Thermodynamic modeling of tissue treatment procedure
First Claim
1. A method of determining a temperature distribution in a targeted tissue volume treated with thermal therapy, the method comprising:
- determining a baseline perfusion characteristic of the targeted tissue volume before commencement of thermal therapy;
calculating a temperature distribution in the targeted tissue volume based on the baseline perfusion characteristic, a microwave power input and a coolant temperature input upon commencement of the thermal therapy; and
iteratively adjusting a perfusion characteristic of the targeted tissue volume based on the calculated temperature distribution and recalculating the temperature distribution based on the adjusted perfusion characteristic, the microwave power input and the coolant temperature input throughout the thermal therapy.
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Abstract
A non-invasive method of determining a temperature distribution in a targeted tissue volume treated with thermal therapy involves determining a baseline perfusion characteristic of the targeted tissue volume. A temperature distribution is calculated in the targeted tissue volume based on the baseline perfusion characteristic of the tissue, a microwave power input and a coolant temperature input. A perfusion characteristic of the targeted tissue volume is iteratively adjusted based on the calculated temperature distribution, and the temperature distribution is iteratively recalculated based on the adjusted perfusion characteristic, the microwave power input and the coolant temperature input throughout the thermal therapy.
70 Citations
20 Claims
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1. A method of determining a temperature distribution in a targeted tissue volume treated with thermal therapy, the method comprising:
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determining a baseline perfusion characteristic of the targeted tissue volume before commencement of thermal therapy;
calculating a temperature distribution in the targeted tissue volume based on the baseline perfusion characteristic, a microwave power input and a coolant temperature input upon commencement of the thermal therapy; and
iteratively adjusting a perfusion characteristic of the targeted tissue volume based on the calculated temperature distribution and recalculating the temperature distribution based on the adjusted perfusion characteristic, the microwave power input and the coolant temperature input throughout the thermal therapy. - View Dependent Claims (2, 3, 4, 5, 6, 7, 16)
determining a volume of necrosis in the targeted tissue volume based on the time and temperature relationship therein.
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3. The method of claim 2, further comprising adjusting the perfusion characteristic of the targeted tissue volume based on the determined volume of necrosis.
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4. The method of claim 3, further comprising graphically displaying the calculated temperatures and the determined volume of necrosis within the targeted tissue volume.
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5. The method of claim 2, wherein determining a volume of necrosis comprises calculating a damage integral throughout the thermal therapy representative of a percentage of cells necrosed in the targeted tissue volume, the damage integral being based on the time and temperature relationship in the targeted tissue volume, and further comprising adjusting the perfusion characteristic of the targeted tissue volume based on the calculated damage integral.
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6. The method of claim 1, wherein determining a baseline perfusion characteristic of the targeted tissue volume comprises:
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inserting a treatment catheter in a urethra adjacent the targeted tissue volume;
terminating coolant flow through the treatment catheter;
measuring an initial catheter temperature;
applying microwave power from the catheter for a first time period;
discontinuing microwave power from the catheter for a second time period;
repeating the steps of applying and discontinuing microwave power for a selected number of iterations;
measuring a final catheter temperature; and
comparing the initial catheter temperature to the final catheter temperature to determine a corresponding baseline perfusion value.
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7. The method of claim 1, further comprising:
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measuring a temperature of a point in the targeted tissue volume;
comparing the measured temperature of the point in the targeted tissue volume to a predicted temperature of the point in the targeted tissue volume from the calculated temperature distribution in the targeted tissue volume; and
adjusting the perfusion characteristic of the targeted tissue volume based on a difference between the measured temperature and the predicted temperature of the point in the targeted tissue volume.
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16. The method of claim 7, further comprising:
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measuring a temperature of a point in the targeted tissue volume;
comparing the measured temperature of the point in the targeted tissue volume to a calculated temperature of the sub-volume of tissue in the targeted tissue volume that includes the point whose temperature is measured; and
adjusting the targeted tissue volume condition based on a difference between the measured temperature of the point in the targeted tissue volume and the calculated temperature of the sub-volume of tissue in the targeted tissue volume that includes the point whose temperature is measured.
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8. A method of determining a temperature distribution in a targeted tissue volume comprising a plurality of sub-volumes treated with thermal therapy, the method comprising:
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(a) determining an initial condition of each sub-volume of tissue in the targeted tissue volume;
(b) calculating a temperature for each sub-volume of tissue in the targeted tissue volume based on the initial condition of each sub-volume of tissue in the targeted tissue volume, a microwave power input and a coolant temperature input;
(c) adjusting the targeted tissue volume condition based on the calculated temperature for each sub-volume of tissue in the targeted tissue volume to yield an adjusted condition;
(d) calculating the temperature for each sub-volume of tissue in the targeted tissue volume based on the adjusted condition of the targeted tissue volume, the microwave power input and the coolant temperature input; and
(e) repeating steps (c) and (d) throughout the thermal therapy. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
determining a first baseline perfusion value for a peri-urethral zone of the targeted tissue;
establishing a second baseline perfusion value for a middle zone of the targeted tissue between the peri-urethral zone of the targeted tissue and an outer boundary of a prostatic capsule, the second baseline perfusion value being related to the first baseline perfusion value; and
establishing a third baseline perfusion value for an outer zone of the targeted tissue outside of the prostatic capsule.
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11. The method of claim 10, wherein determining the first baseline perfusion value for the peri-urethral zone of the targeted tissue comprises:
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(i) inserting a treatment catheter in a urethra adjacent the targeted tissue volume;
(ii) terminating coolant flow through the treatment catheter;
(iii) measuring an initial catheter temperature;
(iv) applying microwave power from the catheter for a first time period;
(v) discontinuing microwave power from the catheter for a second time period;
(vi) repeating steps (iv) and (v) for a selected number of iterations;
(vii) measuring a final catheter temperature; and
(viii) comparing the initial catheter temperature to the final catheter temperature to determine a corresponding baseline perfusion value.
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12. The method of claim 9, wherein adjusting the targeted tissue volume condition comprises adjusting a perfusion value for each sub-volume of tissue in the targeted tissue volume based on a temperature and location of the sub-volume of tissue.
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13. The method of claim 12, wherein adjusting the perfusion value for each sub-volume of tissue in the targeted tissue volume based on the temperature and location of the sub-volume of tissue comprises setting the perfusion value to a predetermined multiple of the baseline perfusion value for each sub-volume of tissue in the targeted tissue volume, the predetermined multiple being based on the temperature and location of the sub-volume of tissue.
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14. The method of claim 8, further comprising:
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(f) calculating a damage integral throughout the thermal therapy representative of a percentage of cells necrosed in each sub-volume of tissue in the targeted tissue volume, the damage integral being based on the time and temperature relationship of each sub-volume of tissue in the targeted tissue volume; and
(g) adjusting the targeted tissue volume condition based on the location, the calculated temperature and the calculated damage integral for each sub-volume of tissue in the targeted tissue volume to yield the adjusted condition.
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15. The method of claim 14, further comprising:
(h) graphically displaying the calculated temperatures and a volume of necrosis within the targeted tissue volume.
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17. A method of determining a temperature distribution in a targeted tissue volume treated with thermal therapy, the method comprising:
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calculating a temperature distribution in the targeted tissue volume based on a microwave power input and a coolant temperature input upon commencement of the thermal therapy;
iteratively adjusting a perfusion characteristic of the targeted tissue volume based on the calculated temperature distribution; and
recalculating the temperature distribution based on the adjusted perfusion characteristic, the microwave power input and the coolant temperature input throughout the thermal therapy. - View Dependent Claims (18, 19, 20)
determining a volume of necrosis in the targeted tissue volume based on the time and temperature relationship therein.
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19. The method of claim 18, further comprising adjusting the perfusion characteristic of the targeted tissue volume based on the determined volume of necrosis.
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20. The method of claim 17, further comprising:
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measuring a temperature of a point in the targeted tissue volume;
comparing the measured temperature of the point in the targeted tissue volume to a predicted temperature of the point in the targeted tissue volume from the calculated temperature distribution in the targeted tissue volume; and
adjusting the perfusion characteristic of the targeted tissue volume based on a difference between the measured temperature and the predicted temperature of the point in the targeted tissue volume.
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Specification