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Society for Pediatric Radiology – Poster Archive


Pulmonary Blood Volume
Showing 1 Abstract.

Haq Adeel,  Siegel Marilyn,  Awali Mohamed

Final Pr. ID: Poster #: EDU-096

Dual energy CT with material-specific reconstructions including iodine, pulmonary blood volume, and lung vessel images can improve assessment of vascular and associated parenchymal abnormalities.
An understanding of material-specific reconstruction algorithms, clinical applications and potential pitfalls can help in accurate interpretation of dual energy CT examinations.

Purpose of this exhibit is to review:

Basic principles of dual energy CT material-specific reconstructions
● Iodine maps
● Pulmonary blood volume (PBV) images
● Lung vessel images

Specific applications and benefits of material-specific reconstructions in cardiothoracic imaging
● Pulmonary embolism: Vessel and PBV images can improve detection of embolus and infarction
● Congenital cyanotic heart disease: Material-specific reconstructions can have a role in assessing pulmonary artery flow/lung perfusion and adequacy of reconstruction surgery
● Arteriovenous malformations: Material-specific images can increase conspicuity of small malformations and can be used to evaluate the success of embolization
● Pulmonary hypertension: Material-specific images are useful to detect subtle decreases in parenchymal perfusion and pulmonary blood flow
● Airway diseases: Reconstructions can provide information on the downhill effect of bronchial obstruction.

Potential pitfalls and artifacts in interpreting material specific reconstructions
● Beam-hardening artifacts
● Diaphragmatic motion
● Cardiac motion

Radiation Dose: Similar or less than single-energy CT
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Authors:  Haq Adeel , Siegel Marilyn , Awali Mohamed

Keywords:  Dual Energy CT, Iodine mapping, Pulmonary Blood Volume