Noninvasive liver-iron quantification by computed tomography in iron-overloaded rats.

Peter Nielsen; R Engelhardt; R Fischer; H C Heinrich; J H Langkowski; E Bücheler

Noninvasive liver-iron quantification by computed tomography in iron-overloaded rats.

Standard

Noninvasive liver-iron quantification by computed tomography in iron-overloaded rats. / Nielsen, Peter; Engelhardt, R; Fischer, R; Heinrich, H C; Langkowski, J H; Bücheler, E.

in: INVEST RADIOL, Jahrgang 27, Nr. 4, 4, 1992, S. 312-317.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Nielsen, P, Engelhardt, R, Fischer, R, Heinrich, HC, Langkowski, JH & Bücheler, E 1992, 'Noninvasive liver-iron quantification by computed tomography in iron-overloaded rats.', INVEST RADIOL, Jg. 27, Nr. 4, 4, S. 312-317. <http://www.ncbi.nlm.nih.gov/pubmed/1601623?dopt=Citation>

APA

Nielsen, P., Engelhardt, R., Fischer, R., Heinrich, H. C., Langkowski, J. H., & Bücheler, E. (1992). Noninvasive liver-iron quantification by computed tomography in iron-overloaded rats. INVEST RADIOL, 27(4), 312-317. [4]. http://www.ncbi.nlm.nih.gov/pubmed/1601623?dopt=Citation

Vancouver

Nielsen P, Engelhardt R, Fischer R, Heinrich HC, Langkowski JH, Bücheler E. Noninvasive liver-iron quantification by computed tomography in iron-overloaded rats. INVEST RADIOL. 1992;27(4):312-317. 4.

Bibtex

@article{4893b8e4e53f449ab32dcffb15adf613,

title = "Noninvasive liver-iron quantification by computed tomography in iron-overloaded rats.",

abstract = "RATIONALE AND OBJECTIVES. The benefit of computed tomography (CT) for the noninvasive determination of liver-iron concentration in human iron-overload diseases is a controversy in the literature. To study the sensitivity of CT for liver-iron quantification under experimental conditions, the authors measured single- and dual-energy CT numbers in vivo in the livers of iron-overloaded rats. METHODS. Thirty-five rats were subjected to an iron-rich diet for various periods, from 1 to 20 weeks, then scanned by single- and dual-energy CT. CT absorption was correlated to liver-iron content, which was determined by wet ashing and spectrophotometry. RESULTS. Whereas a good correlation (r = 0.99 at 96 kV; r = 0.95 at 125 kV) between CT numbers and liver-iron concentration was found, CT was insensitive to low concentrations of iron. Dual-energy CT scanning results showed greater scattering in liver-iron quantification compared with single-energy CT. CONCLUSIONS. In rats, the sensitivity of single- and dual-energy CT is too low to quantify liver iron in the diagnostically most relevant region of mild liver siderosis (1-3 mg iron/g wet weight [w.wt]).",

author = "Peter Nielsen and R Engelhardt and R Fischer and Heinrich, {H C} and Langkowski, {J H} and E B{\"u}cheler",

year = "1992",

language = "Deutsch",

volume = "27",

pages = "312--317",

journal = "INVEST RADIOL",

issn = "0020-9996",

publisher = "Lippincott Williams and Wilkins",

number = "4",

}

RIS

TY - JOUR

T1 - Noninvasive liver-iron quantification by computed tomography in iron-overloaded rats.

AU - Nielsen, Peter

AU - Engelhardt, R

AU - Fischer, R

AU - Heinrich, H C

AU - Langkowski, J H

AU - Bücheler, E

PY - 1992

Y1 - 1992

N2 - RATIONALE AND OBJECTIVES. The benefit of computed tomography (CT) for the noninvasive determination of liver-iron concentration in human iron-overload diseases is a controversy in the literature. To study the sensitivity of CT for liver-iron quantification under experimental conditions, the authors measured single- and dual-energy CT numbers in vivo in the livers of iron-overloaded rats. METHODS. Thirty-five rats were subjected to an iron-rich diet for various periods, from 1 to 20 weeks, then scanned by single- and dual-energy CT. CT absorption was correlated to liver-iron content, which was determined by wet ashing and spectrophotometry. RESULTS. Whereas a good correlation (r = 0.99 at 96 kV; r = 0.95 at 125 kV) between CT numbers and liver-iron concentration was found, CT was insensitive to low concentrations of iron. Dual-energy CT scanning results showed greater scattering in liver-iron quantification compared with single-energy CT. CONCLUSIONS. In rats, the sensitivity of single- and dual-energy CT is too low to quantify liver iron in the diagnostically most relevant region of mild liver siderosis (1-3 mg iron/g wet weight [w.wt]).

AB - RATIONALE AND OBJECTIVES. The benefit of computed tomography (CT) for the noninvasive determination of liver-iron concentration in human iron-overload diseases is a controversy in the literature. To study the sensitivity of CT for liver-iron quantification under experimental conditions, the authors measured single- and dual-energy CT numbers in vivo in the livers of iron-overloaded rats. METHODS. Thirty-five rats were subjected to an iron-rich diet for various periods, from 1 to 20 weeks, then scanned by single- and dual-energy CT. CT absorption was correlated to liver-iron content, which was determined by wet ashing and spectrophotometry. RESULTS. Whereas a good correlation (r = 0.99 at 96 kV; r = 0.95 at 125 kV) between CT numbers and liver-iron concentration was found, CT was insensitive to low concentrations of iron. Dual-energy CT scanning results showed greater scattering in liver-iron quantification compared with single-energy CT. CONCLUSIONS. In rats, the sensitivity of single- and dual-energy CT is too low to quantify liver iron in the diagnostically most relevant region of mild liver siderosis (1-3 mg iron/g wet weight [w.wt]).

M3 - SCORING: Zeitschriftenaufsatz

VL - 27

SP - 312

EP - 317

JO - INVEST RADIOL

JF - INVEST RADIOL

SN - 0020-9996

IS - 4

M1 - 4

ER -