Abstract
Dual Energy X-ray Absorptiometry (DXA) is effective in measuring bone mineral density (BMD) in mice for early detection of osteoporosis. However, scanners designed for use with small animals (i.e. PIXImus) are very expensive. Used human DXA machines are cheaper to obtain, but analysis of scans from these instruments is operator-dependent. Obtaining reliable data depends on having a single operator analyze the scans in a blinded fashion. Scan quality is improved by excising the bone prior to scanning, which does not allow serial measurements. This study describes a novel method of analyzing lumbar spine BMD in mice using whole body DXA. This non-invasive technique has a high degree of precision and reproducibility, with good correlation between multiple observers. Inter-observer variability (0.063 ± 0.00317 g/cm2 [mean ± SD], 5.05 [% coefficient of variation (CV)], repeat scan variability (0.063 ± 0.00364 g/cm2 [mean ± SD], 5.94 [%CV]) were very low compared to variability between different animals (0.063 ± 0.00588 g/cm2 [mean ± SD], 9.64 [%CV]) and variability seen in same animal over time (0.011 ± 0.00885 g/cm2 [mean ± SD], 80.68 [%CV]). The measurement error is thus smaller than the biological variation. Accuracy was determined by comparing average peak BMD from two scans per mouse in-vivo (0.066 g/cm2) versus excised spine (0.065 g/cm2). Furthermore, correlation between bone ash weights and whole body lumbar spine BMD measurements (p < 0.0001) was highly significant. This technique thus shows a high degree of precision and accuracy, even with multiple observers, for measuring BMD in mice using a DXA machine designed for clinical use.
Highlights
The measurement of bone mass is an essential step in assessing bone loss in both humans and animals
We assessed the precision of our method of Bone mineral density (BMD) analysis in mice in-vivo by calculating inter-observer variability, repeat-scan variability, variability across scans of different animals, and variability over time
Inter-observer variability Our data showed a high degree of correlation of calculated BMD between multiple observers with different experience levels and education
Summary
The measurement of bone mass is an essential step in assessing bone loss in both humans and animals. Several non-invasive techniques are available for analyzing bone mineral density and bone mineral content. These measurements provide the essential information for identifying high risk groups for osteoporosis and for assessing the fracturerisk of individuals (Cheng et al 1997; Gala Paniagua et al 1998; Di Leo et al 2002). Dual Energy X-Ray Absorptiometry (DXA) is currently the most widely used non-invasive technique to assess bone mineral density and bone mineral content in human and animal research. DXA was first brought into clinical practice in the 1980s and is a common tool to assess bone loss in humans (Lochmuller et al 2001). It has recently been adapted to measure body composition in several types of animals, such as rats, by using specialized software in conjunction with DXA machines designed for clinical use (Nagy and Clair 2000)
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