Alignment of clinical breast tomosynthesis and mechanical images: the effect of the variation in shift and rotation

Predrag R. Bakic; Sophia Zackrisson; Anders Tingberg; Magnus Dustler

doi:10.1117/12.3026924

29 May 2024 Alignment of clinical breast tomosynthesis and mechanical images: the effect of the variation in shift and rotation

Predrag R. Bakic, Sophia Zackrisson, Anders Tingberg, Magnus Dustler

Author Affiliations +

Proceedings Volume 13174, 17th International Workshop on Breast Imaging (IWBI 2024); 131741F (2024) https://doi.org/10.1117/12.3026924
Event: 17th International Workshop on Breast Imaging (IWBI 2024), 2024, Chicago, IL, United States

Abstract

Simultaneous digital breast tomosynthesis and mechanical imaging (DBTMI), a novel screening approach, combines anatomic DBT with functional analysis of the stress distribution on the compressed breast by mechanical imaging (MI). Preliminary studies suggest potential to reduce false positive findings. DBTMI requires to align DBT and MI images. In this study, we have analyzed robustness to alignment variations in clinical DBTMI data. Our preliminary retrospective analysis included DBTMI of 31 women recalled from screening. We analyzed two aspects of image alignment: rotation and shift. To analyze the shift, we varied the position of suspected abnormality for ±1cm in horizontal or vertical direction. To analyze the rotation, we varied the angle by ±1 degree between radiographic and MI images of 18 women. We compared the relative mean pressure at the lesion area (RMPA) before and after variation. Varying the shift, we observed 14.3%±12.2% difference in RMPA. Averaged separately over biopsy confirmed benign and malignant lesions, 16.2%±14.3% and 12.4%±10.2% difference was observed, respectively. In nine of 31 analyzed datasets, the shift could potentially change the clinical findings. Varying the rotation, we observed 6.4%±4.9% difference in RMPA. Averaged over biopsy confirmed benign and malignant lesions, yielded 5.8%±4.5% and 6.4%±4.8% difference, respectively. In two of 18 DBTMI datasets, the rotational variation could change the clinical findings. The larger effect of the shift may be caused by a relatively large shift variation (±1 cm) compared to the size of detected abnormalities. Analysis of more clinical DBTMI datasets and simulation studies are ongoing.

(2024) Published by SPIE. Downloading of the abstract is permitted for personal use only.

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Predrag R. Bakic, Sophia Zackrisson, Anders Tingberg, and Magnus Dustler "Alignment of clinical breast tomosynthesis and mechanical images: the effect of the variation in shift and rotation", Proc. SPIE 13174, 17th International Workshop on Breast Imaging (IWBI 2024), 131741F (29 May 2024); https://doi.org/10.1117/12.3026924

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KEYWORDS

Digital breast tomosynthesis

Breast

Sensors

X-ray detectors

Biological imaging

Tomosynthesis

Radiography

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