Half-value layer measurements using solid-state detectors and single-rotation technique with lead apertures in spiral computed tomography with and without a tin filter

AbstractSolid-state detectors (SSDs) may be used along with a lead collimator for half-value layer (HVL) measurement using computed tomography (CT) with or without a tin filter. We aimed to compare HVL measurements obtained using three SSDs (AGMS-DM+  , X2 R/F sensor, and Black Piranha) with those obtained using the single-rotation technique with lead apertures (SRTLA). HVL measurements were performed using spiral CT at tube voltages of 70–140 kV without a tin filter and 100–140 kV (Sn 100–140 kV) with a tin filter in increments of 10  kV. For SRTLA, a 0.6-cc ionization chamber was suspended at the isocenter to measure the free-in-air kerma rate (\(\dot{K}_{\text{air}}\)) values. Five apertures were made on the gantry cover using lead sheets, and four aluminum plates were placed on these apertures. HVLs in SRTLA were obtained from\(\dot{K}_{\text{air}}\) decline curves. Subsequently, SSDs inserted into the lead collimator were placed on the gantry cover and used to measure HVLs. Maximum HVL differences of AGMS-DM+  , X2 R/F sensor, and Black Piranha with respect to SRTLA without/with a tin filter were − 0.09/0.6 (only two Sn 100–110 kV) mm, − 0.50/ − 0.6 mm, and − 0.17/(no data available) mm, respectively. These values were within the specification limit. SSDs inserted into the l ead collimator could be used to measure HVL using spiral CT without a tin filter. HVLs could be measured with a tin filter using only the X2 R/F sensor, and ...
Source: Radiological Physics and Technology - Category: Physics Source Type: research
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