William F Sensakovic1, Ali Agha2, Matthew Hough3, Baiywo Rop4, Joseph Howley3, Angela Donohoe3, Laura Varich2. 1. Imaging Administration, Florida Hospital, 601 E. Rollins Street, Orlando, FL 32803. Electronic address: wfsensak@gmail.com. 2. Imaging Administration, Florida Hospital, 601 E. Rollins Street, Orlando, FL 32803. 3. Florida Hospital, Altamonte Springs, Florida. 4. Radiology Residency, Florida Hospital, Orlando, Florida.
Abstract
RATIONALE AND OBJECTIVES: Neonates are at increased risk for cold stress and hypothermia in cool environments. An infant transport mattress (ITM) is commonly used to increase neonate temperature during transport and has been used during CT scanning. This study determined the impact of an ITM on radiation dose and image artifacts during CT scanning. MATERIALS AND METHODS: CT images from a single clinical patient scanned with an ITM were reviewed, and observations of image artifacts were recorded. A phantom was scanned with and without the ITM while varying tube-current modulation, reconstruction method, slice thickness, metal reduction algorithm, tube voltage, and tube current. The effects of the ITM on computed tomography dose index (CTDIvol), mean Hounsfield unit (HU), and HU standard deviation were recorded. RESULTS: The clinical patient scan demonstrated significantly decreased mean HU and increased HU standard deviation. In the phantom, the ITM increased CTDIvol 27% and induced an artifact that decreased the mean HU by 3.5 HU and increased HU standard deviation by 4.6 HU. Angular tube-current modulation, strong iterative reconstruction, thick slices, metal artifact reduction, and high mA reduced the artifact. CONCLUSIONS: Using ITM during CT scanning is not recommended given the relatively brief scanning time, increased dose, and induced image artifacts. Based on our results, several acquisition parameters may be altered to mitigate the image artifact if an ITM is required during scanning.
RATIONALE AND OBJECTIVES: Neonates are at increased risk for cold stress and hypothermia in cool environments. An infant transport mattress (ITM) is commonly used to increase neonate temperature during transport and has been used during CT scanning. This study determined the impact of an ITM on radiation dose and image artifacts during CT scanning. MATERIALS AND METHODS: CT images from a single clinical patient scanned with an ITM were reviewed, and observations of image artifacts were recorded. A phantom was scanned with and without the ITM while varying tube-current modulation, reconstruction method, slice thickness, metal reduction algorithm, tube voltage, and tube current. The effects of the ITM on computed tomography dose index (CTDIvol), mean Hounsfield unit (HU), and HU standard deviation were recorded. RESULTS: The clinical patient scan demonstrated significantly decreased mean HU and increased HU standard deviation. In the phantom, the ITM increased CTDIvol 27% and induced an artifact that decreased the mean HU by 3.5 HU and increased HU standard deviation by 4.6 HU. Angular tube-current modulation, strong iterative reconstruction, thick slices, metal artifact reduction, and high mA reduced the artifact. CONCLUSIONS: Using ITM during CT scanning is not recommended given the relatively brief scanning time, increased dose, and induced image artifacts. Based on our results, several acquisition parameters may be altered to mitigate the image artifact if an ITM is required during scanning.