%0 Journal Article %T The measurement of liver fat from single-energy quantitative computed tomography scans %A Cheng, Xiaoguang %A Blake, Glen M. %A Brown, J. Keenan %A Guo, Zhe %A Zhou, Jun %A Wang, Fengzhe %A Yang, Liqiang %A Wang, Xiaohong %A Xu, Li %J Quantitative Imaging in Medicine and Surgery %D 2017 %B 2017 %9 %! The measurement of liver fat from single-energy quantitative computed tomography scans %K %X Background: Studies of soft tissue composition using computed tomography (CT) scans are often semi-quantitative and based on Hounsfield units (HU) measurements that have not been calibrated with a quantitative CT (QCT) phantom. We describe a study to establish the water (H 2 O) and dipotassium hydrogen phosphate (K 2 HPO 4 ) basis set equivalent densities of fat and fat-free liver tissue. With this information liver fat can be accurately measured from any abdominal CT scan calibrated with a suitable phantom. Methods: Liver fat content was measured by comparing single-energy QCT (SEQCT) HU measurements of the liver with predicted HU values for fat and fat-free liver tissue calculated from their H 2 O and K 2 HPO 4 equivalent densities and calibration data from a QCT phantom. The equivalent densities of fat were derived from a listing of its constituent fatty acids, and those of fat-free liver tissue from a dual-energy QCT (DEQCT) study performed in 14 healthy Chinese subjects. This information was used to calculate liver fat from abdominal SEQCT scans performed in a further 541 healthy Chinese subjects (mean age 62 years; range, 31–95 years) enrolled in the Prospective Urban Rural Epidemiology (PURE) Study. Results: The equivalent densities of fat were 941.75 mg/cm 3 H 2 O and –43.72 mg/cm 3 K 2 HPO 4 , and for fat-free liver tissue 1,040.13 mg/cm 3 H 2 O and 21.34 mg/cm 3 K 2 HPO 4 . Liver fat in the 14 subjects in the DEQCT study varied from 0–17.9% [median: 4.5%; interquartile range (IQR): 3.0–7.9%]. Liver fat in the 541 PURE study subjects varied from –0.3–29.9% (median: 4.9%; IQR: 3.4–6.9%). Conclusions: We have established H 2 O and K 2 HPO 4 equivalent densities for fat and fat-free liver tissue that allow a measurement of liver fat to be obtained from any abdominal CT scan acquired with a QCT phantom. Although radiation dose considerations preclude the routine use of QCT to measure liver fat, the method described here facilitates its measurement in patients having CT scans performed for other purposes. Further studies comparing the results with magnetic resonance (MR) measurements of liver fat are required to validate the method as a useful clinical tool. %U https://qims.amegroups.org/article/view/15189 %V 7 %N 3 %P 281-291 %@ 2223-4306