Impact of the anode heel effect on image quality and effective dose for AP pelvis: a pilot study
Buissink, Carst; Bowdler, Matt; Abdullah, A; Al-Murshedi, S; Custódio, S; Huhn, Andrea; Jorge, Jose; Ali, Mohammed; Peters, Annastagia Lily; Robin, Rey Yohan; Urdahl, Therese Kristin; Hogg, Peter
Chapter, Peer reviewed
Published version
Permanent lenke
https://hdl.handle.net/10642/6435Utgivelsesdato
2017Metadata
Vis full innførselSamlinger
Originalversjon
Buissink, C., Bowdler, A.A, Al-Murshedi, S., Custódio, S., Huhn, A., Jorge, J. & Hogg, P. (2017). Impact of the anode heel effect on image quality and effective dose for AP pelvis: a pilot study. I P. Hogg, R. Hogg-Thompson & C. Buissink (Red.). OPTIMAX 2016 Optimising image quality for medical imaging. Manchester: University of Salford s. 93-103Sammendrag
Purpose: Using phantoms, this pilot study aims to outline a method and generate
initial data to determine whether the anode heel effect has an impact on image
quality and the effective dose.
Methods and Materials: A dosimetry phantom and an anthropomorphic
adult phantom were positioned with feet towards anode and then cathode
and exposed using 75, 80 and 85 kVp; using 18, 22 and 28 mAs. Twelve
images were taken and assessed for physical and visual quality by signal to noise
ratio and two alternative forced choice (2AFC) with 19 observers. Results: From 2AFC data, no significant statistical differences (p=0.811) were
found in image quality. Effective dose results show no significant statistical
difference (p=0.207) between the two orientations.
Conclusion: No significant reduction in visual image quality or effective dose
exists betweeen the two orientations. Limited data has been provided by this pilot
study so the results should be treated with caution. However the method appears
to generate useful information for the aim of the study and we suggest larger
datasets of 2AFC and dose values should be generated to determine whether
differences exist.