Optical catheter configurations combining raman spectroscopy with optical fiber-based low coherence reflectometry
First Claim
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1. A fiber optic probe system capable of performing high wavenumber Raman spectroscopy and optical coherence tomography over an optical fiber, comprising:
- a double clad optical fiber having a proximal end, a distal probe end and a central longitudinal axis and comprising a core, an inner clad surrounding the core and an outer clad surrounding the inner clad;
a laser light source operably coupled or selectively operably coupleable to the proximal end of the double clad fiber to transmit Raman excitation light down at least one of the core and the inner clad of the double clad fiber;
an interferometry light source operably coupled or selectively operably coupleable to the proximal end of the double clad fiber to transmit light down the core of the double clad fiber;
a Raman spectrometer operably coupled or selectively operably coupleable to the proximal end of the double clad fiber to receive Raman scattered light from a sample via the inner clad of the fiber, said spectrometer configured to measure Raman scattered light in the range of 2,500-4,000 cm−
1; and
an interferometer operably coupled or selectively operably coupleable to the proximal end of the double clad fiber to receive phase-shifted light from a sample via the core of the fiber and combine the phase-shifted light with a reference beam.
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Abstract
The present invention provides apparatuses and methods for sample analysis, such as tissue analysis, that integrate high wavenumber (HW) Raman spectroscopy for chemical composition analysis and optical coherence tomography (OCT) to provide depth and morphological information. The invention also provides side-viewing optical probes that are based on a single double clad optical fiber for performing the combined HW Raman spectroscopy and OCT. Intravascular catheter embodiments and related vascular diagnostic methods are also provided.
237 Citations
34 Claims
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1. A fiber optic probe system capable of performing high wavenumber Raman spectroscopy and optical coherence tomography over an optical fiber, comprising:
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a double clad optical fiber having a proximal end, a distal probe end and a central longitudinal axis and comprising a core, an inner clad surrounding the core and an outer clad surrounding the inner clad; a laser light source operably coupled or selectively operably coupleable to the proximal end of the double clad fiber to transmit Raman excitation light down at least one of the core and the inner clad of the double clad fiber; an interferometry light source operably coupled or selectively operably coupleable to the proximal end of the double clad fiber to transmit light down the core of the double clad fiber; a Raman spectrometer operably coupled or selectively operably coupleable to the proximal end of the double clad fiber to receive Raman scattered light from a sample via the inner clad of the fiber, said spectrometer configured to measure Raman scattered light in the range of 2,500-4,000 cm−
1; andan interferometer operably coupled or selectively operably coupleable to the proximal end of the double clad fiber to receive phase-shifted light from a sample via the core of the fiber and combine the phase-shifted light with a reference beam. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A basket catheter optical probe system capable of performing high wavenumber Raman spectroscopy and optical coherence tomography over an optical fiber:
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an elongate basket catheter body comprising a proximal end and a distal end, and at or near the distal end a basket section comprising wall-approaching probe arms; a double clad optical fiber having a proximal end, a distal probe end and a central longitudinal axis and comprising a core, an inner clad surrounding the core and an outer clad surrounding the inner clad, said double clad fiber extending within the elongate basket catheter body, the distal probe end of the double clad fiber terminating within a wall approaching probe arm of the catheter; a laser light source operably coupled or selectively operably coupleable to the proximal end of the double clad fiber to transmit Raman excitation light down at least one of the core and the inner clad of the double clad fiber; an interferometry light source operably coupled or selectively operably coupleable to the proximal end of the double clad fiber to transmit light from the interferometry light source down the core of the double clad fiber; a Raman spectrometer operably coupled or selectively operably coupleable to the proximal end of the double clad fiber to receive Raman scattered light from a sample via the inner clad of the fiber, said spectrometer configured to measure Raman scattered light in the range of 2,500-4,000 cm−
1; andan interferometer operably coupled or selectively operably coupleable to the proximal end of the double clad fiber to receive phase-shifted light from a sample via the core of the fiber. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
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19. A method for optically analyzing a blood vessel, comprising the steps of:
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inserting into a blood vessel a double clad optical fiber having a proximal end, a distal probe end and a central longitudinal axis and comprising a core, an inner clad surrounding the core and an outer clad surrounding the inner clad; launching laser light into at least one of the core and the inner clad of the double clad fiber at its proximal end to illuminate a tissue region via the distal end of the double clad fiber, thereby generating a Raman spectra from the tissue region; receiving the Raman spectra via the inner clad of the fiber at the proximal end of the double clad fiber, and measuring the Raman spectra in the range 2,500-4,000 cm−
1 using a Raman spectrometer configured to measure said range;launching light from an interferometry light source into the core of the double clad fiber at its proximal end to illuminate the tissue region via the distal end of the double clad fiber, thereby producing a sample beam for interferometric analysis; receiving the sample beam via the core of the double clad fiber at its proximal end and performing interferometer by combining the sample beam with a reference beam using an interferometer, thereby obtaining both Raman spectroscopic data and interferometric data for the tissue region. - View Dependent Claims (20, 21, 22, 23, 24, 25, 26, 27)
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28. A method for optically analyzing a blood vessel, comprising the steps of:
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inserting into a blood vessel a double clad optical fiber having a proximal end, a distal probe end and a central longitudinal axis and comprising a core, an inner clad surrounding the core and an outer clad surrounding the inner clad; launching light having a wavelength range into at least one of the core and the inner clad of the double clad fiber at its proximal end to illuminate a tissue region via the distal end of the double clad fiber, thereby generating both Raman-scattered light from the tissue region and phase shifted light from the tissue region; receiving the Raman-scattered light via the inner clad of the fiber at the proximal end of the double clad fiber, and measuring the Raman-scattered light using a Raman spectrometer configured; receiving the phase-shifted light via the core of the double clad fiber at its proximal end and performing interferometry by combining the phase-shifted with a reference beam using an interferometer, thereby obtaining both Raman spectroscopic data and interferometric data for the tissue region. - View Dependent Claims (29, 30, 31, 32, 33, 34)
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Specification