Kenji Yutani scite author profile

These results suggest that FDG-PET is useful in the preoperative evaluation of prognosis in breast cancer patients with more accuracy than conventional TNM staging. It is expected that the indication of neoadjuvant chemotherapy can be decided more precisely by the preoperative evaluation of patient prognosis with FDG-PET due to a possible elimination of overtreatment for those who have good prognosis and, thus, need not to be treated with chemotherapy.

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Quantitative mapping of cerebral deoxyhemoglobin content using MR imaging

Fujita

Shinohara

Tanaka

et al. 2003

NeuroImage

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Comparison of FDG-PET with MIBI-SPECT in the Detection of Breast Cancer and Axillary Lymph Node Metastasis

Yutani¹,

Shiba²,

Kusuoka³

et al. 2000

Journal of Computer Assisted Tomography

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Correction of nonuniform attenuation and image fusion in SPECT imaging by means of separate X-ray CT

et al. 2002

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Improvements in image quality and quantitation measurement, and the addition of detailed anatomical structures are important topics for single-photon emission tomography (SPECT). The goal of this study was to develop a practical system enabling both nonuniform attenuation correction and image fusion of SPECT images by means of high-performance X-ray computed tomography (CT). A SPECT system and a helical X-ray CT system were placed next to each other and linked with Ethernet. To avoid positional differences between the SPECT and X-ray CT studies, identical flat patient tables were used for both scans; body distortion was minimized with laser beams from the upper and lateral directions to detect the position of the skin surface. For the raw projection data of SPECT, a scatter correction was performed with the triple energy window method. Image fusion of the X-ray CT and SPECT images was performed automatically by auto-registration of fiducial markers attached to the skin surface. After registration of the X-ray CT and SPECT images, an X-ray CT-derived attenuation map was created with the calibration curve for 99mTc. The SPECT images were then reconstructed with scatter and attenuation correction by means of a maximum likelihood expectation maximization algorithm. This system was evaluated in torso and cylindlical phantoms and in 4 patients referred for myocardial SPECT imaging with Tc-99m tetrofosmin. In the torso phantom study, the SPECT and X-ray CT images overlapped exactly on the computer display. After scatter and attenuation correction, the artifactual activity reduction in the inferior wall of the myocardium improved. Conversely, the incresed activity around the torso surface and the lungs was reduced. In the abdomen, the liver activity, which was originally uniform, had recovered after scatter and attenuation correction processing. The clinical study also showed good overlapping of cardiac and skin surface outlines on the fused SPECT and X-ray CT images. The effectiveness of the scatter and attenuation correction process was similar to that observed in the phantom study. Because the total time required for computer processing was less than 10 minutes, this method of attenuation correction and image fusion for SPECT images is expected to become popular in clinical practice.

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Effect of patients' being prone during FDG PET for the diagnosis of breast cancer.

Yutani¹,

Tatsumi²,

Uehara³

et al. 1999

American Journal of Roentgenology

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Kenji Yutani

Preoperative evaluation of prognosis in breast cancer patients by [ 18 F]2-Deoxy-2-fluoro-D-glucose-positron emission tomography

Quantitative mapping of cerebral deoxyhemoglobin content using MR imaging

Comparison of FDG-PET with MIBI-SPECT in the Detection of Breast Cancer and Axillary Lymph Node Metastasis

Correction of nonuniform attenuation and image fusion in SPECT imaging by means of separate X-ray CT

Effect of patients' being prone during FDG PET for the diagnosis of breast cancer.

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