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271 results about "Raman Optical Activity Spectroscopy" patented technology

A plot of the difference in intensities between Raman scattered light using right and left circularly polarized incident light (CIRCULAR DICHROISM).

Detection and monitoring of changes in mineralized tissues or calcified deposits by optical coherence tomography and Raman spectroscopy

Early dental caries detection is carried out by a method that combines optical coherence tomography (OCT) and Raman spectroscopy to provide morphological information and biochemical specificity for detecting and characterizing incipient carious lesions found in extracted human teeth. OCT imaging of tooth samples demonstrated increased light back-scattering intensity at sites of carious lesions as compared to the sound enamel. Raman microspectroscopy and fibre-optic based Raman spectroscopy are used to characterize the caries further by detecting demineralization-induced alterations of enamel crystallite morphology and / or orientation. OCT imaging is useful for screening carious sites and determining lesion depth, with Raman spectroscopy providing biochemical confirmation of caries. The combination is incorporated into a common probe operable without movement to scan the tooth surface and to provide an output for the dentist.
Owner:NAT RES COUNCIL OF CANADA +2

Portable raman diagnostic system

The present invention further relates to the selection of the specific filter combinations, which can provide sufficient information for multivariate calibration to extract accurate analyte concentrations in complex biological systems. The present invention also describes wavelength interval selection methods that give rise to the miniaturized designs. Finally, this invention presents a plurality of wavelength selection methods and miniaturized spectroscopic apparatus designs and the necessary tools to map from one domain (wavelength selection) to the other (design parameters). Such selection of informative spectral bands has a broad scope in miniaturizing any clinical diagnostic instruments which employ Raman spectroscopy in particular and other spectroscopic techniques in general.
Owner:MASSACHUSETTS INST OF TECH

Systems and methods for spectroscopy of biological tissue

The system and method of the present invention relates to using spectroscopy, for example, Raman spectroscopic methods for diagnosis of tissue conditions such as vascular disease or cancer. In accordance with a preferred embodiment of the present invention, a system for measuring tissue includes a fiber optic probe having a proximal end, a distal end, and a diameter of 2 mm or less. This small diameter allows the system to be used for the diagnosis of coronary artery disease or other small lumens or soft tissue with minimal trauma. A delivery optical fiber is included in the probe coupled at the proximal end to a light source. A filter for the delivery fibers is included at the distal end. The system includes a collection optical fiber (or fibers) in the probe that collects Raman scattered radiation from tissue, the collection optical fiber is coupled at the proximal end to a detector. A second filter is disposed at the distal end of the collection fibers. An optical lens system is disposed at the distal end of the probe including a delivery waveguide coupled to the delivery fiber, a collection waveguide coupled to the collection fiber and a lens.
Owner:MASSACHUSETTS INST OF TECH

Optical in vivo analyte probe using embedded intradermal particles

A system and method of in vivo detection and quantification of one or more analytes. Small particles comprising a surface-active monolayer coating are embedded in the dermis. The surface-active monolayer acts to pre-concentrate the analyte by adsorbing the analyte from bulk solution. The concentrated analyte is more readily detected and quantified by one or more spectroscopic methods such as Raman spectroscopy
Owner:MARBLIA LTD +1

Single molecule detection with surface-enhanced Raman scattering and applications in DNA or RNA sequencing

InactiveUS20020150938A1Decreased Brownian motionLong residence timeRadiation pyrometryMicrobiological testing/measurementAnalyteSurface-enhanced Raman spectroscopy
Surface-enhanced spectroscopy, such as surface-enhanced Raman spectroscopy employs aggregates that are of a size that allows easy handling. The aggregates are generally at least about 500 nm in dimension. The aggregates can be made of metal particles of size less than 100 nm, allowing enhanced spectroscopic techniques that operate at high sensitivity. This allows the use of larger, easily-handleable aggregates. Signals are determined that are caused by single analytes adsorbed to single aggregates, or single analytes adsorbed on a surface. The single analytes can be DNA or RNA fragments comprising at least one base.
Owner:KNEIPP KATRIN +4

Multimodal method for identifying hazardous agents

The invention relates to apparatus and methods for assessing occurrence of a hazardous agent in a sample by performing multimodal spectral analysis of the sample. Methods of employing Raman spectroscopy for entities in a sample which exhibit one or more optical properties characteristic of a hazardous agent are disclosed. Devices and systems suitable for performing such methods are also disclosed.
Owner:CHEMIMAGE CORP

Method and device for detecting substances in body fluids by Raman spectroscopy

The invention relates to a method and to a device for the non-invasive detection or determination, by Raman spectroscopy, of the concentration of substances in body fluids. The aim of the invention is to facilitate a non-invasive in vivo detection of substances in body fluids that allows for very accurate, reproducible results of analysis while requiring only little time for measuring which is acceptable for the patient. To this end, the inventive method and device for carrying out a Raman spectroscopy of a body fluid in a body tissue (1) records at least two Raman spectrums under different physical conditions and compares them with each other. The result of comparison allows detection of the substance one is looking for and measurement of the concentration of said substance.
Owner:MULLER DETHLEFS KLAUS

Method and Apparatus for Analyzing Biomolecules Using Raman Spectroscopy

The present invention provides an apparatus having a sample separation unit, a Raman spectroscopy unit, and a mass spectrometry unit. The present invention further provides a method for specifying a biomolecule and a method for identifying the binding site of the biomolecule and the low-molecular-weight compound, comprising a combination of Raman spectroscopy and mass spectrometry. The present invention further provides a surface-enhanced Raman spectroscopy method with improved sensitivity.
Owner:JAPAN SCI & TECH CORP

Method for separation, characterization and/or identification of microorganisms using raman spectroscopy

The present invention is directed to a method for separating, characterizing and / or identifying microorganisms in a test sample. The method of the invention comprises an optional lysis step for lysing non-microorganism cells that may be present in a test sample, followed by a subsequent separation step. The method may be useful for the separation, characterization and / or identification of microorganisms from complex samples such as blood-containing culture media. The invention further provides for Raman spectroscopic interrogation of the separated microorganism sample to produce measurements of the microorganism and characterizing and / or identifying the microorganism in the sample using said Raman spectroscopic measurements.
Owner:BIOMERIEUX INC

Methods for using raman spectroscopy to obtain a protein profile of a biological sample

The invention provides methods for analyzing the protein content of a biological sample, for example to obtain a protein profile of a sample provided by a particular individual. The proteins and protein fragments in the sample are separated on the basis of chemical and / or physical properties and maintained in a separated state at discrete locations on a solid substrate or within a stream of flowing liquid. Raman spectra are then detected as produced by the separated proteins or fragments at the discrete locations such that a spectrum from a discrete location provides information about the structure or identity of one or more particular proteins or fragments at the discrete location. The proteins or fragments at discrete locations can be coated with a metal, such as gold or silver, and / or the separated proteins can be contacted with a chemical enhancer to provide SERS spectra. Method and kits for practicing the invention are also provided.
Owner:INTEL CORP

Multimodal method for identifying hazardous agents

The invention relates to apparatus and methods for assessing occurrence of a hazardous agent in a sample by performing multimodal spectral analysis of the sample. Methods of employing Raman spectroscopy for entities in a sample which exhibit one or more optical properties characteristic of a hazardous agent are disclosed. Devices and systems suitable for performing such methods are also disclosed.
Owner:CHEMIMAGE CORP

Determination of disease state using Raman Spectroscopy of tissue

A method of determining 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 Raman scattering of a chemical with the tissue responsive to the excitation light is detected. The detected light can be combined with a model relating Raman emission with disease state to determine a disease state of the individual. 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 Raman emission of a chemical in the tissue. For example, the reflectance of the tissue can lead to errors if appropriate correction is not employed. The invention can also comprise a variety of models relating Raman emission to disease state, including a variety of methods for generating such models. Other biologic information can be used in combination with the Raman spectral properties to aid in the determination of disease state. The invention also comprises apparatuses suitable for carrying out the method, including appropriate light sources, detectors, and models (for example, implemented on computers) used to relate detected Raman emission and disease state.
Owner:VERALIGHT INC

Multipoint method for identifying hazardous agents

The invention relates to apparatus and methods for assessing occurrence of a hazardous agent in a sample by performing multipoint spectral analysis of the sample. Methods of employing Raman spectroscopy and other spectrophotometric methods are disclosed. Devices and systems suitable for performing such multipoint methods are also disclosed.
Owner:CHEMIMAGE

Cytological method for analyzing a biological sample by raman spectroscopy

Provided herein are systems and methods that permit low resolution Raman spectroscopy to be used for detection of biological components within cells in order to classify the cells, for example, as premalignant, malignant, or benign.
Owner:DUBLIN INST OF TECH

On-line raman analysis and control of a high pressure reaction system

Methods and systems for analysis of the polymerization material of high pressure polymerization processes are provided. In certain embodiments, the methods and systems subject the polymerization material to Raman spectroscopy analysis. The Raman spectroscopy provides analysis of reaction mixtures and / or product streams in high pressure polymerization processes. The Raman spectroscopy analysis may include both compositional and characterization analysis of the reaction mixtures and product streams. The spectroscopy results can be used to provide process control feedback to adjust operating parameters of the reactor operations and / or an associated polymerization product handling and finishing processes.
Owner:EXXONMOBIL CHEM PAT INC

Stimulated raman nanospectroscopy

A method for achieving measurable sample heating in the vicinity of a probe microscope tip using Stimulated Raman Spectroscopy. Two laser sources, preferably in the UV visible or near IR illuminate the sample, preferably in overlapping diffraction limited spots. At least one of the sources is swept through a frequency range such that the difference frequency corresponds to IR spectral regions of interest. Selective Absorption by differing sample materials at the difference frequency causes measurable sample heating detectable by the probe tip related to IR spectral absorption bands. Thus very high spatial resolution IR spectroscopy may be achieved.
Owner:BRUKER NANO INC

Active substance, nonaqueous electrolyte battery, and battery pack

The invention relates to an active substance, a nonaqueous electrolyte battery and a battery pack. According to one embodiment, there is provided an active substance. The active substance includes particles of niobium titanium composite oxide and a phase including a carbon material. The niobium titanium composite oxide is represented by Ti1-xM1xNb2-yM2yO7. The phase is formed on at least a part of the surface of the particles. The carbon material shows, in a Raman chart obtained by Raman spectrometry, a G band observed at from 1530 to 1630 cm-1 and a D band observed at from 1280 to 1380 cm-1. A ratio IG / ID between a peak intensity IG of the G band and a peak intensity ID of the D band is from 0.8 to 1.2.
Owner:KK TOSHIBA

Power storage device

A power storage device with reduced initial irreversible capacity is provided. The power storage device includes a positive electrode including a positive electrode current collector and a positive electrode active material layer, a negative electrode including a negative electrode current collector and a negative electrode active material layer, and an electrolyte solution. In the negative electrode active material layer, the content percentage of a carbon material with an R value of 1.1 or more is less than 2 wt %. The R value refers to a ratio of a peak intensity I1360 to a peak intensity I1580 (I1360 / I1580). The peak intensity I1360 and the peak intensity I1580 are observed by Raman spectrometry at a Raman shift of 1360 cm−1 and a Raman shift of 1580 cm−1, respectively. The electrolyte solution contains a lithium ion and an ionic liquid composed of an organic cation and an anion.
Owner:SEMICON ENERGY LAB CO LTD

Apparatus and methods for in vivo tissue characterization by raman spectroscopy

A micro-Raman spectrometer system for use in differentiating tumor lesions from normal skin detects specific characteristics of Raman spectra indicative of cancer. A peak at 899 cm−1 and a higher intensity region in the 1325 cm−1 to 1330 cm−1 range indicate the presence of tumors. The spectrometer system may be applied for skin cancer detection and for mapping the margins of lesions. Cancer detection methods as described herein have achieved diagnostic sensitivity of 95.8% and specificity of 93.8%.
Owner:BRITISH COLUMBIA CANCER AGENCY BRANCH

Diamond thin film or the like, method for forming and modifying the thin film, and method for processing the thin film

An improved gas phase synthesized diamond, CBN, BCN, or CN thin film having a modified region in which strain, defects, color and the like are reduced and / or eliminated. The thin film can be formed on a substrate or be a free-standing thin film from which the substrate has been removed. The thin film can be stably and reproducibly modified to have an oriented polycrystal structure or a single crystal structure. The thin film is modified by being subjected to and heated by microwave irradiation in a controlled atmosphere. The thin film has a modified region in which a line width of the diamond spectrum evaluated by Raman spectroscopy of 0.1 microns or greater is substantially constant along a film thickness direction of the thin film, and the line width of the modified region is 85% or less of a maximum line width of the residual portion of the film thickness.
Owner:APPLIED DIAMOND

System and method for characterization of oral, systemic and mucosal tissue utilizing raman spectroscopy

A method and system for characterizing tissue includes a probe connected to a red LASER source and a Raman spectroscope. The probe includes at least excitation fiber and one or more emission fibers that connect the probe with the LASER source and the Raman spectroscope. The excitation fiber is connected to the red LASER source and terminates in the first end of the probe adjacent the tip of the probe. The emission fibers are connected to the Raman spectroscope and terminate in the first end of the probe adjacent the tip of the probe. In one embodiment, the excitation fiber extends through the central portion of the probe and one or more emission fibers are arranged around the excitation fiber. The tip of the probe is intended to come in contact with the tissue to be examined. The tip includes a central opening to allow red LASER radiation to project out of the end of the red excitation fiber on to the tissue and to permit Raman spectra to enter the emission fiber(s) and travel to the Raman spectroscope. The tip is constructed to have a predefined focal length to position the first end of the probe a predefined distance from the surface of the tissue being examined. The tip can be removable and tips having different focal lengths can be used to accommodate different types of tissues and examinations. A detector can convert the Raman spectra into signals and data for analysis by a computer system. The Raman spectra for tissue in a predefined location can be profiled such that the system can distinguish between healthy and diseased tissue.
Owner:PRESIDENT & FELLOWS OF HARVARD COLLEGE +2

System and Method for Combined Raman and LIBS Detection

A system and method for detection and identification of unknown samples using a combination of Raman and LIBS detection techniques. A first region of a sample and a second region of a sample are illuminated using structured illumination to thereby generate a first plurality of interacted photons and a second plurality of interacted photons. This first plurality and second plurality of interacted photons may be passed through a fiber array spectral translator device. Said first plurality of interacted photons are assessed using Raman spectroscopy to thereby generate a Raman data set. Said second plurality of interacted photons are assessed using LIBS spectroscopy to thereby generate LIBS data set. These data sets may be analyzed to identify the sample. These data sets may also be fused for further analysis.
Owner:CHEMIMAGE

Method and apparatus for compact spectrometer for multipoint sampling of an object

The disclosure relates to methods and apparatus for assessing occurrence of one or more hazardous agents in a sample by performing multipoint spectral analysis of the sample using a portable or hand-held device. Methods of employing Raman spectroscopy and other spectrophotometric methods are disclosed. Devices and systems suitable for performing such multipoint methods are also disclosed.
Owner:CHEMIMAGE CORP

Method of reducing the risk of retinopathy of prematurity in preterm infants

InactiveUS20070166354A1Lessen risk of and severityReduce riskBiocideSenses disorderPremature thelarcheDocosahexaenoic acid
Disclosed is a method of reducing the risk or severity of retinopathy of prematurity in preterm infants. The method comprises (a) measuring skin carotenoid levels in preterm infants, preferably by Raman Spectroscopy, and then (b) administering supplemental carotenoids to those infants in need thereof, wherein the supplemental carotenoids comprise lutein, lycopene, beta-carotene, and zeaxanthin. The supplemental carotenoids may be provided by an infant formula comprising, on a ready-to-feed basis, from about 100 to about 2000 mcg / liter of total carotenoids, wherein the total carotenoids include at least about 50 mcg / liter of lutein. The formulas may further comprise docosahexaenoic acid.
Owner:ABBOTT LAB INC
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