Dose optimisation in paediatric radiography – Using regression models to investigate the relative impact of acquisition factors on image quality and radiation dose

Ali, Ali Mohammed; Hogg, Peter; England, Andrew

doi:10.1016/j.ejmp.2019.10.034

Cited by 12 publications

(5 citation statements)

References 26 publications

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“…The role of additional filtration is essentially to reduce skin dose as it removes lower-energy photons from the X-ray beam, which are completely absorbed by the patient and do not contribute to the creation of the radiological image, while increasing the radiation dose [ 14 , 15 ]. This result is consistent with multiple previous studies that have shown a reduction in radiation dose using aluminum, copper, or compound additional filtration for thoracic [16] , [17] , [18] and abdominal X-rays [ 19 , 20 ] in adults, pelvic X-rays in children [22] , [23] , [24] , and thoracic [25] , [26] , [27] , [28] and pelvic [22] X-rays in newborns.…”

Section: Discussionsupporting

confidence: 93%

“…Copper and aluminum are commonly used materials for this purpose in medical imaging. Numerous studies have demonstrated the benefits of additional filtration for thoracic [16] , [17] , [18] , abdominal X-rays [ 19 , 20 ] and even thoracic CT [21] in adults, as well as for pelvic X-rays in children [22] , [23] , [24] . In newborns, it has been shown that additional filtration can reduce radiation dose without compromising the quality of thoracic [25] , [26] , [27] , [28] and pelvic X-rays [22] .…”

Section: Introductionmentioning

confidence: 99%

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Dose optimization in newborn abdominal radiography: Assessing the added value of additional filtration on radiation dose and image quality using an anthropomorphic phantom

Petit,

Alwan,

Behr

et al. 2024

Research in Diagnostic and Interventional Imaging

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Section: Discussionsupporting

confidence: 93%

Section: Introductionmentioning

confidence: 99%

Dose optimization in newborn abdominal radiography: Assessing the added value of additional filtration on radiation dose and image quality using an anthropomorphic phantom

Petit,

Alwan,

Behr

et al. 2024

Research in Diagnostic and Interventional Imaging

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“…AEC is designed to keep image noise constant. It automatically adjusts the tube current to ensure that photons absorbed by the air between the object and the source are replenished in sufficient quantity to produce a high-quality diagnostic image (13). In the manual exposure system, the tube current is set based on the preselected current.…”

Section: Discussionmentioning

confidence: 99%

Increasing Source-Object Distance: A Computed Radiography-based Strategy to Reducing Radiation Dose in Occipital-Frontal Skull X-Ray

Yusoff¹,

Ismail²

2023

MJMHS

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Introduction: Exploring potential optimization strategies and developing evident practices is critical. Previous studies show that radiation dose can be reduced by increasing the source-image distance (SID). Although most studies use digital radiography, many hospitals in underdeveloped countries still use computed radiography (CR). Therefore, research will investigate the relationship between SID and Entrance surface dose (ESD) using the CR. Methods: This study involved the measurement of radiation dose and image quality of a radiological procedure performed at a reference SID; 100cm and the tested SIDs; 110cm, 120cm, and 130cm, using constant technical factors (70kVp, 25mAs, grid). A LiF; Mg Ti thermoluminescence dosimeter (TLD-100) chip was placed in the center of the radiation field of the OF10° skull radiography examination to measure ESD. Image quality was assessed using the European Commission guidelines and graded using relative visual assessment analysis (VGA). Results: Significant ESD reduction from 21% and 45% when SID was increased from 100cm to 130cm (p <0.001), where SID was negatively correlated with ESD (r= - 0.98). The VGA scores showed no statistical difference in the image quality of the OF10° skull radiography examination for the tested and reference images (p=0.21). VGA scores for 120cm images showed the highest image quality among the SIDs tested with a dose reduction of 37%. Conclusion: ESD was statically reduced when SID was increased from 100cm to 130cm, while image quality was diagnostically acceptable. The study suggests that 120cm is the optimal SID when both dose and image quality are considered.

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“…Children were used in studies on dose optimization and image quality by altering parameters, one of which was tube current-time. Radiation exposure is monitored with a dosimeter [25] and used to conduct an assessment of image quality together with the AEC variation [26].…”

Section: Introductionmentioning

confidence: 99%

The Influence of X-Ray Tube Current-Time Variations Toward Signal to Noise Ratio (SNR) in Digital Radiography: A Phantom Study

Utami¹,

Istiqomah²

2023

AMM

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Several image enhancement applications can be used to increase SNR and brightness. However, if the setting of tube current-time is too high, the application can not reduce the radiation dose. So, It is necessary to test tube current-time variations on the SNR value and image quality to determine the effect on body organs and radiation dose. This study aims to determine the influence of tube current-time on SNR and with this research is expected to be an input for radiographers in the field to pay attention to parameter settings for patients. We compared five tube current-time variations on the Antebrachii examination by using Phantom (58 kV, 32 mA, 50 mSec), (58 kV, 100 mA, 50 mSec), (58 kV, 32 mA, 5 mAs), (58 kV , 32 mA, 5 mAs) and (58kV, 100 mA, 5 mAs). Then we made a circle of ROI with a diameter of 0.2 cm2 on the Bone, Soft-tissue and Air sections in that four tube current-time variations, each of which has 7 ROI points tocalculate the SNR and the radiation dose is seen from the image. There is a difference in SNR on tube current-time changes and affects the image quality with an Adjusted R square value of 0.003 and 0.865. It shows that there is a change in tube current that affects the Signal to Noise Ratio between organs. Since it is proven that changes in tube current-time affect image quality, further research can formulate an ideal parameter for the examination of each organ.

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Dose optimisation in paediatric radiography – Using regression models to investigate the relative impact of acquisition factors on image quality and radiation dose

Cited by 12 publications

References 26 publications

Dose optimization in newborn abdominal radiography: Assessing the added value of additional filtration on radiation dose and image quality using an anthropomorphic phantom

Dose optimization in newborn abdominal radiography: Assessing the added value of additional filtration on radiation dose and image quality using an anthropomorphic phantom

Increasing Source-Object Distance: A Computed Radiography-based Strategy to Reducing Radiation Dose in Occipital-Frontal Skull X-Ray

The Influence of X-Ray Tube Current-Time Variations Toward Signal to Noise Ratio (SNR) in Digital Radiography: A Phantom Study

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