L. A. Walton scite author profile

L. A. Walton

2Publications

5Citation Statements Received

44Citation Statements Given

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University of Salford

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Can the anode heel effect be used to optimise radiation dose and image quality for AP pelvis radiography?

et al. 2020

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A study was conducted to determine whether the anode heel effect can be used to influence optimisation of radiation dose and image quality (IQ) for AP pelvis radiography. Methods:ATOM dosimetry phantom and an anthropomorphic phantom were positioned for AP pelvis. Using a CR system, images were acquired and doses were measured with phantom feet toward anode and then feet toward cathode. Exposure factors (kVp, mAs and SID) were systematically generated using a factorial design. Images were scored visually for quality using relative visual grading together with a 3 point Likert scale. Signal to noise ratio was also calculated as a physical measure of image quality. Dosimetry data were collected for the ovaries and testes. Results:The optimum technique for male, which resulted in lower dose and suitable image quality, was with feet positioned toward the anode (0.80±0.03 mGy; SNR of 38±2.9; visual IQ score 3.13± 0.35). The optimum technique for female was with feet toward anode (0.23±0.02 mGy; SNR of 34.7±2.6; visual IQ score 3.15± 0.26). kVp had the biggest effect on both visual and physical image quality metrics (p˂0.001) for both tube orientations, whereas SID had the lowest effect on both visual and physical image quality metrics compared with mAs and kVp (p˂0.001). The effect of SID on the SNR was not significant (p>0.05) with feet toward anode. Conclusion:Positioning the patient with feet toward the anode, as opposed to the cathode, has no adverse effect on visual image quality assessment but it does have an effect on physical image quality.

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Evaluation of X-ray table mattresses for radiation attenuation and impact on image quality

et al. 2021

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L. A. Walton

Can the anode heel effect be used to optimise radiation dose and image quality for AP pelvis radiography?

Evaluation of X-ray table mattresses for radiation attenuation and impact on image quality

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