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KMID : 1103720070560020141
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Journal of the Korean Society of Radiology
2007 Volume.56 No. 2 p.141 ~ p.148
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Quantitative Pulmonary Perfusion Imaging with 3-dimensional, Contrast-enhanced MR: Regional Difference in the Perfusion Parameters of Healthy Volunteers
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Kim Sung-Soo
Seo Joon-Beom
Kim Nam-Kug
Do Kyung-Hyun
Lee Young-Kyung
Kim Jin-Hwan
Song Jae-Woo
Lee Jin-Sung
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Abstract
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Purpose: We wanted to evaluate the regional differences in such perfusion parameters as pulmonary blood flow (PBF), mean transit time (MTT) and pulmonary blood volume (PBV) in the entire lung of healthy volunteers with using three-dimensional, contrast-enhanced MR imaging (3D CEMRI).
Materials and Methods: Six healthy volunteers underwent dynamic 3D CEMRI (TR/TE 2.7/0.6 msec; flip angle 40degree; matrix 128x96; reconstructed matrix 256x192; rectangular field of view 450x315 mm; coronal 100-150mm-thickx10 slabs; temporal resolution 1.0 sec; 35 dynamic phases) For all subjects, 2 mL of Gd-DTPA mixed with 3 ml of physiologic saline was administered as a bolus at a rate of 5 mL/sec, and this was followed by 20 mL of physiologic saline flush. From the signal intensity-time curves, the PBF, MTT and PBV maps were generated using indicator dilution theories and the central volume principle on a pixel-by-pixel basis. A total of 54 round, 1-cm sized ROIs were placed in the lung in each subject (6 ROIs per slabx9 slices except for the most posterior slab). The regional differences of the measured parameters were statistically evaluated in the gravitational direction and in the upper-mid-lower direction by one-way ANOVA tests.
Results: The calculated PBF, MTT and PBV in the entire lung were 141.8+/-53.4 mL/100 mL/min (mean+/-SD), 5.35+/-1.38 sec, and 13.4+/-6.48 mL/100mL, respectively. In the gravitational direction, there was a significant increase in the PBF and PBV as it goes to the posterior direction (p < 0.05). No statistical difference was found in PBF or PBV between the upper, mid and lower lung zone areas.
Conclusion: Regional difference in the various perfusion parameters of the lung in healthy volunteers can be quantitatively assessed with performing 3D CEMRI.
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KEYWORD
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Computers, Lung MR, Lung perfusion, Magnetic resonance(MR) three-dimensional
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