Assessment of chemical species of lead accumulated in tidemarks of human articular cartilage by X-ray absorption near-edge structure analysis

Florian Meirer,Jochen G Hofstaetter,Peter Wobrauschek,Giancarlo Pepponi,Andrea Berzlanovich,Simone Sprio,Bernhard Pemmer,Ralph Steininger,Joerg Goettlicher,Paul Roschger,Norbert Zoeger,Anna Tampieri,Christina Streli,Stefan Mangold

doi:10.1107/s0909049510052040

Abstract

A highly specific accumulation of the toxic element lead was recently measured in the transition zone between non-calcified and calcified normal human articular cartilage. This transition zone, the so-called `tidemark', is considered to be an active calcification front of great clinical importance. However, little is known about the mechanisms of accumulation and the chemical form of Pb in calcified cartilage and bone. Using spatially resolved X-ray absorption near-edge structure analysis (µ-XANES) at the Pb L(3)-edge, the chemical state of Pb in the osteochondral region was investigated. The feasibility of the µ-XANES set-up at the SUL-X beamline (ANKA synchrotron light source) was tested and confirmed by comparing XANES spectra of bulk Pb-reference compounds recorded at both the XAS and the SUL-X beamline at ANKA. The µ-XANES set-up was then used to investigate the tidemark region of human bone (two patella samples and one femoral head sample). The spectra recorded at the tidemark and at the trabecular bone were found to be highly correlated with the spectra of synthetic Pb-doped carbonated hydroxyapatite, suggesting that in both of these very different tissues Pb is incorporated into the hydroxyapatite structure.

Highlights

Exposure to the toxic element lead is associated with chronic diseases of the nervous, hematopoietic, skeletal, renal and endocrine systems (Jarup, 2003)
The Pb L fluorescence intensity was evaluated for each step of the scan to find the maximum intensity which is known to coincide with the tidemark (Zoeger et al, 2006, the SUL-X beamline was only slightly higher than at the ANKA X-ray absorption spectroscopy (XAS) beamline (4 Â 1010 photons sÀ1), explaining the similar quality of the spectra
This study demonstrates that the spatial resolved m-XANES technique on the SUL-X beamline is well suited to allocate the chemical form of Pb, present in only low concentrations in human bone and calcified articular cartilage tissue

Summary

Introduction

Exposure to the toxic element lead is associated with chronic diseases of the nervous, hematopoietic, skeletal, renal and endocrine systems (Jarup, 2003). Bone is a composite material consisting of an organic component of the matrix, which is predominantly of type-I collagen molecules, which assemble in a regularly staggered manner to form fibrils of several hundred nanometres diameter. The tibia and patella have been widely used in epidemiologic studies to determine bone Pb levels by in vivo K-line X-ray fluorescence (XRF). Owing to the large information depth ($ 2 cm) when considering Pb K-lines (75 keV photons) in in vivo XRF analysis, signals are detected from a large bone volume and lack spatial resolution

Methods

Results

Conclusion