Mammography is a medical imaging method specifically developed for imaging the breast using low-dose X-rays. The radiation dose received during tomosynthesis mammography is similar to that received during a standard digital mammography. Research indicates that tomosynthesis mammography can increase the detection rate of breast cancer by up to 35%, especially in dense breasts. Tomosynthesis images can be digitally recorded and archived. In young individuals with dense breast tissue, tomosynthesis enables early diagnosis by meticulously examining suspicious lesions with three-dimensional (3D) technology. While the pressure applied in traditional mammography can cause discomfort and pain, patients generally experience less pain during tomosynthesis imaging because the breast is compressed only enough to ensure optimal stabilization for the scan. After the procedure, tomosynthesis images are examined in detail in three dimensions (3D). The digital tomosynthesis mammography technique enhances patient comfort by overcoming some limitations encountered in traditional and digital mammographies. In traditional two-dimensional (2D) mammographies, overlapping tissues could make detailed imaging difficult, complicating the evaluation of masses. Tomosynthesis mammography technology, however, offers the possibility to image breast tissue in three dimensions (3D), significantly reducing the risk of tumors being overlooked.