Intraoperative monitoring of temperature-induced tissue changes with a high-resolution digital x-ray system during thermotherapy
First Claim
1. A method of thermally inducing and monitoring changes to localized regions of tissue, comprising:
- illuminating a volume of tissue with a first beam of X-rays at a first time;
detecting a plurality of portions of said first beam of X-rays that passed through said volume of tissue during said illuminating with said first beam of X-rays;
generating a first X-ray image signal from said plurality of portions of X-rays of said first beam detected, said first X-ray image signal comprising X-ray image values corresponding with an array of spatial locations throughout said volume of tissue;
applying heat to at least a localized region of tissue within said volume of tissue after said illuminating and after said detecting;
illuminating said volume of tissue with a second beam of X-rays at a second time;
detecting a plurality of portions of said second beam of X-rays that passed through said volume of tissue during said illuminating with said second beam of X-rays;
generating a second X-ray image signal from said plurality of portions of X-ray of said second beam detected, said second X-ray image signal comprising X-ray image values corresponding with said array of spatial locations throughout said volume of tissue;
generating a first resultant image signal comprising thermal information in relation to each of said spatial locations based upon a comparison of said first and second X-ray image signals, wherein said thermal information is indicative of relative magnitudes of temperature changes between aid first time and said second time for each of said spatial locations throughout said volume of tissue;
spatially displaying said thermal information for said array of spatial locations, wherein said relative magnitudes of temperature changes throughout said tissue region of interest are visually discernable; and
modifying said application of heat based on said thermal information.
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Abstract
A method of thermally inducing and monitoring changes to localized regions of tissue illuminating a volume of tissue with a first beam of X-rays, detecting portions of the first beam of X-rays, generating a first X-ray image signal from the detected X-rays of the first beam, applying heat to at least a localized region of tissue within the volume of tissue after the illuminating and after the detecting, illuminating the volume of tissue with a second beam of X-rays, detecting portions of the second beam of X-rays, generating a second X-ray image signal from the portions of X-rays of the second beam detected, and generating a difference image signal based upon a comparison of the first and second X-ray image signals. The difference image signal provides information of changes in X-ray attenuation by localized regions of tissue within the volume of tissue due to the application of heat.
97 Citations
55 Claims
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1. A method of thermally inducing and monitoring changes to localized regions of tissue, comprising:
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illuminating a volume of tissue with a first beam of X-rays at a first time;
detecting a plurality of portions of said first beam of X-rays that passed through said volume of tissue during said illuminating with said first beam of X-rays;
generating a first X-ray image signal from said plurality of portions of X-rays of said first beam detected, said first X-ray image signal comprising X-ray image values corresponding with an array of spatial locations throughout said volume of tissue;
applying heat to at least a localized region of tissue within said volume of tissue after said illuminating and after said detecting;
illuminating said volume of tissue with a second beam of X-rays at a second time;
detecting a plurality of portions of said second beam of X-rays that passed through said volume of tissue during said illuminating with said second beam of X-rays;
generating a second X-ray image signal from said plurality of portions of X-ray of said second beam detected, said second X-ray image signal comprising X-ray image values corresponding with said array of spatial locations throughout said volume of tissue;
generating a first resultant image signal comprising thermal information in relation to each of said spatial locations based upon a comparison of said first and second X-ray image signals, wherein said thermal information is indicative of relative magnitudes of temperature changes between aid first time and said second time for each of said spatial locations throughout said volume of tissue;
spatially displaying said thermal information for said array of spatial locations, wherein said relative magnitudes of temperature changes throughout said tissue region of interest are visually discernable; and
modifying said application of heat based on said thermal information. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
wherein said steps of generating first and second X-ray image signals each generates digital X-ray image signals corresponding to respective digital X-ray images, each digital X-ray image comprising a plurality of image pixels, and said step of generating first resultant image signal performs a pixel-by-pixel subtraction of corresponding pixel values to produce a difference image signal, said pixel values corresponding to respective X-ray intensities detected.
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3. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 1, further comprising:
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storing said first X-ray image signal prior to illuminating said volume of tissue with said second beam of X-rays at said second time, and retrieving said first X-ray image signal from storage for use in said generating said difference image signal based upon said comparison of said first and second X-ray image signals.
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4. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 1, further comprising:
altering the application of heat in response to spatially displayed thermal information.
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5. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 4, further comprising:
determining a size of one of said localized regions of tissue within said volume of tissue based on said spatially displayed thermal information, wherein said one of said localized regions of tissue corresponds to cancerous tissue.
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6. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 5, further comprising:
determining a termination of thermotherapy based on said size of said one of said localized regions of tissue determined.
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7. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 1, further comprising:
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illuminating said volume of tissue with a third beam of X-rays at a third time;
detecting a plurality of portions of said third beam of X-rays that have passed through said volume of tissue;
generating a third X-ray image signal from said plurality of portions of X-rays of said third beam detected said third X-ray image signal comprising X-ray image values corresponding with an array of spatial locations throughout said volume of tissue; and
generating a second resultant image signal comprising additional thermal information in relation to each of said spatial locations based upon a comparison of said first and third X-ray image signals, wherein said additional thermal information is indicative of relative magnitudes of temperature changes between said first time and said third time for each of said spatial locations throughout said volume of tissue; and
wherein said first X-ray image signal provides a static reference signal for generating successive resultant image signals after successive illuminating, detecting and generating X-ray image signals; and
spatially displaying said additional thermal information for said array of spatial locations, wherein said relative magnitudes of temperature changes throughout said tissue region of interest are visually discernable.
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8. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 1, further comprising:
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illuminating said volume of tissue with a third beam of X-rays at a third time;
detecting a plurality of portions of said third beam of X-rays that passed through said volume of tissue;
generating a third X-ray image signal from said plurality of portions of X-rays of said third beam detected said third X-ray image signal comprising x-ray image values corresponding with an array of spatial locations throughout said volume of tissue; and
generating a second resultant image signal comprising additional thermal information in relation to each of said spatial locations based upon a comparison of said second and third X-ray image signals, wherein said additional thermal information is indicative of relative magnitudes of temperature changes between said second time and said third time for each of said spatial locations throughout said volume of tissue; and
wherein said second X-ray image signal provides a dynamically updated reference signal; and
spatially displaying said additional thermal information for said array of spatial locations, wherein said relative magnitudes of temperature changes throughout said tissue region of interest are visually discernable.
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9. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 1, wherein said applying heat to said at least a localized region of tissue within said volume of tissue comprises:
irradiating said localized region of tissue with a laser.
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10. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 1, wherein said applying heat to said at least a localized region of tissue within said volume of tissue comprises:
irradiating said localized region of tissue with a microwave energy source.
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11. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 1, wherein said applying heat to at least a localized region of tissue within said volume of tissue comprises:
irradiating said localized region of tissue with a radio-frequency energy source.
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12. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 1, wherein said applying heat to at least a localized region of tissue within said volume of tissue comprises:
heating said localized region of tissue with an ultrasound energy source.
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13. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 1, wherein said volume of tissue is a woman'"'"'s breast and said localized region of tissue includes cancerous tissue.
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14. A method of thermally inducing and monitoring changes to localized regions of tissue, comprising:
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illuminating a volume of tissue with a first pair X-ray beams during a first period of time, each X-ray beam of said pair of X-ray beams being incident upon said volume of tissue from angles that are different from each other;
detecting a plurality of portions of each X-ray beam of said first pair of X-ray beams that passed through said volume of tissue during said illuminating with said first pair of X-ray beams;
generating a first three-dimensional X-ray image signal from said plurality of portions of each X-ray beam of said first pair of X-ray beams detected, said first three-dimensional X-ray image signal comprising X-ray image values corresponding with an array of spatial locations throughout with said volume of issue;
applying heat to at least a localized region of tissue within said volume of tissue after said illuminating and after said detecting;
illuminating a volume of tissue with a second pair of X-ray beams during a second period of time, each X-ray beam of said beam pair of X-ray beams being incident upon said volume of tissue from angles that are different from each other;
detecting a plurality of portions of each X-ray beam of said second pair of X-ray beams that passed through said volume of tissue during said illuminating with said second pair of X-ray beams;
generating a second three-dimensional X-ray image signal from said plurality of portions of each X-ray beam of said second pair of X-ray beams detected, said second three-dimensional X-ray image signal comprising X-ray image values corresponding with said array of spatial locations throughout with said volume of tissue;
generating a first resultant image signal comprising thermal information in relation to each of said spatial locations based upon a comparison of said first and second three-dimensional X-ray image signals, wherein said thermal information is indicative of relative magnitudes of temperature changes between said first and second periods of time for each of said spatial locations throughout said volume of tissue;
spatially displaying said thermal information for said array of spatial locations, wherein said relative magnitudes of temperature changes throughout said tissue region of interest are visually discernable; and
modifying said application of heat based on said thermal information. - View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26)
wherein said steps of generating first and second three-dimensional X-ray image signal each generate digital X-ray image signals corresponding to respective three-dimensional digital X-ray images, each three-dimensional digital X-ray image comprising a plurality of image pixels; and
said step of generating a first resultant image signal performs a pixel-by-pixel subtraction of corresponding pixel values to produce a difference image signal, said pixel values corresponding to respective X-ray intensities detected.
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16. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 14, further comprising:
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storing said first three-dimensional X-ray image signal prior to illuminating said volume of tissue with said second pair of X-ray beams at said second period of time; and
retrieving said first three-dimensional X-ray image signal from storage for use in said generating said resultant image signal based upon said comparison of said first and second three-dimensional X-ray image signals.
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17. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 14, further comprising:
altering the application of heat in response to said spatially displayed thermal information.
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18. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 17, further comprising:
determining a size of one of said localized regions of tissue within said volume of tissue based on said spatially displayed thermal information, wherein said one of said localized regions of tissue corresponds to cancerous tissue.
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19. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 18, further comprising:
determining a termination of thermotherapy based on said size of said one of said localized regions of tissue determined.
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20. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 14, further comprising:
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illuminating said volume of tissue with a third pair of X-ray beams during a third period of time, each X-ray beam of said third pair of X-ray beams being incident upon said volume of tissue from angles that are different from each other;
detecting a plurality of portions of each X-ray beam of said third pair of X-ray beams that passed through said volume of tissue during said illuminating with said third pair of X-ray beams;
generating a third three-dimensional X-ray image signal from said plurality of portions of each X-ray beam of said third pair of X-ray beams detected said third X-ray image signal comprising X-ray image values corresponding with an array of spatial locations throughout said volume of tissue; and
generating a second resultant image signal comprising additional thermal information in relation to each of said spatial locations based upon a comparison of said first and third three-dimensional X-ray image signals, wherein said additional thermal information is indicative of relative magnitudes of temperature changes between said first time and said third time for each of said spatial locations throughout said volume of tissue; and
wherein said first three-dimensional X-ray image signal provides a static reference signal for generating successive resultant image signals after successive illuminating, detecting and generating X-ray image signals; and
spatially displaying said additional thermal information for said array of spatial locations, wherein said relative magnitudes of temperature changes throughout said tissue region of interest are visually discernable.
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21. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 14, further comprising:
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illuminating said volume of tissue with a third pair of X-ray beams during a third period of time, each X-ray beam of said third pair of X-ray beams being incident upon said volume of tissue from angles that are different from each other;
detecting a plurality of portions of each X-ray beam of said third pair of X-ray beams that passed through said volume of tissue during said illuminating with said third pair of X-ray beams;
generating a third three-dimensional X-ray image signal from said plurality of portions of each X-ray beam of said third pair of X-ray beams detected said third X-ray image signal comprising x-ray image values corresponding with an array of spatial locations throughout said volume of tissue; and
generating a second resultant image signal comprising additional thermal information in relation to each of said spatial locations based upon a comparison of said second and third three-dimensional X-ray image signals, wherein said additional thermal information is indicative of relative magnitudes of temperature changes between said second time and said third time for each of said spatial locations throughout said volume of tissue; and
wherein said second three-dimensional X-ray image signal provides a dynamically updated reference signal; and
spatially displaying said additional thermal information for said array of spatial locations, wherein said relative magnitudes of temperature changes throughout said tissue region of interest are visually discernable.
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22. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 14, wherein said applying heat to said at least a localized region of tissue within said volume of tissue comprises:
irradiating said localized region of tissue with a laser.
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23. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 14, wherein said applying heat to said at least a localized region of tissue within said volume of tissue comprises:
irradiating said localized region of tissue with a microwave energy source.
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24. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 14, wherein said applying heat to said at least a localized region of tissue within said volume of tissue comprises:
irradiating said localized region of tissue with a radio-frequency energy source.
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25. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 14, wherein said applying heat to said at least a localized region of tissue within said volume of tissue comprises:
heating said localized region of tissue with an ultrasound energy source.
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26. A method of thermally inducing and monitoring changes to localized regions of tissue according to claim 14, wherein said volume of tissue is a woman'"'"'s breast and said localized region of tissue includes cancerous tissue.
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27. A method of destroying cancerous tissue, comprising:
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forming a first X-ray image of a portion of a patient'"'"'s body, said first X-ray image comprising X-ray image values corresponding with an array of spatial locations throughout said portion of a patient'"'"'s body;
applying heat to a localized region of said portion of said patient'"'"'s body, said localized region being selected based upon said first X-ray image;
forming a second X-ray image of said portion of said patient'"'"'s body subsequent to applying heat to said localized region of said portion of said patient'"'"'s body, said second X-ray image comprising X-ray image values corresponding with said array of spatial locations throughout said portion of a patient'"'"'s body;
generating thermal information in relation to each of said spatial locations based on a comparison of said first X-ray image and said second X-ray image, wherein said thermal information is indicative of relative magnitudes of temperature changes for each of said spatial locations throughout said portion of said patient'"'"'s body;
spatially displaying said thermal information for said array of spatial locations, wherein said relative magnitudes of temperature changes throughout said tissue region of interest are visually discernable; and
modifing said application of heat based upon said thermal information generated. - View Dependent Claims (28, 29, 30)
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31. A device for monitoring thermally induced changes to localized regions of tissue comprising:
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an X-ray illumination source;
an X-ray detector disposed proximate said X-ray illumination source and reserving a space therebetween for accommodating tissue to be monitored, said X-ray detector producing a plurality of X-ray image signals corresponding to a plurality of X-ray images, each said X-ray image signal comprising X-ray image values corresponding with an array of spatial locations corresponding with said tissue to be monitored and being produced at a different time;
a data storage unit in communication with said X-ray detector, said data storage unit receiving and storing at least one X-ray image signal of said plurality of X-ray image signals produced by said X-ray detector;
an image processing unit in communication with at least said data storage unit and said X-ray detector, said image processing unit for employing said at least one X-ray image signal and a second X-ray image signal of said plurality of X-ray signals in generating thermal information indicative of relative magnitudes of tissular temperature changes for each of said spatial locations throughout said localized regions of tissue; and
an image display unit in communication with said image processing unit, said image display unit displaying the thermal information for said array of spatial locations, wherein said relative magnitudes of temperature changes throughout said localized regions of tissue are visually discernable. - View Dependent Claims (32, 33, 34)
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35. A device for causing thermally-induced changes to localized region of tissue, comprising:
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an X-ray illumination source;
an X-ray detector disposed proximate said X-ray illumination source and reserving a space therebetween for accommodating tissue to be monitored, said X-ray detector producing a plurality of X-ray image signals corresponding to a plurality of X-ray images, each said X-ray image signal comprising X-ray image values corresponding with an array of spatial locations corresponding with said tissue to be monitored and being produced at a different time;
a data storage unit in communication with said X-ray detector, said data storage unit receiving and storing at least one of said plurality of X-ray image signals produced by said X-ray detector;
a thermotherapy heating assembly;
an image processing unit in communication with at least said data storage unit and said X-ray detector, said image processing unit employing said at least one X-ray image signal from said data storage unit and a second X-ray image signal of said plurality of X-ray signals in generating thermal information indicative of relative magnitudes of tissular temperature changes for each of said spatial locations throughout said regions of tissue; and
an image display unit in communication with said image processing unit, said image display unit displaying said thermal information for said array of spatial locations, wherein said relative magnitudes of temperature changes throughout said localized regions of tissue are visually discernable. - View Dependent Claims (36, 37, 38, 39)
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40. A method of thermally treating a tissue region of interest within a patient, comprising:
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obtaining a first X-ray image of a tissue region of interest, said first X-ray image comprising X-ray image values corresponding with an array of spatial locations throughout said tissue region of interest;
heating said tissue region of interest after said obtaining step;
acquiring at least a second X-ray image of said tissue region of interest, said second X-ray image comprising X-ray image values corresponding with said array of spatial locations throughout said tissue region of interest, wherein said acquiring step occurs after at least a portion of said heating step; and
generating thermal information in relation to each of said spatial locations by employing said first X-ray image and said at least a second X-ray image, wherein said thermal information is indicative of relative magnitudes of temperature changes for each of said spatial locations throughout said tissue region of interest;
spatially displaying said thermal information for said array of spatial locations, wherein said relative magnitudes of temperature changes throughout said tissue region of interest are visually discernable. - View Dependent Claims (41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55)
internally positioning a heat source within a patient.
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42. A method according to claim 40, wherein said visually displaying step comprises:
representing a plurality of different ranges of relative magnitudes of temperature changes utilizing a corresponding plurality of different colors.
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43. A method according to claim 40, wherein said visually displaying step is accomplished in accordance with a predetermined transfer function.
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44. A method according to claim 43, wherein:
said predetermined transfer function is a linear function.
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45. A method according to claim 43, wherein said predetermined transfer function is utilized to amplify at least one portion of said thermal information of predetermined interest.
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46. A method according to claim 45, wherein said visually displaying step comprises:
utilizing different colors in predetermined relation to the amplification of said thermal information.
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47. A method according to claim 45, wherein said predetermined transfer function is selected from the group consisting of logarithmic and sinusoidal functions.
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48. A method according to claim 40, wherein said displaying step comprises:
utilizing different colors to represent different relative magnitudes of temperature changes.
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49. A method according to claim 40, wherein said heating step comprises:
heating at least a portion of said tissue region of interest to a temperature sufficient to necrotize cells of said at least a portion of said tissue region of interest.
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50. A method according to claim 49, wherein said temperature is at least about 55°
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51. A method according to claim 40, wherein said heating step comprises:
heating at least a portion of said tissue region of interest to a temperature sufficient to cause hyperthermia within said at least a portion of said tissue region of interest.
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52. A method according to claim 40, wherein said heating step is selected from the group consisting of:
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irradiating said tissue region of interest with a laser;
irradiating said tissue region of interest with a microwave energy source;
irradiating said tissue region of interest with a radio-frequency energy source;
heating said tissue region of interest with an ultrasound energy source; and
combinations thereof.
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53. A method according to claim 40, wherein said relative magnitudes of temperature changes comprise a potential range of temperature changes of no more than a difference of between about 65°
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54. A method according to claim 40, wherein said acquiring step includes:
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acquiring a plurality of X-ray images of said tissue region of interest; and
,wherein said generating step includes;
generating thermal information employing said first image and different ones of said plurality of images.
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55. A method according to claim 40, wherein acquiring step includes:
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acquiring a plurality of X-ray images of said tissue region of interest; and
wherein said generating step includes;
generating thermal information employing different selected pairs of said plurality of X-ray images.
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Specification