T. Takahashi scite author profile

T. Takahashi

4Publications

83Citation Statements Received

12Citation Statements Given

How they've been cited

182

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Affiliations

Mitsubishi Heavy Industries (Japan), Hitachi (Japan), Hokkaido University

Publications

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Improved arterial visibility using short‐tau inversion‐recovery (STIR) fat suppression in non‐contrast‐enhanced time–spatial labeling inversion pulse (Time‐SLIP) renal MR angiography (MRA)

Shonai

Takahashi

Ikeguchi

et al. 2009

Magnetic Resonance Imaging

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Purpose: To evaluate whether short-tau inversion-recovery (STIR) fat suppression is worthwhile in non-contrast-enhanced respiration-triggered free-breathing time-spatial labeling inversion pulse (Time-SLIP) renal magnetic resonance angiography (MRA) compared with chemical shift selective (CHESS) fat suppression. Materials and Methods:Simulation-based analyses of inversion time (TI) for spatial-selective inversion-recovery (ssIR) pulse and breathing rate were performed, and confirmed on a phantom and in human subjects using a threedimensional (3D) coherent steady-state free precession (SSFP) sequence on a 1.5T Toshiba scanner. Results:The STIR fat suppression successfully suppressed signals from the intestines and parenchymous organs and provided better contrast between the arteries and the background, although an extension of TI was required for the ssIR pulse when a patient's respiration was extremely slow. Conclusion:STIR fat suppression provides better renal artery contrast than CHESS fat suppression in non-contrast free-breathing Time-SLIP MRA; it is also an effective screening tool for renal artery stenosis because of the lack of interference from intestinal signals. However, close attention is needed if the patient has slow respiration. As the TI for the ssIR pulse decreases, the STIR method requires faster-paced respiration.

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Extraforaminal Disc Herniation

Kurobane

Takahashi

Tajima

et al. 1986

Spine

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Features of a magnetic rotary encoder

1987

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Response of the hypertrophied left ventricle to tachycardia: importance of maturation

Fujii

Aoyagi

Flanagan

et al. 1993

American Journal of Physiology-Heart and Circulatory Physiology

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Pressure overload left ventricular (LV) hypertrophy (LVH) induces ventricular dysfunction during stress, which is commonly attributed to diminished myocardial capillary density and ischemia. Immature hearts with LVH have a normal coronary flow reserve and capillary density. The purpose of this study was to determine 1) whether young lambs with LVH had an abnormal response to chronotropic stress, 2) whether nonischemic mechanisms contributed to the abnormal response, and 3) whether the age at which LVH was induced affected the response. We assessed LV endomyocardial function, perfusion, and Ca(2+)-adenosinetriphosphatase (ATPase) mRNA levels in chronically instrumented lambs with and without LVH and adult sheep with and without LVH. Rapid pacing induced diastolic dysfunction, increased time constant of isovolumic relaxation using an iterative fit (tM), and elevated LV diastolic pressures in young lambs and adult sheep with LVH. During pacing, tM was greater in the adult sheep with LVH than in the young lambs with LVH. Ca(2+)-ATPase mRNA levels were 79% less in adult sheep with LVH than in those without. Ca(2+)-ATPase mRNA levels in lambs with and without LVH and adult sheep without LVH were similar. Diastolic dysfunction occurred in the absence of subendomyocardial hypoperfusion, suggesting a nonischemic mechanism. In adult sheep with LVH diastolic dysfunction was associated with a marked reduction in Ca(2+)-ATPase mRNA levels.

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T. Takahashi

Improved arterial visibility using short‐tau inversion‐recovery (STIR) fat suppression in non‐contrast‐enhanced time–spatial labeling inversion pulse (Time‐SLIP) renal MR angiography (MRA)

Extraforaminal Disc Herniation

Features of a magnetic rotary encoder

Response of the hypertrophied left ventricle to tachycardia: importance of maturation

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