DR. CHRISTOPHER MJ BROWN, M.D.
Osteopathic Medicine at Saint Michaels Dr, Santa Fe, NM

8078243, Dec 13, 2011

Nov 17, 2006

11/561380

Marwood Neal Ediger - Albuquerque NM, US
John D Maynard - Albuquerque NM, US
Robert D Johnson - Federal Way WA, US
Edward L Hull - Fairport NY, US
Christopher D Brown - Albuquerque NM, US

VeraLight, Inc. - Albuquerque NM

A61B 5/1455

600310, 600476

A method of determining a measure of a tissue state (e. g. , glycation end-product or disease state) in an individual. A portion of the tissue of the individual is illuminated with excitation light, then light emitted by the tissue due to fluorescence of a chemical with the tissue responsive to the excitation light is detected. The detected light can be combined with a model relating fluorescence with a measure of tissue state to determine a tissue state. The invention can comprise single wavelength excitation light, scanning of excitation light (illuminating the tissue at a plurality of wavelengths), detection at a single wavelength, scanning of detection wavelengths (detecting emitted light at a plurality of wavelengths), and combinations thereof. The invention also can comprise correction techniques that reduce determination errors due to detection of light other than that from fluorescence of a chemical in the tissue. For example, the reflectance of the tissue can lead to errors if appropriate correction is not employed.

7675611, Mar 9, 2010

Sep 28, 2007

11/864304

Masud Azimi - Belmont MA, US
Arran Bibby - Savannah GA, US
Christopher D. Brown - Albuquerque NM, US
Peili Chen - Andover MA, US
Kevin J. Knopp - Newburyport MA, US
Daryoosh Vakhshoori - Cambridge MA, US
Peidong Wang - Carlisle MA, US

Ahura Scientific Inc. - Wilmington MA

G01N 21/35, G01N 21/65

356 73, 356301, 356451, 25033908, 25033911

We disclose apparatus that includes: (a) an enclosure including an aperture; (b) a prism mounted in the enclosure so that a surface of the prism is exposed through the aperture; (c) an optical assembly contained within the enclosure, the optical assembly including a radiation source and a radiation detector, the source being configured to direct radiation towards the prism and the detector being configured to detect radiation from the source reflected from the exposed surface of the prism; and (d) an electronic processor contained within the enclosure, the electronic processor being in communication with the detector. The apparatus can be configured so that, during operation, the electronic processor determines information about a sample placed in contact with the exposed surface of the prism based on radiation reflected from the exposed prism surface while it is in contact with the sample.

8248588, Aug 21, 2012

Apr 15, 2011

13/087753

Masud Azimi - Belmont MA, US
Arran Bibby - Savannah GA, US
Christopher D. Brown - Albuquerque NM, US
Peili Chen - Andover MA, US
Kevin J. Knopp - Newburyport MA, US
Daryoosh Vakhshoori - Cambridge MA, US
Peidong Wang - Carlisle MA, US

Thermo Scientific Portable Analytical Instruments Inc. - Tewksbury MA

G01N 21/25

356 73, 356445, 356301

We disclose apparatus that includes: (a) an enclosure including an aperture; (b) a prism mounted in the enclosure so that a surface of the prism is exposed through the aperture; (c) an optical assembly contained within the enclosure, the optical assembly including a radiation source and a radiation detector, the source being configured to direct radiation towards the prism and the detector being configured to detect radiation from the source reflected from the exposed surface of the prism; and (d) an electronic processor contained within the enclosure, the electronic processor being in communication with the detector. The apparatus can be configured so that, during operation, the electronic processor determines information about a sample placed in contact with the exposed surface of the prism based on radiation reflected from the exposed prism surface while it is in contact with the sample.

2011025, Oct 20, 2011

Apr 15, 2011

13/087725

Christopher D. Brown - Albuquerque NM, US
Gregory H. Vander Rhodes - Melrose MA, US

G01R 23/16

702 76

Methods and systems for determining information about a sample are disclosed. The methods can include measuring spectral information for a sample and determining a quantity related to a signal-to-noise ratio for the spectral information, repeating the measuring and determining until a value of the quantity is beyond a threshold value, and comparing the spectral information to reference information to determine information about the sample.

2004020, Oct 14, 2004

Apr 9, 2003

10/410006

John Maynard - Albuquerque NM, US
Mark Robinson - Albuquerque NM, US
Trent Ridder - Sandia Park NM, US
Shonn Hendee - Albuquerque NM, US
Christopher Brown - Albuquerque NM, US
Stephen Vanslyke - Albuquerque NM, US
Cliona Fleming - Albuquerque NM, US
Edward Hull - Albuquerque NM, US

G06F019/00

702/030000

The present invention provides methods and devices for using feedback to improve non-invasive tissue measurements by making measurements faster, easier to perform, and less error prone. In some embodiments, a set of metrics is identified as measurable potential sources of measurement error that can be controlled by a user. In some embodiments, the set of metrics can be analyzed to determine which metrics are related to one another, and some possible error metrics can be discarded, and others used as surrogate metrics for measuring and monitoring measurement errors.