Andrés Felipe Díaz, Maria Carolina Paola and Lilian Galvis Navarro Mercado
Mammary epithelial cell growth is increased and uncontrolled in breast cancer, which is a disease. A novel application of ultrasound based on the characteristics of elastic tissues emerged during recent research on new technologies with the aim of being more precise and conservative in the methods used for the diagnosis of breast cancer. The development and use of elastography in the breast has made it possible to characterise the elasticity of lesions detected by B-mode (basically nodules) and in some cases to raise or lower the degree of suspicion of lesions initially assessed by B-mode and colour Doppler, for breast cancer. This technology, known as elastography, greatly improves the accuracy of diagnosis. The development and use of elastography in the breast has made it possible to characterise the elasticity of lesions detected by B-mode (basically nodules), and in some cases to raise or lower the degree of suspicion of lesions initially assessed by B-mode and colour. This technology, known as elastography, greatly improves the accuracy of diagnosis. Given that breast cancer is a heterogeneous disease, Doppler research has demonstrated that elastic ultrasound can provide information on prognosis and response to neoadjuvant therapy The development and use of elastography in the breast has made it possible to characterise the elasticity of lesions detected by B-mode (basically nodules), and in some cases to raise or lower the degree of suspicion of lesions initially assessed by B-mode and colour. This technology, known as elastography, greatly improves the accuracy of diagnosis. Given that breast cancer is a heterogeneous disease, Doppler research has demonstrated that elastic ultrasound can provide information on prognosis and response to neoadjuvant therapy
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