Trace elements in human parotid saliva |
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Authors: | Ilhan Olmez M Cetin Gulovali Glen E Gordon Robert I Henkin |
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Affiliation: | (1) Department of Chemistry and Biochemistry, University of Maryland, 20742 College Park, MD;(2) Center for Molecular Nutrition and Sensory Disorders, Taste and Smell Clinic, 20016 Washington, DC;(3) Present address: Nuclear Reactor Laboratory, Massachusetts Institute of Technology, 02139 Cambridge, MA;(4) Present address: Turkish Aerospace Industries, Inc., Ankara, Turkey |
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Abstract: | Although various proteins and some electrolytes have been measured in human saliva, little systematic data about the major
and minor elemental components of this body fluid have been obtained. In order to obtain such data, concentrations of C, Na,
P, Cl, K, Ca, Sc, Cr, Fe, Co, Zn, Se, Br, Rb, Sb, I, and Cs in human parotid saliva were measured by instrumental nuclear
methods. The data obtained confirmed the relative lack of Zn in saliva of patients with hypogeusia (decreased taste acuity)
and suggested that concentrations of Na, Cl, Br, and Ca followed the order: normals > hypogeusia > hyposmia (decreased smell
acuity). To compare concentrations of elements in saliva with those in blood and urine, absolute concentrations were normalized
to that of Na through the use of a concept called an enrichment factor. On this basis, parotid saliva is relatively depleted
in Se, Zn, and Fe and enriched for most other elements relative to blood plasma indicating that the fluid is not simply a
transudate of blood plasma. Using this same technique, saliva composition was found more similar to urine than blood plasma,
being relatively depleted in Se, Cs, and Co, being enriched in I, Br, and Cr and having about the same relative concentrations
of P, Cl, Zn, Fe, Ca, K, and Rb. As the total body concentrations of many of the enriched elements in saliva are extremely
small, their enrichment in saliva suggests special roles for these elements in the oral cavity. Because of its accessibility,
ease of collection, and interaction with some body constituents, saliva represents a useful, albeit neglected, tool in the
diagnosis of some physiological and pathological changes in body function and in understanding important aspects of trace
metal metabolism. |
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Keywords: | Saliva trace elements zinc metabolism taste neutron activation analysis oral physiology |
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