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A method for diagnosing a human condition from a characteristic of a plaque or tissue in a subject is presented. The method includes directing broadband light by means of a sensing light path at an area of interest in the subject, at a target depth defined by the sensing light path and a reference l

A method for diagnosing a human condition from a characteristic of a plaque or tissue in a subject is presented. The method includes directing broadband light by means of a sensing light path at an area of interest in the subject, at a target depth defined by the sensing light path and a reference light path. The continues with receiving the broadband light reflected from the area of interest in the subject by means of the sensing light path. The method further includes directing the broadband light by means of the reference light path at a reflecting device, and receiving the broadband light reflected from the reflecting device by means of the reference light path.

대표청구항 ▼

What is claimed is: 1. A method for diagnosing a human condition from a characteristic of plaque in a subject, the method comprising: directing broadband light by means of a sensing light path at an area of interest in the subject, at a target depth defined by said sensing light path and a referenc

What is claimed is: 1. A method for diagnosing a human condition from a characteristic of plaque in a subject, the method comprising: directing broadband light by means of a sensing light path at an area of interest in the subject, at a target depth defined by said sensing light path and a reference light path; receiving said broadband light reflected from the area of interest in the subject by means of said sensing light path; directing said broadband light by means of said reference light path at a reflecting device; receiving said broadband light reflected from said reflecting device by means of said reference light path; modulating at about a distance of a center wavelength of said broadband light an effective light path length of at least one of said reference light path and said sensing light path with respect to said target depth; detecting said broadband light resulting from said broadband light reflected from said target depth in the biological sample and said broadband light reflected from said reflecting device, to generate a signal indicative of an interference of said broadband light reflected from said target depth at the area of interest in the subject and said broadband light reflected from said reflecting device, wherein said signal is a product of a cosine function; determining a phase component that is an argument of the cosine function; determining a change in the phase component angle of said signal resulting from a change of said effective light path length that is itself induced by a change of a property of the area of interest in the subject; determining a variation in an index of refraction from said change in the phase component of said signal; determining the characteristic of the plaque in the subject from said variation in said index of refraction; and diagnosing a human condition from the characteristic. 2. The method of claim 1 further comprising varying an effective light path length of at least one of said reference light path and said sensing light path to define an other target depth, said other target depth is at a distance of about at least a coherence length of said broadband light from said target depth. 3. The method of claim 2 wherein said varying an effective light path length of at least one of said reference light path and said sensing light path employs at least one of a modulator comprising metallic electrodes disposed at an optical waveguide and a modulator formed with an optical fiber wound on a piezoelectric drum forming at least a portion of at least one of said reference light path and said sensing light path. 4. The method of claim 1 wherein said modulating comprises sinusoidal modulating. 5. The method of claim 1 wherein said modulating comprises ramp modulating. 6. The method of claim 1 wherein said target depth is defined as a difference between an effective light path length of said reference light path and an effective light path length of said sensing light path. 7. The method of claim 1 wherein said reflecting device comprises a fixed reflecting device. 8. The method of claim 1 wherein at least one of said reference light path and said sensing light path comprises at least one of an optical fiber and a waveguide. 9. The method of claim 1 wherein said modulating said effective light path length is achieved with at least one of a modulator comprising metallic electrodes disposed at an optical waveguide and a modulator formed with an optical fiber wound on a piezoelectric drum forming at least a portion of at least one of said reference light path and said sensing light path. 10. The method of claim 1: wherein said modulating includes a phase parameter; and further comprising relating said change in the said phase component of said signal to said phase parameter, wherein said phase parameter is indicative of said variation in said index of refraction. 11. The method of claim 10 wherein said phase parameter is indicative of said variation in said index of refraction as a ratio of said phase parameter to said target depth. 12. The method of claim 1 further including calibrating at least one of said reference light path and said sensing light path by adjusting effective light path length of at least one of said reference light path and said sensing light path based on a sample exhibiting properties including at least one of known refractive index and scattering coefficient. 13. A system for determining a characteristic of a plaque in a subject, the system comprising: a broadband light source for providing a broadband light; a sensing light path receptive to said broadband light from said broadband light source, said sensing light path configured to direct said broadband light at an area of interest in the subject and to receive said broadband light reflected from the biological sample; a reflecting device; a reference light path receptive to said broadband light from said broadband light source, said reference light path configured to direct said broadband light at said reflecting device and to receive said broadband light reflected from said reflecting device, said reference light path and said sensing light path cooperating to define a target depth; a modulator associated with at least one of said reference light path and said sensing light path, said modulator for modulating at about a distance of a center wavelength of said broadband light an effective light path length of said at least one of said reference light path and said sensing light path; a detector receptive to said broadband light resulting from said broadband light reflected from the area of interest in the subject and said broadband light reflected from said reflecting device, said detector generating a signal indicative of an interference of said broadband light reflected from said target depth at the area of interest in the subject and said broadband light reflected from said reflecting device, wherein said signal is a product of a cosine function; and processing means configured to determine a phase component that is an argument of the cosine function, said processing means further configured to determine a change in the phase component of said signal resulting from a change of said effective light path length that is itself induced by a change of a property of the area of interest in the subject, a variation in an index of refraction from said change in the phase component of said signal, and the characteristic of the plaque in the subject from said variation in said index of refraction. 14. The system of claim 13 further comprising means for varying an effective light path length of at least one of said reference light path and said sensing light path to define an other target depth, said other target depth is at a distance of about at least a coherence length of said broadband light from said target depth. 15. The system of claim 14 wherein said means for varying comprises a modulator comprising metallic electrodes disposed at an optical waveguide and a modulator formed with an optical fiber wound on a piezoelectric drum forming at least a portion of at least one of said reference light path and said sensing light path. 16. The system of claim 13 wherein said modulator comprises a sinusoidal modulator. 17. The system of claim 13 wherein said modulator comprises a ramp modulator. 18. The system of claim 13 wherein said effective light path length of said sensing light path is different from said effective light path length of said sensing light path by a difference, said target depth defined as said difference. 19. The system of claim 13 wherein said reflecting device comprises a fixed reflecting device. 20. The system of claim 13 wherein at least one of said reference light path and said sensing light path comprises at least one of an optical fiber and a waveguide. 21. The system of claim 13 wherein said modulator comprises at least one of metallic electrodes disposed at an optical waveguide and a piezoelectric drum with an optical fiber wound thereon forming at least a portion of at least one of said reference light path and said sensing light path. 22. The system of claim 13 wherein: said modulator comprises modulating including a phase parameter; and said processing means further configured to relate said change in said phase component to said phase parameter, wherein said phase parameter is indicative of said variation in said index of refraction. 23. The system of claim 13 further including a calibrating strip for calibrating at least one of said reference light path and said sensing light path by adjusting effective light path length of at least one of said reference light path and said sensing light path based on a sample exhibiting properties including at least one of known refractive index. 24. A method for diagnosing a human condition from a characteristic of a tissue in a subject, the method comprising: directing broadband light by means of a sensing light path at an area of interest in the subject, at a target depth defined by said sensing light path and a reference light path; receiving said broadband light reflected from the area of interest in the subject by means of said sensing light path; directing said broadband light by means of said reference light path at a reflecting device; receiving said broadband light reflected from said reflecting device by means of said reference light path; modulating at about a distance of a center wavelength of said broadband light an effective light path length of at least one of said reference light path and said sensing light path with respect to said target depth; detecting said broadband light resulting from said broadband light reflected from said target depth in the biological sample and said broadband light reflected from said reflecting device, to generate a signal indicative of an interference of said broadband light reflected from said target depth at the area of interest in the subject and said broadband light reflected from said reflecting device, wherein said signal is a product of a cosine function; determining a phase component that is an argument of the cosine function; determining a change in the phase component angle of said signal resulting from a change of said effective light path length that is itself induced by a change of a property of the area of interest in the subject; determining a variation in an index of refraction from said change in the phase component of said signal; determining the characteristic of the tissue in the subject from said variation in said index of refraction; and diagnosing a human condition from the characteristic. 25. The method of claim 24 further comprising varying an effective light path length of at least one of said reference light path and said sensing light path to define an other target depth, said other target depth is at a distance of about at least a coherence length of said broadband light from said target depth. 26. The method of claim 25 wherein said varying an effective light path length of at least one of said reference light path and said sensing light path employs at least one of a modulator comprising metallic electrodes disposed at an optical waveguide and a modulator formed with an optical fiber wound on a piezoelectric drum forming at least a portion of at least one of said reference light path and said sensing light path. 27. The method of claim 24 wherein said modulating comprises sinusoidal modulating. 28. The method of claim 24 wherein said modulating comprises ramp modulating. 29. The method of claim 24 wherein said target depth is defined as a difference between an effective light path length of said reference light path and an effective light path length of said sensing light path. 30. The method of claim 24 wherein said reflecting device comprises a fixed reflecting device. 31. The method of claim 1 wherein at least one of said reference light path and said sensing light path comprises at least one of an optical fiber and a waveguide. 32. The method of claim 24 wherein said modulating said effective light path length is achieved with at least one of a modulator comprising metallic electrodes disposed at an optical waveguide and a modulator formed with an optical fiber wound on a piezoelectric drum forming at least a portion of at least one of said reference light path and said sensing light path. 33. The method of claim 24: wherein said modulating includes a phase parameter; and further comprising relating said change in the said phase component of said signal to said phase parameter, wherein said phase parameter is indicative of said variation in said index of refraction. 34. The method of claim 33 wherein said phase parameter is indicative of said variation in said index of refraction as a ratio of said phase parameter to said target depth. 35. The method of claim 24 further including calibrating at least one of said reference light path and said sensing light path by adjusting effective light path length of at least one of said reference light path and said sensing light path based on a sample exhibiting properties including at least one of known refractive index and scattering coefficient. 36. A system for determining a characteristic of a tissue in a subject, the system comprising: a broadband light source for providing a broadband light; a sensing light path receptive to said broadband light from said broadband light source, said sensing light path configured to direct said broadband light at an area of interest in the subject and to receive said broadband light reflected from the biological sample; a reflecting device; a reference light path receptive to said broadband light from said broadband light source, said reference light path configured to direct said broadband light at said reflecting device and to receive said broadband light reflected from said reflecting device, said reference light path and said sensing light path cooperating to define a target depth; a modulator associated with at least one of said reference light path and said sensing light path, said modulator for modulating at about a distance of a center wavelength of said broadband light an effective light path length of said at least one of said reference light path and said sensing light path; a detector receptive to said broadband light resulting from said broadband light reflected from the area of interest in the subject and said broadband light reflected from said reflecting device, said detector generating a signal indicative of an interference of said broadband light reflected from said target depth at the area of interest in the subject and said broadband light reflected from said reflecting device, wherein said signal is a product of a cosine function; and processing means configured to determine a phase component that is an argument of the cosine function, said processing means further configured to determine a change in the phase component of said signal resulting from a change of said effective light path length that is itself induced by a change of a property of the area of interest in the subject, a variation in an index of refraction from said change in the phase component of said signal, and the characteristic of the tissue in the subject from said variation in said index of refraction. 37. The system of claim 36 further comprising means for varying an effective light path length of at least one of said reference light path and said sensing light path to define an other target depth, said other target depth is at a distance of about at least a coherence length of said broadband light from said target depth. 38. The system of claim 37 wherein said means for varying comprises a modulator comprising metallic electrodes disposed at an optical waveguide and a modulator formed with an optical fiber wound on a piezoelectric drum forming at least a portion of at least one of said reference light path and said sensing light path. 39. The system of claim 36 wherein said modulator comprises a sinusoidal modulator. 40. The system of claim 36 wherein said modulator comprises a ramp modulator. 41. The system of claim 36 wherein said effective light path length of said sensing light path is different from said effective light path length of said sensing light path by a difference, said target depth defined as said difference. 42. The system of claim 36 wherein said reflecting device comprises a fixed reflecting device. 43. The system of claim 36 wherein at least one of said reference light path and said sensing light path comprises at least one of an optical fiber and a waveguide. 44. The system of claim 36 wherein said modulator comprises at least one of metallic electrodes disposed at an optical waveguide and a piezoelectric drum with an optical fiber wound thereon forming at least a portion of at least one of said reference light path and said sensing light path. 45. The system of claim 36 wherein: said modulator comprises modulating including a phase parameter; and said processing means further configured to relate said change in said phase component to said phase parameter, wherein said phase parameter is indicative of said variation in said index of refraction. 46. The system of claim 36 further including a calibrating strip for calibrating at least one of said reference light path and said sensing light path by adjusting effective light path length of at least one of said reference light path and said sensing light path based on a sample exhibiting properties including at least one of known refractive index.