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Literature DB >> 10659760

Reliability of water proton chemical shift temperature calibration for focused ultrasound ablation therapy.

T Wu¹, K R Kendell, J P Felmlee, B D Lewis, R L Ehman.

Abstract

Our purpose in this work was to assess the reliability of the calibration coefficient for magnetic resonance water proton chemical shift temperature mapping. Over a six month period, the calibration coefficient was measured 15 times in several different phantoms. A highly linear relationship between water proton chemical shift and temperature change was found. The average temperature calibration coefficient determined from all studies was 0.009+/-0.001 ppm/degrees C. Four of the 15 studies were conducted on the same day using the same phantom. The average temperature calibration coefficient of these four studies was 0.0096+/-0.0001 ppm/degrees C.

Entities: Chemical

Mesh：

Substances：
Protons
Water

Year: 2000 PMID： 10659760 DOI： 10.1118/1.598864

Source DB: PubMed Journal: Med Phys ISSN： 0094-2405 Impact factor: 4.071

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Cited

6 in total

Reliability of water proton chemical shift temperature calibration for focused ultrasound ablation therapy.

1. Magnetic resonance imaging of boiling induced by high intensity focused ultrasound.

2. Feasibility of MR-temperature mapping of ultrasonic heating from a CMUT.

3. Trans-cranial focused ultrasound without hair shaving: feasibility study in an ex vivo cadaver model.

4. A quality control program for MR-guided focused ultrasound ablation therapy.

5. Validation of hybrid angular spectrum acoustic and thermal modelling in phantoms.

6. Thermometry of red blood cell concentrate: magnetic resonance decoding warm up process.