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Literature DB >> 2040251

Lead in bone: sampling and quantitation using K X-rays excited by 109Cd.

D R Chettle¹, M C Scott, L J Somervaille.

Abstract

Lead in bone can be measured in vivo using gamma-rays from a 109Cd source to excite lead K X-rays. Normalization of lead X-ray amplitudes to that of the elastically backscattered 88 keV gamma-rays produces a determination of the concentration of lead in bone mineral that is accurate and insensitive to variations in measurement or bone geometry. For in vivo tibia measurements, a typical precision (1 SD) of +/- 5 micrograms lead (g bone mineral)-1 is achieved for an effective dose equivalent of 2.1 microSv. Measurement can be made of any superficial bone site, but precision will vary approximately as the inverse of the square root of the mass of bone mineral sampled. The apparatus required for this technique is readily transportable, and mobile laboratory facilities are easily established.

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Year: 1991 PMID： 2040251 PMCID： PMC1519364 DOI： 10.1289/ehp.919149

Source DB: PubMed Journal: Environ Health Perspect ISSN： 0091-6765 Impact factor: 9.031

14 in total

1. In vivo measurements of bone lead--a comparison of two x-ray fluorescence techniques used at three different bone sites.

Authors: L J Somervaille; U Nilsson; D R Chettle; I Tell; M C Scott; A Schütz; S Mattsson; S Skerfving
Journal: Phys Med Biol Date: 1989-12 Impact factor: 3.609

2. In vivo tibia lead measurements as an index of cumulative exposure in occupationally exposed subjects.

Authors: L J Somervaille; D R Chettle; M C Scott; D R Tennant; M J McKiernan; A Skilbeck; W N Trethowan
Journal: Br J Ind Med Date: 1988-03

3. Comparison of two in vitro methods of bone lead analysis and the implications for in vivo measurements.

Authors: L J Somervaille; D R Chettle; M C Scott; A C Aufderheide; J E Wallgren; L E Wittmers; G R Rapp
Journal: Phys Med Biol Date: 1986-11 Impact factor: 3.609

4. An X-ray fluorescence technique for in vivo determination of lead concentration in a bone matrix.

Authors: L Ahlgren; S Mattsson
Journal: Phys Med Biol Date: 1979-01 Impact factor: 3.609

5. In vivo X-ray fluorescence estimation of bone lead concentrations in Queensland adults.

Authors: J Price; H Baddeley; J A Kenardy; B J Thomas; B W Thomas
Journal: Br J Radiol Date: 1984-01 Impact factor: 3.039

6. In vivo measurement of lead in bone using x-ray fluorescence.

Authors: L J Somervaille; D R Chettle; M C Scott
Journal: Phys Med Biol Date: 1985-09 Impact factor: 3.609

7. Feasibility of noninvasive analysis of lead in the human tibia by soft x-ray fluorescence.

Authors: L Wielopolski; J F Rosen; D N Slatkin; D Vartsky; K J Ellis; S H Cohn
Journal: Med Phys Date: 1983 Mar-Apr Impact factor: 4.071

8. Microprobe analysis of lead in human femur by proton induced X-ray emission (PIXE).

Authors: U Lindh; D Brune; G Nordberg
Journal: Sci Total Environ Date: 1978-07 Impact factor: 7.963

9. Lead in bone. I. Direct analysis for lead in milligram quantities of bone ash by graphite furnace atomic absorption spectroscopy.

Authors: L E Wittmers; A Alich; A C Aufderheide
Journal: Am J Clin Pathol Date: 1981-01 Impact factor: 2.493

10. X-ray fluorescence analysis of lead in human skeleton in vivo.

Authors: L Ahlgren; K Lidén; S Mattsson; S Tejning
Journal: Scand J Work Environ Health Date: 1976-06 Impact factor: 5.024

29 in total

1. Bias correction by use of errors-in-variables regression models in studies with K-X-ray fluorescence bone lead measurements.

Authors: Héctor Lamadrid-Figueroa; Martha M Téllez-Rojo; Gustavo Angeles; Mauricio Hernández-Ávila; Howard Hu
Journal: Environ Res Date: 2010-11-18 Impact factor: 6.498

2. Neurotoxicity in young adults 20 years after childhood exposure to lead: the Bunker Hill experience.

Authors: L Stokes; R Letz; F Gerr; M Kolczak; F E McNeill; D R Chettle; W E Kaye
Journal: Occup Environ Med Date: 1998-08 Impact factor: 4.402

3. Lead levels in bone and hair of rats treated with lead acetate.

Authors: E Hać; J Krechniak
Journal: Biol Trace Elem Res Date: 1996-06 Impact factor: 3.738

4. Measurements of Strontium Levels in Human Bone In Vivo Using Portable X-ray Fluorescence (XRF).

Authors: Aaron J Specht; Farshad Mostafaei; Yanfen Lin; Jian Xu; Linda H Nie
Journal: Appl Spectrosc Date: 2017-03-02 Impact factor: 2.388

5. Lead exposure biomarkers in the Common Loon.

Authors: Aaron J Specht; Kimberley E Kirchner; Marc G Weisskopf; Mark A Pokras
Journal: Sci Total Environ Date: 2018-08-04 Impact factor: 7.963

6. Bone lead content assessed by L-line x-ray fluorescence in lead-exposed and non-lead-exposed suburban populations in the United States.

Authors: J F Rosen; A F Crocetti; K Balbi; J Balbi; C Bailey; I Clemente; N Redkey; S Grainger
Journal: Proc Natl Acad Sci U S A Date: 1993-04-01 Impact factor: 11.205