Application of a Mobile C-Arm Fluoroscopy System to Bone Densitometry by Utilizing a Dual Energy X-Ray Spectrum
We examined the dual energy X-ray spectrum necessary for bone mineral measurements in a mobile fluoroscopic C-arm. We used a dual kVp (peak kilovoltage) exposure and a low-energy absorption filter. Tube voltages were chosen as 40 kVp and 70 kVp for the measurement of the bone mineral density (BMD) on peripheral sites, and copper sheets were used as low energy absorption filters. Spectra were measured with a pin-hole collimator and YAP: Ce scintillation detector and were compared to those calculated by using the SPECT-78 program. Bone mineral densities were measured with different thicknesses of aluminum and acryl that simulated bone and soft tissue, respectively. The dual energy X-ray spectrum measured at 40 kVp and 70 kVp with a 0.5-mm copper filter was similar in shape to the calculated one. The BMD obtained from the dual energy X-ray source and the C-arm system was highly linear and was independent of the soft tissue thickness. The precision errors for the measured BMD were within 1%.
J. Yoon et al., "Application of a Mobile C-Arm Fluoroscopy System to Bone Densitometry by Utilizing a Dual Energy X-Ray Spectrum," Journal of the Korean Physical Society, Korean Physical Society, Jan 2005.
The definitive version is available at https://doi.org/10.3938/jkps.47.529
Mining and Nuclear Engineering
Keywords and Phrases
Dual Energy Absorptiometry; Fluoroscopy; X-Ray Spectroscopy
Article - Journal
© 2005 Korean Physical Society, All rights reserved.