AggettPJ. Physiology and metabolism of essential trace elements: An outline. Clin Endocrin Metab1985; 14: 513–43.
2.
TaylorA. Detection and monitoring for disorders of essential trace elements. Ann Clin Biochem1996; 33: 486–510.
3.
DelvesHT. Assessment of trace element status. Clin Endocrin Metab1985; 14: 725–60.
4.
RuzMCavanKRBettgerWJThompsonLBerryMGibsonRS. Development of a dietary model for the study of mild zinc deficiency in humans and evaluation of some biochemical and functional indices of zinc status. Am J Clin Nutr1991; 53: 1295–303.
5.
FooteJWDelvesHT. Albumin bound and α-2 macroglobulin zinc concentrations in the sera of healthy adults. J Clin Pathol1984; 37: 1050–4.
6.
FaureHFavierATripierMArnaudJ. Determination of the major zinc fractions in human serum by ultrafiltration. Biol Trace Element Res1990; 24: 25–37.
7.
ArnaudJFaureHBourlandPDenisBFavierA. Longitudinal changes in serum zinc concentration and distribution after acute myocardial infarction. Clin Chim Acta1994; 230: 147–56.
8.
BaerMTKingJC. Tissue zinc levels and zinc excretion during experimental zinc depletion in young men. Am J Clin Nutr1984; 39: 556–70.
9.
ReimoldEWBeschDJ. Detection and elimination of contaminations interfering with the determination of zinc in plasma. Clin Chem1978; 24: 675–80.
10.
ValeeBL. Determination of zinc by dithizone in a monophase water-glycol system. Anal Chem1954; 26: 914–7.
11.
PrasadASMialeAJrFraidZ. Clinical and experimental zinc metabolism in patients with the syndrome of iron deficiency anemia, hepatosplenomegaly, dwarfism, and hypogonadism. J Lab Clin Med1963; 61: 537–49.
12.
Mikac-DevicD. A new spectrophotometric method for determination of zinc in serum and urine. Clin Chim Acta1969; 23: 499–506.
13.
PekarekRSBeiselWRBartelloniPJBostranKA. Determination of serum zinc concentration in normal adult subjects by atomic absorption spectrometry. Am J Clin Pathol1972; 57: 506–10.
14.
MahanandDHouckJC. Fluorometric determination of zinc in biological fluids. Clin Chem1968; 114: 1–5.
15.
DanielssonLGJagnerDJosefsonMWesterlundS. Computerized potentiometric stripping analysis for the determination of cadmium, lead, copper and zinc in biological materials. Anal Chim Acta1981; 127: 147–56.
RastegarFMaierEAHeimburgerRChristopheCRuchCLeroyMJF. Simultaneous determination of trace elements by energy-dispersive x-ray fluorescence spectrometry. Clin Chem1984; 30: 1300–3.
18.
DonangeloCMChangGW. An enzymatic assay for available zinc in plasma and serum. Clin Chim Acta1981; 113: 201–6.
19.
MorenoASilvaMBenditoDPValcarelM. Application of a modified catalytic effect: Determination of nanogram amounts of zinc in milk samples using a kinetic-fluorimetric method. Analyst1983; 108: 85–91.
20.
TaylorABranchSCrewsHHallsDWhiteM. Atomic Spectrometry Update: Clinical and biological materials, foods and beverages. J Anal Atomic Spectr1996; 11: 103R–184R.
21.
BrownAATaylorA. Determination of copper and zinc in serum and urine by use of a slotted quartz tube and flame atomic absorption spectrometry. Analyst1984; 109: 1455–9.
22.
JamesBEMacmahonRA. An effect of trichloroacetic acid on the determination of zinc by atomic absorption spectrometry. Clin Chim Acta1971; 32: 307–9.
23.
TaylorABryantTN. Comparison of procedures for determination of copper and zinc in serum by atomic absorption spectroscopy. Clin Chim Acta1981; 110: 83–90.
24.
BurgueraJLBurgueraMBrunettoMR. In vivo sample uptake and on-line measurements of zinc and copper in whole blood by microwave-assisted mineralization and flow injection AAS. At Spectrosc1993; 14: 90–4.
25.
TaylorA. Clinical applications of flame techniques. In: HaswellSJ, ed. Atomic Absorption Spectrometry Theory, Design and Applications. Amsterdam: Elsevier, 1991: 359–79.
26.
ShawJCLBuryAJBarberAMannLTaylorA. A micromethod for the analysis of zinc in plasma or serum by atomic absorption spectrophotometry using graphite furnace. Clin Chim Acta1982; 118: 229–39.
27.
WhitehouseRCPrasadASCossackZT. Determination of ultrafilterable zinc in plasma by flameless atomic absorption spectrometry. Clin Chem1983; 29: 1974–7.
28.
FooteJWDelvesHT. Determination of non-protein bound zinc in human serum using ultrafiltration and atomic absorption spectrometry with electrothermal atomisation. Analyst1988; 113: 911–5.
29.
VieraNEHansenJW. Zinc determined in 10μL-serum or urine samples by flameless atomic absorption spectrophotometry. Clin Chem1981; 27: 73–7.
30.
AccominottiMPegonYVallonJ-J. Determination of zinc in blood serum by electrothermal atomic absorption spectrometry with matrix modification. Clin Chim Acta1988; 173: 99–106.
31.
DelvesHTShuttlerIL. Elemental analysis of body fluids and tissues by electrothermal atomization and atomic absorption spectrometry. In: HaswellSJ, ed. Atomic Absorption Spectrometry Theory, Design and Applications. Amsterdam: Elsevier, 1991: 381–438.
32.
D'HaesePCLambertsLVVanheuleAODe BroeME. Direct determination of zinc in serum by zeeman atomic absorption spectrometry with a graphite furnace. Clin Chem1992; 38: 2439–43.
33.
CarrionNItriagoAMurilloMEljuriEFernandezA. Determination of calcium, potassium, magnesium, iron, copper and zinc in maternal milk by inductively coupled plasma atomic emission spectrometry. J Anal Atomic Spectr1994; 9: 205–7.
34.
DurrantSFKrushkevaAAmarasiriwardenaDArgentineMDRomon-GuesnierSBarnesR. Matrix separation by chelation to prepare biological materials for isotopic zinc analysis by inductively coupled plasma mass spectrometry. J Anal Atomic Spectr1994; 9: 199–204.
35.
VaughanM-ABainesADTempletonDM. Multielement analysis of biological specimens by inductively coupled plasma-mass spectrometry. II. Rapid survey method for profiling trace elements in body fluids. Clin Chem1991; 37: 210–5.
36.
GerottoMDell'AndreaeBortoliAMarchioriMPalontaMTronconA. Interference effects and their control in ICP-MS analysis of serum and saline solutions. Microchem J1995; 51: 73–7.
37.
SerfassREThompsonJJHoukRS. Isotope ratio determinations by inductively coupled plasma/mass spectrometry for zinc bioavailability studies. Anal Chim Acta1986; 188: 73–84.
38.
VandecasteeleCVanhoeHDamsR. Inductively coupled plasma mass spectrometry of biological samples. J Anal Atomic Spectr1993; 8: 781–6.
39.
GoossensJDamsR. Anion exchange for the elimination of spectral interferences caused by chlorine and sulphur in inductively coupled plasma mass spectrometry. J Anal Atomic Spectr1992; 7: 1167–71.
40.
EbdonLFisherASWorsfoldPJCrewsHBaxterM. On-line removal of interferences in the analysis of biological materials by flow injection inductively coupled plasma mass spectrometry. J Anal Atomic Spectr1993; 8: 691–5.
41.
AmarasiriwardenaCJKrushevskaAFonerHArgentineMDBarnesRM. Sample preparation for inductively coupled plasma mass spectrometric determination of the zinc-70 to zinc-68 isotope ratio in biological samples. J Anal Atomic Spectr1992; 7: 915–21.
42.
MoensLVerreptPDamsRGrebULaserB. New high-resolution inductively coupled plasma mass spectrometry technology applied for the determination of V, Fe, Cu, Zn and Ag in human serum. J Anal Atomic Spectr1994; 9: 1075–9.
43.
PattersonKYVeillonCMoser-VeillonPBWallaceGF. Determination of zinc stable isotopes in biological materials using isotope dilution inductively coupled plasma mass spectrometry. Anal Chim Acta1992; 258: 317–9.
44.
FrielJKLongerichHPJacksonSE. Determination of isotope ratios in human tissues enriched with zinc stable isotope tracers using inductively coupled plasma mass spectrometry (ICP-MS). Biol Trace Elem Res1993; 37: 123–36.
45.
YokoiKAlcockNWSansteadHH. Determination of plasma zinc disappearance constant by inductively coupled plasma mass spectrometry. Biomed Res Trace Elem1993; 4: 59–63.
46.
DenoyerER. Semiquantitative analysis of environmental materials by laser sampling inductively coupled plasma mass spectrometry. J Anal Atomic Spectr1992; 7: 1187–93.
47.
GregoireDCLeeJ. Determination of cadmium and zinc isotope ratios in sheeps' blood and organ tissue by electrothermal vaporization inductively coupled plasma mass spectrometry. J Anal Atomic Spectr1994; 9: 393–7.
48.
WilliamsLACohenJSZakB. Study of a differential demasking technique for serum zinc. Clin Chem1962; 8: 502–8.
49.
CarterP. Spectrophotometric submicrogram serum zinc assay: An application for the routine service laboratory. Clin Chim Acta1974; 52: 277–86.
50.
SongMKAdhamNFRinderknechtH. A simple, highly sensitive colorimetric method for the determination of zinc in serum. Am J Clin Pathol1976; 65: 229–33.
51.
HomsherRZakB. Spectrophotometric investigation of sensitive complexing agents for the determination of zinc in serum. Clin Chem1985; 31: 1310–3.
52.
ArnaudJChappuisPZawislakRHouotO. Comparison of serum zinc determination by colorimetric and atomic absorption methods in four different laboratories. Tr Elem Med1992; 9: 198–202.
53.
TaylorABriggsRJ. An external quality assessment scheme for trace elements in biological fluids. J Anal Atomic Spectr1986; 1: 391–5.
54.
TaylorABriggsRJ. External quality assessment schemes and improvements in the measurement of trace elements in biological fluids. J Anal Atomic Spectr1995; 10: 1033–7.
55.
TaylorA. Reference materials and analytical standards to stimulate improved laboratory performance. Experience from the external quality assessment scheme for trace elements in biological fluids. Mikrochim Acta1996; 123: 251–60.
