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Clinical Trial Summary

Breast cancer remains a worldwide big killer with a rate of deaths compared with newly diagnosed cases not lower than 20%. Mammography is the primary imaging modality for the early detection of clinically occult breast cancer. Mammography is established as the primary investigation for population-based breast cancer screening. Advances in mammographic technique regarding both hardware and software applications are still not sufficient to overcome mammography's limitation with regard to both sensitivity and specificity. Depending on several factors, such as age and breast density, mammography screening is associated with a false-negative rate of 10-20 %.

Digital Breast Tomosynthesis (TS) is a novel technique that is able to study the breast using 3D reconstructions of the tissue from multiple low-dose digital mammographic images acquired in several planes in a 15 to 50 degree angle. This process aims at a increasing the number of lesion visible due to the reduction of overlapping breast tissue.

In TS, to overcome these limitations, a digital mammography (DM) unit is modified to allow the X-ray tube to move through a proscribed arc of excursion acquiring a fixed number of discrete projection images while the breast remains in compression. The individual projection images are extremely low in dose, so the composite dose incurred during a TS acquisition may be similar to that of a standard 2D mammography. The radiologically dense breasts are associated with decreased sensitivity of mammography, both in the clinical and screening setting as well as its established association with breast cancer risk. The systematic application of ultrasound (US) in women with radiologically dense breasts and negative mammogram has been shown to be associated with an additional cancer detection rate [7,8,9]. Incremental ultrasound detection of cancer may be considered in the range of 0.27% to 0.52% of ultrasound-screened women in different density categories [10]. In addition, the main limitation of US in breast screening is represented by false- positive findings. These findings result in additional investigation or unnecessary surgical biopsy [10].


Clinical Trial Description

Breast cancer remains a worldwide big killer with a rate of deaths compared with newly diagnosed cases not lower than 20%. Mammography is the primary imaging modality for the early detection of clinically occult breast cancer. Mammography is established as the primary investigation for population-based breast cancer screening. Advances in mammographic technique regarding both hardware and software applications are still not sufficient to overcome mammography's limitation with regard to both sensitivity and specificity. Depending on several factors, such as age and breast density, mammography screening is associated with a false-negative rate of 10-20 %.

Digital Breast Tomosynthesis (TS) is a novel technique that is able to study the breast using 3D reconstructions of the tissue from multiple low-dose digital mammographic images acquired in several planes in a 15 to 50 degree angle. This process aims at a increasing the number of lesion visible due to the reduction of overlapping breast tissue.

In TS, to overcome these limitations, a digital mammography (DM) unit is modified to allow the X-ray tube to move through a proscribed arc of excursion acquiring a fixed number of discrete projection images while the breast remains in compression. The individual projection images are extremely low in dose, so the composite dose incurred during a TS acquisition may be similar to that of a standard 2D mammography. The radiologically dense breasts are associated with decreased sensitivity of mammography, both in the clinical and screening setting as well as its established association with breast cancer risk. The systematic application of ultrasound (US) in women with radiologically dense breasts and negative mammogram has been shown to be associated with an additional cancer detection rate. Incremental ultrasound detection of cancer may be considered in the range of 0.27% to 0.52% of ultrasound-screened women in different density categories [10]. In addition, the main limitation of US in breast screening is represented by false- positive findings. These findings result in additional investigation or unnecessary surgical biopsy.

The study aims to demonstrate at least statistical equivalence, or non-significant difference between TS and US in women with dense breasts.

If the equivalence between TS and US will be demonstrated, US may be substituted by TS with great benefits for the patients and for the healthcare resources we aim to:

1. Assess if TS may detect additional cancers in dense breasts that approximate US detection capability but with less false positive findings than US.

2. If TS detects new cancers in dense breasts similarly to US (approximate rate or marginally lower rate), evaluate the true positive/false positive ratio.

3. Cost-analysis. In case of less false positives detected by TS, the TP/ FP trade-off might be strongly in favour of TS with a great potential of costs reduction. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT03033030
Study type Observational
Source University of Genova
Contact
Status Recruiting
Phase N/A
Start date February 2014
Completion date September 2021

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