Dominik Boehm scite author profile

Purpose:To demonstrate a quantitative approach to measuring fluid volumes with standard single shot RARE sequences. Materials and Methods:In phantom experiments, magnetic resonance hydrometry (MRH), in combination with various calibration phantoms (5 mL up to 500 mL) as internal standards, was used to quantify fluid volumes. In total, 16 volume phantoms were investigated with six different calibration phantoms. In addition, noise correction was implemented to correct the quantification results and to avoid the influence of random noise in the image.Results: All MR measurements show significant correlations of up to r ϭ 0.99 (P Ͻ .05) with the real applied volume in the investigated phantoms. However, measurements of large volumes were more precise with large calibration phantoms. Noise reduction did not change the correlation between measured and real applied volumes, but did reduce the error of the measured volumes. Calibrated magnetic resonance hydrometry (cMRH) is able to quantify volumes of fluid fast and noninvasively. The volumes of the used calibration phantoms have to be at least in the order of magnitude of the volumes that are to be measured. Conclusion:In vitro, cMRH using a single-shot rapid acquisition with refocused echoes (ssRARE) sequence and calibration phantoms is a fast and accurate method of quantifying steady amounts of fluid.

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Dominik Boehm

MR Hydrometry to Assess Exocrine Function of the Pancreas: Initial Results of Noninvasive Quantification of Secretion

Magnetic resonance cystometry: accurate assessment of bladder volume with magnetic resonance imaging

Magnetic resonance hydrometry: non-invasive quantification of the exocrine pancreatic function

Calibrated magnetic resonance hydrometry: An in vitro study

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