S. Oelckers et W. Graeff, IN-SITU MEASUREMENT OF IRON OVERLOAD IN LIVER-TISSUE BY DUAL-ENERGY METHODS, Physics in medicine and biology, 41(7), 1996, pp. 1149-1165
The errors for determining liver iron content by dual-energy computed
tomography (dual-energy CT) are calculated for the ideal case where on
ly monochromatic x-ray beams are used. Because of the strong influence
of spatial resolution on the radiation dose needed to reduce the erro
r to a given level, we have also calculated the error in dual-energy t
ransmission measurements alone, where the spatial information along th
e beam path is lost. The prediction of error was tested by simulations
and measurements using x-rays emitted by radioactive isotopes and syn
chrotron radiation. Good agreement between calculation, simulation and
measurement was found. It is shown that concentrations of liver iron
content (disregarding variation of tissue composition) can be studied
with a skin dose of about 30 mGy using dual-energy CT and even with mu
ch lower dose using dual-energy transmission measurements. However, th
ere are sources of error besides photon noise, especially errors cause
d by variation of tissue composition. For example dual-energy CT, alth
ough suggested to avoid artifacts caused by fat in the case of a fatty
liver, still is affected by fat. The magnitude of these errors is dis
cussed qualitatively, and possibilities for their reduction are sugges
ted. For a definitive estimate of errors of iron content measurements
with optimized apparatus more experimental data for well defined varia
tions of body tissue, especially in the case of haemochromatosis, are
needed.