Materials and MethodsRadiographs of

Materials and Methods
Radiographs of a single third metacarpal equine cadaver
bone and Al wedge taken at various exposures were used to
determine the relationship between BDI and radiographic
exposure for both bone and Al. Each radiograph contained
an Auto-Scaler,1 an Al wedge and cadaver bone. The Al
wedge was simply machined from type 6061 Al and was
20.36 cm in length and 0.2-31.8 mm in thickness, with
a constant density of 2.70 g/cm3. The Auto-Scaler contained
metal markers that standardized the dimensions of the
radiographic image when imported into the software
program Metron-DVM.1 All radiographs were taken with
a portable X-ray system2 and X-ray sensor.3 All radiographs
were taken at 15 mA, the only setting available for this
system. The cadaver bone was positioned perpendicular to
the ground in the center of the line of exposure with the Al
wedge and Auto-Scaler positioned on either side. The bone
and X-ray system was placed to produce a standard dorsal
palmar radiograph. The focal distance was 26 cm, with the
plane of interest containing the cadaver bone, Al wedge,
and Auto-Scaler positioned against the face of the sensor.
Radiographs were taken at all available combinations of
preset exposure intensities ranging from 55-80 kV in 5-kV
intervals and exposure times from 0.02-0.14 seconds every
0.02 second.
The BDI of the Al wedge and cadaver bone was
measured on each radiographic image (Fig.1). To determine
BDI, a unitless value was assigned to each 16-bit pixel on
a grayscale from 0-65,500, with zero being completely
black and 65,500 being completely white. A predetermined
ROI on either bone or Al was generated by forming a rectangle
using Metron-DVM software.1 BDI was determined
by averaging the grayscale value of each pixel in the ROI. In
determining BDI, we did not include background pixels. BDI
of the Al wedge was measured by creating a rectangle
encompassing the entire wedge. BDI of the cadaver bone
was characterized by an ROI with the width larger than the
cross-sectional width of the bone perpendicular to the
sagittal plane and the height equal to the diameter of the
nutrient foramen. To ensure change in BDI was due solely
to effects of radiographic exposure, the same ROI was used
in each radiographic image. BDI of the Al wedge was
compared to BDI of the cadaver bone in the same radiographic
image at various X-ray intensities and exposure
times to ensure the relationship between BDI and radiographic
exposure was similar for both materials.
BMD was correlated with BDI by measuring BDI from
a radiograph of cortical bone of known density and thickness,
determined as g/cm2. A bone step-wedge of known
BMD was made from cortical bone obtained from a equine
cadaver third metacarpal bone in the mid-diaphysis region.
The cortical bone was cut into slices using a diamond blade
tile saw. The average dimension of each slice was 15.28 
3.3mmsquare and 4.23 1.0mmthick. A bone step-wedge
was created by stacking each bone slice face-to-face in
increasing thickness from one slice to 6 slices thick,
consecutively, from step 1-10. The thickness, weight, and
volume corresponding to each bone slice was determined