Annika Wersebe scite author profile

The objective of this study is to compare image quality and lesion detection for full field digital mammography (FFDM) and film-screen mammography (FSM). In 200 women we performed digital mammography of one breast and film-screen mammography of the other breast. Imaging parameters were set automatically. Image quality, visualization of calcifications and masses were rated by three readers independently. Mean glandular dose was calculated for both systems. We found no significant difference in mean glandular dose. Image quality was rated by reader A/B/C as excellent for FFDM in 153/155/167 cases and for FSM in 139/116/114 cases (p<0.03/0.001/0.001). Microcalcifications were detected by FFDM in 103/89/98 and by FSM in 76/76/76 cases (p<0.01/0.06/0.01). Detection of masses did not differ significantly. FFDM provided significantly better visibility of skin and nipple-areola region (p<0.01). FFDM demonstrated improved image quality compared with film-screen mammography. Microcalcification detection was also significantly better with the digital mammography system for two of the three readers.

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Diagnostic Potential of Targeted Electrical Impedance Scanning in Classifying Suspicious Breast Lesions

Wersebe¹,

Siegmann²,

Krainick³

et al. 2002

Investigative Radiology

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The Effects of Paclitaxel on the Three Phases of Restenosis

Wiskirchen

Schöber

Schart

et al. 2004

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Comparison of Gadolinium-BOPTA and Ferucarbotran-Enhanced Three-Dimensional T1-Weighted Dynamic Liver Magnetic Resonance Imaging in the Same Patient

Wersebe¹,

Wiskirchen²,

Decker³

et al. 2006

Investigative Radiology

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Feru-enhanced T1w dynamic images demonstrated significant signal increases for liver, vessels, and spleen but overall lower signal intensities than Gd-BOPTA. The dynamic signal courses of ferucarbotran were similar to that of Gd-BOPTA during ll perfusion phases except in the spleen. Thus, it may be possible to detect typical enhancement pattern of focal liver lesions with Feru-enhanced dynamic T1w MRI.

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Microcalcifications of the breast: how does radiologic classification correlate with histology?

et al. 2005

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The BI-RADS lexicon describes microcalcifications of the breast and provides diagnostic categories that lead to standardized biopsy recommendations. Nevertheless, how to link description to classification of microcalcifications is still a difficult diagnostic task. The evaluation of microcalcifications as proposed in this article may help to set standards in the clinical routine and in the comparability of scientific data.

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Annika Wersebe

Comparison of full-field digital mammography and film–screen mammography: image quality and lesion detection

Diagnostic Potential of Targeted Electrical Impedance Scanning in Classifying Suspicious Breast Lesions

The Effects of Paclitaxel on the Three Phases of Restenosis

Comparison of Gadolinium-BOPTA and Ferucarbotran-Enhanced Three-Dimensional T1-Weighted Dynamic Liver Magnetic Resonance Imaging in the Same Patient

Microcalcifications of the breast: how does radiologic classification correlate with histology?

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