Optimal kvp selection for dual-energy imaging of the chest: evaluation by task-specific observer preference tests

Med Phys. 2007 Oct;34(10):3916-25. doi: 10.1118/1.2776239.

Abstract

Human observer performance tests were conducted to identify optimal imaging techniques in dual-energy (DE) imaging of the chest with respect to a variety of visualization tasks for soft and bony tissue. Specifically, the effect of kVp selection in low- and high-energy projection pairs was investigated. DE images of an anthropomorphic chest phantom formed the basis for observer studies, decomposed from low-energy and high-energy projections in the range 60-90 kVp and 120-150 kVp, respectively, with total dose for the DE image equivalent to that of a single chest radiograph. Five expert radiologists participated in observer preference tests to evaluate differences in image quality among the DE images. For visualization of soft-tissue structures in the lung, the [60/130] kVp pair provided optimal image quality, whereas [60/140] kVp proved optimal for delineation of the descending aorta in the retrocardiac region. Such soft-tissue detectability tasks exhibited a strong dependence on the low-kVp selection (with 60 kVp providing maximum soft-tissue conspicuity) and a weaker dependence on the high-kVp selection (typically highest at 130-140 kVp). Qualitative examination of DE bone-only images suggests optimal bony visualization at a similar technique, viz., [60/140] kVp. Observer preference was largely consistent with quantitative analysis of contrast, noise, and contrast-to-noise ratio, with subtle differences likely related to the imaging task and spatial-frequency characteristics of the noise. Observer preference tests offered practical, semiquantitative identification of optimal, task-specific imaging techniques and will provide useful guidance toward clinical implementation of high-performance DE imaging systems.

Publication types

  • Research Support, N.I.H., Extramural

MeSH terms

  • Aorta, Thoracic / diagnostic imaging
  • Aorta, Thoracic / pathology
  • Equipment Design
  • Humans
  • Image Processing, Computer-Assisted
  • Lung Neoplasms / diagnosis*
  • Lung Neoplasms / diagnostic imaging*
  • Observer Variation
  • Phantoms, Imaging
  • Radiation Dosage
  • Radiography, Dual-Energy Scanned Projection / instrumentation*
  • Radiography, Dual-Energy Scanned Projection / methods*
  • Radiography, Thoracic / instrumentation*
  • Radiography, Thoracic / methods*
  • Reproducibility of Results
  • Thorax / pathology