Abstract
ObjectiveTo investigate the impact of the use of different imaging units and projections on radiation dose and image quality during chest digital radiography (DR) in 3- and 4-year-old children.MethodsTwo hundred forty 3- and 4-year-old participants requiring chest DR were included; they were divided into three groups: supine anterior-posterior projection (APP), standing APP and standing posterior-anterior projection (PAP). Each group included 40 participants who were evaluated using the same imaging unit. The dose area product (DAP) and the entrance surface dose (ESD) were recorded after each exposure. The visual grading analysis score (VGAS) was used to evaluate image quality, and the longitudinal distance (LD) from the apex of the right lung to the apex of the right diaphragm was used to evaluate the inspiration extent.ResultsDAP and ESD were significantly lower in the standing PAP and APP groups than in the supine APP group (P<0.05), but LD was significantly higher in the standing PAP and APP groups than in the supine APP group (P<0.05). Additionally, the pulmonary field area was significantly higher for the standing PAP group than for the standing and supine APP groups (P<0.05). The correlations between ESD, DAP, and VGAS were positive (P<0.001), showing that larger ESD and DAP correspond to higher VGAS. The correlations between ESD, DAP, and body mass index (BMI) were also positive (P<0.05), indicating that higher BMI corresponds to larger ESD and DAP. Finally, no differences in DAP, ESD, VGAS, LD, pulmonary field area, or BMI were noted between males and females (P>0.05).ConclusionThe radiation dose to superficial organs may be lower with standing PAP than with standing APP during chest DR. Standing PAP should be selected for chest DR in 3- and 4-year-old children, as it may decrease the required radiation dose.
Highlights
Digital radiography (DR) is widely applied in diverse medical environments and plays an important role in reaching a definite diagnosis [1]
dose area product (DAP) and entrance surface dose (ESD) were significantly lower in the standing posterior-anterior projection (PAP) and anterior-posterior projection (APP) groups than in the supine APP group (P
No differences in DAP, ESD, visual grading analysis score (VGAS), LD, pulmonary field area, or body mass index (BMI) were noted between males and females (P>0.05)
Summary
Digital radiography (DR) is widely applied in diverse medical environments and plays an important role in reaching a definite diagnosis [1]. The dose area product (DAP) and the entrance surface dose (ESD) were used to evaluate the radiation dose received, and the visual grading analysis score (VGAS) was applied to evaluate image quality [4,5,7,9,10]. Some academicians [4] have suggested using children’s age, height, and weight to obtain normative body sizes for some age ranges and applying these criteria to regulate exposure parameters and increase image quality
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