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Department of Radiology, University of Minnesota School of Medicine, Minneapolis, Minnesota
Department of Radiology, Hennepin County Medical Center
Departments of Radiology and Pediatrics, University of Minnesota, Minneapolis, Minnesota
Correspondence: For reprints contact: Steven A. Sirr, MD, MS, Dept. of Radiology, Hennepin County Medical Center, 701 Park Ave. So., Minneapolis, MN 55415.
ABSTRACT
Superimposition of nuclear medicine scintigrams and standard radiographs provides a unique opportunity for merging functional information intrinsic to nuclear medicine images with the high resolution anatomic detail of radiographs. A newly developed image processing system allows the merging of two separate films of greatly varying sizes to form a single composite image. Subsequent quantitative analysis of the composite image may be performed. Using the superimposition technique, [99mTc]DTPA aerosol ventilation scans (4.5 x 4.5 cm) were superimposed upon chest radiographs (35.6 x 43.2 cm) in 17 cystic fibrosis (CF) patients. Subsequent quantification of the area of nuclear scan ventilation and the radiographic lung area was then performed. A new quantitative radiologic index of ventilation, the aerosol penetration ratio (APR), was defined. Linear correlation of aerosol penetration ratio with residual volume (RV) as percent of total lung capacity (TLC) measured by body plethysmography was good. We conclude that the APR has validity as a physiologic parameter which localized regional excessive residual volume and correlates well with RV/TLC, the "gold standard" pulmonary function index of obstructive airway disease.
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| JOURNAL OF NUCLEAR MEDICINE TECHNOLOGY | THE JOURNAL OF NUCLEAR MEDICINE |
