Frauenheilkunde up2date, Inhaltsverzeichnis Frauenheilkunde up2date 2016; 10(01): 67-82DOI: 10.1055/s-0041-111671 Gynäkologische Spezialgebiete und Methoden Georg Thieme Verlag KG Stuttgart · New York Mammasonografie – Teil 2 Regina Fugunt , Michael Golatta , Ines Gruber , Christine Solbach , André Farrokh , Markus Hahn , in Kooperation mit dem Arbeitskreis Mammasonografie der DEGUM Artikel empfehlen Abstract Artikel einzeln kaufen Alle Artikel dieser Rubrik Volltext Referenzen Literatur 1 Madjar H, Ohlinger R, Mundinger A et al. BI-RADS®-anloge DEGUM-Kriterien von Ultraschallbefunden der Brust – Konsensus des Arbeitskreises Mammasonografie der DEGUM. Ultraschall Med 2006; 27: 374-379 2 Fischer U, Helbich Th. Hrsg. Deutsche und Österreichische Röntgengesellschaft (DRG und ÖRG). 4th ed. ACR BI-RADS®: Illustrierte Anleitung zur einheitlichen Befunderstellung von Mammographie, Mammasonographie, MR Mammographie. 2. aktualisierte und erweiterte deutsche Auflage des Breast Imaging Reporting and Data System (BI-RADS) des American College of Radiology (ACR). Stuttgart: Thieme; 2006 3 American College of Radiology (ACR) Im Internet: http://www.acr.org 4 DʼOrsi CJ, Sickles EA, Mendelson EB et al. ACR BI-RADS® Atlas, Breast Imaging Reporting and Data System. Reston, VA: American College of Radiology; 2013 5 Catania S, Zurrida S, Veronesi P et al. Mondorʼs disease and breast cancer. Cancer 1992; 62: 2267-2270 6 Marshall M, Schwahn-Schreiber C. Oberflächliche Venenentzündung: Besser nicht unterschätzen!. Der Allgemeinarzt 2012; 8: 24-29 7 Ophir J, Céspedes I, Ponnekanti H et al. Elastography: a quantitative method for imaging the elasticity of biological tissues. Ultrason Imaging 1991; 13: 111-134 8 Itoh A, Ueno E, Tohno E et al. Breast disease: clinical application of US elastography for diagnosis. Radiology 2006; 239: 341-350 9 Farrokh A, Wojcinski S, Degenhardt F. [Diagnostic value of strain ratio measurement in the differentiation of malignant and benign breast lesions.]. Ultraschall Med 2011; 32: 400-405 10 Wojcinski S, Boehme E, Farrokh A et al. Ultrasound real-time elastography can predict malignancy in BI-RADS®-US 3 lesions. BMC Cancer 2013; 13: 159 11 Berg WA, Cosgrove DO, Doré CJ et al. Shear-wave elastography improves the specificity of breast US: the BE1 multinational study of 939 masses. Radiology 2012; 262: 435-449 12 Golatta M, Schweitzer-Martin M, Harcos A et al. Evaluation of virtual touch tissue imaging quantification, a new shear wave velocity imaging method, for breast lesion assessment by ultrasound. Biomed Res Int 2014; 2014: 960262 13 Falou O, Sadeghi-Naini A, Prematilake S et al. Evaluation of neoadjuvant chemotherapy response in women with locally advanced breast cancer using ultrasound elastography. Transl Oncol 2013; 6: 17-24 14 Watermann DO, Földi M, Hanjalic-Beck A et al. Three-dimensional ultrasound for the assessment of breast lesions. Ultrasound Obstet Gynecol 2005; 25: 592-598 15 Kotsianos D, Wirth S, Fischer T et al. [3D ultrasound (3D US) in the diagnosis of focal breast lesions.]. Radiologe 2005; 45: 237-244 16 Lell M, Wenkel E, Aichinger U et al. [3D ultrasound in core breast biopsy.]. Ultraschall Med 2004; 25: 126-130 17 Madjar H, Vetter M, Prömpeler HJ et al. [The normal vascularization of the female breast in Doppler ultrasound.]. Ultraschall Med 1992; 13: 171-177 18 Madjar H, Sauerbrei W, Prömpeler HJ et al. Color Doppler and duplex flow analysis for classification of breast lesions. Gynecol Oncol 1997; 64: 392-403 19 Madjar H, Prömpeler H, Wolfahrt R et al. [Color Doppler flow data of breast tumors.]. Ultraschall Med 1994; 15: 69-73 20 Madjar H, Sauerbrei W, Hansen L. Multivariate analysis of flow data in breast lesions and validation in a normal clinical setting. Ultraschall Med 2011; 32: 511-517 21 Hahn M, Krainick-Strobel U, Toellner T et al. Interdisciplinary consensus recommendations for the use of vacuum-assisted breast biopsy under sonographic guidance: first update 2012. Ultraschall Med 2012; 33: 366-371 22 Krainick-Strobel U, Huber B, Majer I et al. Complete extirpation of benign breast lesions with an ultrasound-guided vacuum biopsy system. Ultrasound Obstet Gynecol 2007; 29: 342-346 23 Olsha O, Shemesh D, Carmon M et al. Resection margins in ultrasound-guided breast-conserving surgery. Ann Surg Oncol 2011; 18: 447-452 24 Krekel NM, Haloua MH, Lopes Cardozo AM et al. Intraoperative ultrasound guidance for palpable breast cancer excision (COBALT trial): a multicentre, randomised controlled trial. Lancet Oncol 2013; 14: 48-54 25 Hahn M, Pavlista D, Danes J et al. Ultraschallgesteuerte Kryoablation von Fibroadenomen. Ultraschall Med 2013; 34: 64-68 26 Golatta M, Harcos A, Pavlista D et al. Ultrasound-guided cryoablation of breast fibroadenoma: a pilot trial. Arch Gynecol Obstet 2015; 291: 1355-1360 27 Wu F, Wang ZB, Cao YD et al. A randomised clinical trial of high-intensity focused ultrasound ablation for the treatment of patients with localised breast cancer. Br J Cancer 2003; 89: 2227-2233 28 Kovatcheva R, Guglielmina JN, Abehsera M et al. Ultrasound-guided high-intensity focused ultrasound treatment of breast fibroadenoma – a multicenter experience. J Ther Ultrasound 2015; 3: 1 29 Hill CR, ter Haar GR. Review article: high intensity focused ultrasound – potential for cancer treatment. Br J Radiol 1995; 68: 1296-1303
