![]() Cavanaugh, et al., New image processing technique for evaluating breast microcalcifications: a comparative study, J. López, et al., Breast calcifications: description and classification according to BI-RADS 5th Edition, Rev. Chopier, Standardized diagnosis and reporting of breast cancer, Diagn. An overlooked form of microcalcification associated with benign breast disease, Arch. Radi, Calcium oxalate crystals in breast biopsies. Correlations with histopathological diagnosis and radiological examination of operative specimens, Virchows. Lin, et al., Different types of microcalcifications observed in breast pathology. Bateman, Pre-operative localization of breast microcalcification using high-frequency ultrasound, Clin. Grabbe, Applications and literature review of the BI-RADS classification, Eur. Oshida, et al., Ultrasound demonstration of mammographically detected microcalcifications in patients with ductal carcinoma in situ of the breast, Breast Cancer, 12 (2005), 216–220. Shepherd, et al., New relationships between breast microcalcifications and cancer, Br. Bentley, et al., The detection of breast microcalcifications with medical ultrasound, J. Soerjomataram, et al., Global cancer statistics 2018: GLOBOCAN estimates of incidence and mortality worldwide for 36 cancers in 185 countries, CA. A review of ultrasound detection methods for breast microcalcification. Future developments of ultrasonic breast microcalcification detection are suggested.Ĭitation: Yali Ouyang, Zhuhuang Zhou, Weiwei Wu, Jin Tian, Feng Xu, Shuicai Wu, Po-Hsiang Tsui. The related principles and research status of these methods were introduced, and the characteristics and limitations of the various methods were discussed and analyzed. The reviewed methods were broadly divided into high-frequency B-mode ultrasound imaging techniques, B-mode ultrasound image processing techniques, ultrasound elastography techniques, time reversal techniques, high spatial frequency techniques, second-order ultrasound field imaging techniques, and photoacoustic imaging techniques. ![]() In this paper, a review of the literature on the ultrasonic detection methods of microcalcifications was conducted. Recent studies show that new ultrasound technologies improved the visualization of microcalcifications over conventional B-mode ultrasound imaging. ![]() However, due to factors such as limited spatial resolution and speckle noise, it is difficult to detect breast microcalcifications using conventional B-mode ultrasound imaging. Ultrasound imaging has been widely used in the detection and diagnosis of breast diseases because of its low cost, nonionizing radiation, and real-time capability. Breast microcalcifications are one of the important imaging features of early breast cancer and are a key to early breast cancer diagnosis.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |