple tissue scans and concomitant blood sample urea measurements. This model is then applied to an unknown tissue spectra.
Abstract: A method for non-invasively measuring the concentration of an analyte, particularly blood analyte in blood. The method utilizes spectrographic techniques in conjunction with an improved optical interface between a sensor probe and a skin surface or tissue surface of the body containing the blood to be analyzed. An index-matching medium is disclosed to improve the interface between the sensor probe and skin surface during spectrographic analysis. In a preferred embodiment, the blood analyte concentration in blood is quantified utilizing a partial squares analysis relative to a model incorporating analysis of plural known blood samples.
Type:
Grant
Filed:
September 28, 2000
Date of Patent:
September 16, 2003
Assignee:
InLight Solutions, Inc.
Inventors:
Mark Ries Robinson, Robert G. Messerschmidt