Skripsi D IV
PERANAN CONE BEAM BREAST CT (CBBCT) DALAM DETEKSI KANKER PAYUDARA
XMLBreast cancer is a malignancy in breast tissue that can originate from the ductal epithelium or its lobules. Breast cancer can be detected using several modalities, including mammography, Full Field Digital Mammography (FFDM) and Digital Breast Tomosynthesis (DBT), but the resulting image is still not optimal because it does not display an isotropic 3D image (Wienbeck et al., 2019). Cone-Beam Breast CT (CBCCT) is an alternative modality that displays 3D isotropic images of breast organs which is very necessary in the diagnosis of abnormalities in the breast, especially breast cancer. The purpose of this study was to analyze the role of CBBCT including parameters, sensitivity level and radiation dose produced in diagnosing breast cancer.
The type of descriptive research is using the literature review method. The results of the synthesis are carried out by collecting and analyzing the literature by selecting articles that are appropriate to the topic of the problem formulation. Sources of data in the study used came from Google Scholar, AJR, Medicine and Elsevier related to the keywords Cone Beam Breast CT (CBBCT), CBBCT sensitivity and breast cancer. Seven relevant articles were obtained to be used as literature sources according to the inclusion and exclusion criteria. Data analysis is carried out by making summaries, summaries of articles and research data to answer the problem formulation so that conclusions and suggestions can be drawn at the end of the study
The results of this study indicate that the sensitivity level of CBBCT in detecting breast cancer is 89% - 94.5%. The absence of a compression technique increases comfort and produces multiplanar and 3D visualizations that can serve to identify the margins and characteristics of the breast mass. Parameters using an X-ray tube voltage of 49 kVp, while the tube current value varies depending on the output of the automatic exposure control software, the use of CBBCT produces a small dose of 5.37 mGy. Contrast media is needed to optimize specificity to improve diagnostic accuracy in differentiating lesions.
Informasi Detail
Pernyataan Tanggungjawab |
ABDUL MUFID
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Pengarang |
ABDUL MUFID - Pengarang Utama
Rasyid - First Advisor Bagus Dwi Handoko - Second Advisor BAGUS ABIMANYU - First Examiner Siti Daryati - Second Examiner |
NIM |
P1337430221129
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Bahasa |
Indonesia
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Deskripsi Fisik |
14 + 72p.: 21 x 28cm.
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Dilihat sebanyak |
348
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Penerbit | DIV T. Radiodiagnostik dan Radioterapi Semarang : Semarang., 2022 |
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Edisi | |
Subjek | |
Klasifikasi |
NONE
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