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An Energy Dispersive System for the Analysis of Trace Elements in Human Blood Serum

Published online by Cambridge University Press:  06 March 2019

P. S. Ong ,
P. K. Lund ,
C. E. Litton  and
B. A. Mitchell
P. S. Ong
Affiliation:
The University of Texas M. D. Anderson Hospital, Houston, Texas 77025
P. K. Lund
Affiliation:
The University of Texas M. D. Anderson Hospital, Houston, Texas 77025
C. E. Litton
Affiliation:
The University of Texas M. D. Anderson Hospital, Houston, Texas 77025
B. A. Mitchell
Affiliation:
The University of Texas M. D. Anderson Hospital, Houston, Texas 77025
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Abstract

A computerized systetn, consisting of a fluorescence x-ray source (Philips), an Si (Li) detector (Ortec), and a mini Computer (Xerox) is currentiy in operation at The University of Texas M. D. Anderson Hospital and Tumor Institute, Experimentel Pathology Section, for the analysis of trace elements in biological specimens. The elements of interest are Fe, Cu, and Zn for possible significance in the detection and study of cancer. The detection system is being used for comparatively routine analysis of these elements, which are present in blood serum in the ppM range. With appropriate sample preparation techniques, using 1 ml of serum, the limit of detectability for these elements is estimated to be 100 ppB (1 in 107). Further refinement is possible, and research in this direction continues.

Type
Research Article
Information
Advances in X-Ray Analysis , Volume 16: 'Twenty-First Annual Conference on Applications of X-ray Analysis, August 2-4, 1972 , 1972 , pp. 124 - 133
Copyright
Copyright © International Centre for Diffraction Data 1972

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References

1. Natelson, S., Richelson, M. R., Sheid, B. and Bender, S. L.: X-ray spectroscopy in the clinical laboratory. Clin. Chem. 5, 519531, (1959).Google Scholar
2. Lund, P. K. and Mathies, J. C.: X-ray spectroscopy in biology and medicine. Norelco Reporter VII, 127135, (1960).Google Scholar
3. Natelson, S and Sheid, B.: X-ray spectrornetric determination of Strontium in human serum and bone. An. Chem. 33, 396401, (1961).Google Scholar
4. Natelson, S., Leighton, D. R. and Calas, C.: Assay for the elements chromium, manganese, iron, cobalt, copper and zinc simultaneously in human serum and sea water by x-ray spectrometry. Microchem. Jour. VI, 539556, (1962).Google Scholar
5. Underwood, E. J.: Trace Elements in Human and Animal Nutrition. New York, Academic Press, (1956).Google Scholar
6. Hrgovcic, M., Tessmer, C. F., Minckler, T. M., Mosier, B and Taylor, H. G.: Serum copper levels in lymphoma and leukemia; Special reference to Hodgkin's disease. Cancer 21:4, 743755, (1968).Google Scholar
7. Zeitz, L.: X-ray emission analysis in biological specimen. From Progress in Analytical Chemistry. Vol. 3, 3573, Earle, M. K. and Tousimis, A. J., Eds. Plenum Press, New York, London, (1969).Google Scholar
8. Hall, T.: In Advances in X-ray Analysis, Vol. 1, pp297, Mueller, W. M., Ed., Plenum Press, New York, (1957).Google Scholar
9. Litton, C.: The ! Probe Monitor. The University of Texas M. D. Anderson Hospital and Tumor Institute at Houston, Department of Biomathematics, Section of Bioengineering, Internal Document.Google Scholar
10. Jaklevic, J. M. and Goulding, S.: Semiconductor detector x-ray fluorescence spectrometry applied to environmental and biological analysis. Reprint submitted to IEE Trans. March 1972, #LBL-743.Google Scholar
11. Ogilvie, R. E.: Quantitative x-ray analysis with the scanning electron microscope. Proceedings of the 2nd Annual Scanning Electron Microscope Symposium, (1969).Google Scholar
12. Giauque, R. E. and Jaklevic, H. M.: Rapid quantitative analysis by x-ray spectrometry. Paper presented at 20th Annual Denver X-ray Conference, (1971).Google Scholar