Abstract
Computed tomography thoracic angiography studies were performed on five adult beagles using the bolus tracking (BT) technique and the test bolus (TB) technique, which were performed at least two weeks apart. For the BT technique, 2 mL/kg of 300 mgI/mL iodinated contrast agent was injected intravenously. Scans were initiated when the contrast in the aorta reached 150 Hounsfield units (HU). For the TB technique, the dogs received a test dose of 15% of 2 mL/kg of 300 mgI/mL iodinated contrast agent, followed by a series of low dose sequential scans. The full dose of the contrast agent was then administered and the scans were conducted at optimal times as identified from time attenuation curves. Mean attenuation in HU was measured in the aorta (Ao) and right caudal pulmonary artery (rCPA). Additional observations included the study duration, milliAmpere (mA), computed tomography dose index volume (CTDI[vol]) and dose length product (DLP). The attenuation in the Ao (BT = 660 52 HU ± 138 49 HU, TB = 469 82 HU ± 199 52 HU, p = 0.13) and in the rCPA (BT = 606 34 HU ± 143 37 HU, TB = 413 72 HU ± 174.99 HU, p = 0.28) did not differ significantly between the two techniques. The BT technique was conducted in a significantly shorter time period than the TB technique (p = 0.03). The mean mA for the BT technique was significantly lower than the TB technique (p = 0.03), as was the mean CTDI(vol) (p = 0.001). The mean DLP did not differ significantly between the two techniques (p = 0.17). No preference was given to either technique when evaluating the Ao or rCPA but the BT technique was shown to be shorter in duration and resulted in less DLP than the TB technique.
Highlights
Thoracic computed tomography (CT) is a well established and increasingly important imaging procedure in human and veterinary medicine
What has been found is a strong correlation between the test bolus to point of maximal enhancement (tPME) and the time to reach certain attenuation levels in the main bolus (Cademartiri et al 2002). These findings indicate that the bolus geometry between the test bolus and the main bolus is, different and this may lead to the TB technique being demoted as the gold standard technique as applied in this study
This study is useful as it gives the clinician the confidence to make an informed choice when choosing a Computed tomography angiography (CTA) thoracic study protocol in a medium-sized canine patient whilst using a dual-slice CT scanner
Summary
Thoracic computed tomography (CT) is a well established and increasingly important imaging procedure in human and veterinary medicine. Computed tomography angiography (CTA) analyses imaging data that is acquired during the first pass of a bolus of contrast medium. Proper selection of acquisition timing is critical in order to optimise contrast medium enhancement (Bae 2003). When performing any intravenous contrast study there are several factors that need to be taken into account: physico-chemical factors (such as concentration of the contrast medium); technical factors (such as injection duration and rate); and patient factors, with body weight cited as the most important factor affecting the amount of aortic enhancement (Bae 2008). The variability introduced by patient factors is overcome in CTA by the application of either a bolus tracking (BT) or a test bolus (TB) technique
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