1
Pierre Trepagnier, Jenny Freeman, James Mansfield, Derek Brand, Michael J Hopmeier, Nikiforos Kollias: Non-invasive tissue glucose level monitoring. Argose, Ivor R Elrifi, Christina K Stock, Mintz Levin Cohn Ferris Glovsky & Popeo PC, April 13, 2004: US06721582 (299 worldwide citation)

Instruments and methods are described for performing non-invasive measurements of analyte levels and for monitoring, analyzing and regulating tissue status, such as tissue glucose levels.


2
Wei Dong Tian, Pierre Trepagnier: Generation of spatially-averaged excitation-emission map in heterogeneous tissue. Argose, Ivor R Elrifi Esq, Christina V Karnakis Esq, Mintz Levin Cohn Ferris Glovsky and Popeo P C, July 22, 2003: US06597932 (271 worldwide citation)

An instrument for evaluating fluorescence of a heterogeneous tissue includes means for exciting a two-dimensional portion of the tissue surface with excitation radiation at a plurality of excitation wavelengths, means for collecting emission radiation from the two-dimensional portion of the tissue s ...


3
Pierre Trepagnier: Asynchronous fluorescence scan. Argose, Ivor R Elrifi Esq, Christina V Karnakis Esq, Mintz Levin Cohn Ferris Glovsky and Popeo P C, October 28, 2003: US06639668 (257 worldwide citation)

The present invention is directed to asynchronous scanning devices and methods of using asynchronous scanning to acquire fluorescence data from a sample, such as biological tissue, to facilitate diagnosis of the presence or absence of disease or other abnormality in the sample. The present invention ...


4
Pierre Trepagnier, Jenny Freeman, James Mansfield, Derek Brand, Michael J Hopmeier, Nikiforos Kollias: Non-invasive tissue glucose level monitoring. Masimo Laboratories, Law Office of Glenn R Smith, March 1, 2011: US07899518 (162 worldwide citation)

Instruments and methods are described for performing non-invasive measurements of analyte levels and for monitoring, analyzing and regulating tissue status, such as tissue glucose levels.


5
William Lauer, Pierre Trepagnier, Donald Victor Smart, James Cordingley, Michael Plotkin: Laser processing. General Scanning, Fish & Richardson P C, October 9, 2001: US06300590 (39 worldwide citation)

The invention provides a system and method for vaporizing a target structure on a substrate. According to the invention, a calculation is performed, as a function of wavelength, of an incident beam energy necessary to deposit unit energy in the target structure. Then, for the incident beam energy, t ...


6
Pierre Trepagnier: Rectification of a laser pointing device. General Scanning, Fish & Richardson, March 21, 1995: US05400132 (17 worldwide citation)

Methods of compensating for errors in a laser pointing device, particularly for use in three-dimensional applications, by accurately controlling the angle that the laser beam makes in space.


7
William Lauer, Pierre Trepagnier, Donald Victor Smart, James Cordingley, Michael Plotkin: Laser processing. Fish & Richardson P C, May 6, 2003: US06559412 (12 worldwide citation)

The invention provides a system and method for vaporizing a target structure on a substrate. According to the invention, a calculation is performed, as a function of wavelength, of an incident beam energy necessary to deposit unit energy in the target structure. Then, for the incident beam energy, t ...


8
William Lauer, Pierre Trepagnier, Donald Victor Smart, James Cordingley, Michael Plotkin: Laser processing. General Scanning, Fish & Richardson P C, June 28, 2005: US06911622 (6 worldwide citation)

The invention provides a system and method for vaporizing a target structure on a substrate. According to the invention, a calculation is performed, as a function of wavelength, of an incident beam energy necessary to deposit unit energy in the target structure. Then, for the incident beam energy, t ...


9
William Lauer, Pierre Trepagnier, Donald Victor Smart, James Cordingley, Michael Plotkin: Laser processing. James E Mrose, Fish & Richardson PC, February 14, 2002: US20020017510-A1 (1 worldwide citation)

The invention provides a system and method for vaporizing a target structure on a substrate. According to the invention, a calculation is performed, as a function of wavelength, of an incident beam energy necessary to deposit unit energy in the target structure. Then, for the incident beam energy, t ...


10
Derek Brand, Jenny Freeman, James Mansfield, Pierre Trepagnier: Reduction of inter-subject variation via transfer standardization. Brobeck Phleger & Harrison, November 8, 2001: US20010039483-A1

This invention relates to the reduction of inter-subject variation via transfer standardization. According to the method, the effects of inter-subject variation on the analysis of spectra collected from the skin of two or more different subjects is reduced by correcting for the differences between s ...



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