数字乳腺断层合成系统概念满足乳腺癌筛查和诊断需求。

Digital breast tomosynthesis system concept addressing the needs in breast cancer screening and diagnosis.

作者信息

Radicke Marcus, Beister Marcel, Dwars Stephan, Freudenberger Joerg, Garcia-Allende Pilar B, Geiger Bernhard, Hall Katrin, He WenMan, Hebecker Axel, Heimann Carina, Hellingman Daan, Herbst Magdalena, Hoernig Mathias, Klinnert Thomas, Lueck Ferdinand, Nanke Ralf, Ritschl Ludwig, Schaffert Stefan, Schneider Sabine, Stein Daniel, Wicklein Julia, Kappler Steffen

机构信息

Siemens Healthineers AG, Forchheim, Germany.

Siemens Medical Solutions USA Inc., Malvern, Pennsylvania, United States.

出版信息

J Med Imaging (Bellingham). 2025 Jan;12(Suppl 1):S13010. doi: 10.1117/1.JMI.12.S1.S13010. Epub 2024 Dec 17.

DOI:10.1117/1.JMI.12.S1.S13010

PMID:39703347

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11654754/

Abstract

PURPOSE

Digital breast tomosynthesis (DBT) has been introduced more than a decade ago. Studies have shown higher breast cancer detection rates and lower recall rates, and it has become an established imaging method in diagnostic settings. However, full-field digital mammography (FFDM) remains the most common imaging modality for screening in many countries, as it delivers high-resolution planar images of the breast. To combine the advantages of DBT with the faster acquisition and the unique in-plane resolution capabilities known from FFDM, a system concept was developed for application in screening and diagnosis.

APPROACH

The concept comprises an X-ray tube with adaptive focal spot position based on the flying focal spot (FFS) technology and optimized X-ray spectra. This is combined with innovative algorithmic concepts for tomosynthesis reconstruction and synthetic mammograms (SMs).

RESULTS

An X-ray tube with FFS was incorporated into a DBT system that performs 50-deg wide tomosynthesis scans with 25 projections in 4.85 s. Laboratory evaluations demonstrated significant improvements in the effective modular transfer function (eMTF). The improved eMTF as well as the effectiveness of the algorithmic concepts is shown in images from a clinical evaluation study.

CONCLUSIONS

The DBT system concept enables high spatial resolution at short acquisition times. This leads to improved microcalcification visibility, reduced risk of motion artifacts, and shorter breast compression times. It shifts the in-plane resolution of DBT into the high-resolution range of FFDM. The presented technology leap might be a key contributor to facilitating the paradigm shift of replacing FFDM with DBT plus SM.

摘要

目的

数字乳腺断层合成（DBT）在十多年前就已问世。研究表明，其乳腺癌检出率更高，召回率更低，已成为诊断环境中的一种既定成像方法。然而，在许多国家，全场数字化乳腺X线摄影（FFDM）仍是最常用的筛查成像方式，因为它能提供乳腺的高分辨率平面图像。为了将DBT的优势与FFDM更快的采集速度和独特的面内分辨率能力相结合，开发了一种用于筛查和诊断的系统概念。

方法

该概念包括一个基于飞行焦点（FFS）技术的具有自适应焦点位置的X射线管和优化的X射线光谱。这与用于断层合成重建和合成乳腺X线摄影（SM）的创新算法概念相结合。

结果

一个带有FFS的X射线管被纳入一个DBT系统，该系统在4.85秒内以25个投影进行50度宽的断层合成扫描。实验室评估表明有效调制传递函数（eMTF）有显著改善。临床评估研究图像显示了改进的eMTF以及算法概念的有效性。

结论

DBT系统概念能够在短采集时间内实现高空间分辨率。这导致微钙化的可见性提高、运动伪影风险降低以及乳腺压迫时间缩短。它将DBT的面内分辨率提升到了FFDM的高分辨率范围。所展示的技术飞跃可能是推动用DBT加SM取代FFDM这一范式转变的关键因素。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/544f/11654754/b6addf3f2744/JMI-012-S13010-g001.jpg

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数字乳腺断层合成系统概念满足乳腺癌筛查和诊断需求。

Digital breast tomosynthesis system concept addressing the needs in breast cancer screening and diagnosis.

作者信息

机构信息

出版信息

PURPOSE

APPROACH

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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