Near-infrared spectroscopic analysis of blood vessel walls
First Claim
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1. An in vivo method for characterizing tissue in a blood vessel wall, the method comprising (a) illuminating a tissue in the blood vessel wall with any two or more single wavelengths or one or more narrow wavelength bands of near-infrared radiation within a wavelength range of about 1100 to 1415 nm;
- (b) detecting radiation reflected from the tissue having a wavelength of from about 1100 to 1415 mn;
(c) processing the detected radiation to characterize the tissue in the blood vessel wall; and
(d) providing an output indicating the tissue characterization.
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Abstract
The invention relates to methods and devices for characterizing tissue in vivo, e.g., in walls of blood vessels, to determine whether the tissue is healthy or diseased.
42 Citations
27 Claims
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1. An in vivo method for characterizing tissue in a blood vessel wall, the method comprising
(a) illuminating a tissue in the blood vessel wall with any two or more single wavelengths or one or more narrow wavelength bands of near-infrared radiation within a wavelength range of about 1100 to 1415 nm; -
(b) detecting radiation reflected from the tissue having a wavelength of from about 1100 to 1415 mn;
(c) processing the detected radiation to characterize the tissue in the blood vessel wall; and
(d) providing an output indicating the tissue characterization. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
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21. An apparatus for characterizing tissue in vivo, comprising:
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a near-infrared radiation source that generates radiation comprising any two or more single wavelengths or one or more narrow wavelength bands of near-infrared radiation within a wavelength range of about 1100 to 1415 nm;
one or more radiation conduits for transmitting radiation from the radiation source to the tissue and for receiving radiation not absorbed by the tissue;
a radiation detector that collects radiation not absorbed by the tissue across a wavelength range of substantially 1100 to 1415 nm;
a processor that processes the collected radiation to characterize the tissue; and
an output device that indicates the characterization of the tissue. - View Dependent Claims (22, 23, 24, 25)
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26. An instrument for characterizing portions of tissue in vivo, the instrument comprising
a) means for illuminating portions of tissue with near-infrared radiation comprising any two or more single wavelengths or one or more narrow wavelength bands of near-infrared radiation within a wavelength range of about 1100 to 1415 nm; -
b) means for collecting radiation within the wavelength range that is not absorbed by the tissue;
c) means for determining from the collected radiation the amounts of absorbance of radiation by the illuminated tissue; and
d) means for discriminating one illuminated tissue component from another illuminated tissue component within the wavelength range, wherein the discriminating means comprises i) means for preprocessing the absorbance amounts using a chemometric preprocessing technique, and ii) means for performing a chemometric discrimination algorithm on the preprocessed absorbance amounts to characterize the tissues; and
e) means for providing an output indicating the characterization of the illuminated tissue.
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27. A method of analyzing tissue in blood vessel walls in vivo utilizing a fiber optic probe, the method comprising:
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introducing the probe into a blood vessel;
directing onto the tissue in the blood vessel wall near-infrared radiation comprising any two or more single wavelengths or one or more narrow wavelength bands within a wavelength range of about 1100 to 1415 nm;
detecting radiation within a wavelength range from substantially 1100 to 1415 nm not absorbed by the blood vessel wall; and
analyzing the detected radiation to categorize the tissue in the blood vessel wall.
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Specification