Kendali Mutu (Quality Control) Pada Computed Radiology (CR)
DOI:
https://doi.org/10.57213/caloryjournal.v1i3.41Keywords:
Computed Radiography, Quality Control, DiagnosisAbstract
Computed Radiography (CR) is a radiographic system that can convert analog signals into digital signals so that they are easily processed by image processing , to deal with the inconsistency of image quality from errors in lighting . One of the problems in CR is that the radiograph results are less than the maximum and can inhibit or reduce the ability to diagnose. This study aims to determine how the quality control of CR. This type of research is carried out in literature ( library study) that is by reading literature that has to do with the research conducted, as well as from other sources relating to Quality Control Computed Radiography (CR) and draw conclusions based on existing data. Based on the available literature, it can be concluded that the quality control on Computed Radiography (CR) is different but it does not reduce in terms of improving the quality of Computed Radiography (CR) in producing quality radiographs and can establish diagnoses.
References
Ballinger, Philip W. dan Eugene D. Frank. 2003. Merrill’s Atlas of Radiographic Positions and Radiologic Prosedures, Tenth Edition, Volume Three. Saint Louis : Mosby.
Bushong, Steward C. 2001. Radiologic Science for Technologists, Physics, Biology and Protection. Saint Louis : Mosby.
Carlton, Richard R. dan Arlene M. Adler. 2001. Principles of Radiographic Imaging : An Art and Science. USA: Thomson Learning.
Keputusan Menteri Kesehatan Republik Indonesia No. 1250 Tahun 2009 Tentang Pedoman Kendali Mutu (Quality Control) Peralatan Radiodiagnostik
Korner, M., Weber, C. H., Wirth, S., Pfeifer, K. J., Reiser, M. F., & Treitl, M. (2007). Advances in Digital Radiography: Physical Principles and System Overview 1. Radiographics, 27(3), 675-686.
L. Richard. K. 2020. The Engineering Design Primer.CRC Press. Diakses 09 Mei 2020, dari Google Books.
Larasati. Tika. (2013). Mengenal Microsoft Excell 2010. (Online). Diakses 21 Febuari 2020.
LeBlanc, Laura. 2015. Quality Control in Radiography. (Online). http://qcinradiography.weebly.com/cr-uniformity. Diakses 09 Mei 2020
Martina. D, Susilo, Sunarno. (2015). Uji Kolimator Pada Pesawat Sinar-X Merk/ Type Mednif/Sf-100by Di Laboratorium Fisika Medik Menggunakan Unit RMI. Jurnal MIPA, 38(2), 121 – 126.
Ningtyas. D. R, Suryono. S, Susilo. (2016). Pengukuran Kualitas Citra Digital Computed Radiography Menggunakan Program Pengolah Citra. Jurnal Pendidikan Fisika Indonesia, 12(2), 161 – 168.
Nisa. Aulia Agustin. 2017. Jaminan Kualitas Sistem Computed Radiography Merk Fuji Di RSUD Pasar Minggu. Karya Tulis Ilmiah. Jakarta. Poltekkes Kemenkes Jakarta II.
Papp, Jeffrey. 2006. Quality Management in The Imaging Science, Thrid Edition. Saint Louis : Mosby.
Salvara, Aikaterini-Lampro N. Kordolaimi, Sofia D. Lyra, Maria E. (2012). Digital Radiographic System Quality Control Procedures. Recent Patents on Medical Imaging. 1(2), 51 – 54.
Samei, E., Seibert, J. A., Willis, C. E., Flynn, M. J., Mah, E., & Junck, K. L. (2001). Performance evaluation of computed radiography systems. Medical Physics, 28(3), 361-371.
Samei, E., & Flynn, M. J. (2003). An experimental comparison of detector performance for direct and indirect digital radiography systems. Medical physics, 30(4), 608-622.
Samei, E., Ranger, N. T., Dobbins III, J. T., & Chen, Y. (2006). Intercomparison of methods for image quality characterization. I. Modulation transfer functiona). Medical physics, 33(5), 1454-1465.
Sastra. Agustin. (2010). Komputer adalah alat yang dipakai untuk mengolah data menurut prosedur ang telah dirumuskan.
Yusnida. Arnefia Mei, Suryono. (2014). Uji Image Uniformity Perangkat Computed Radiography Dengan Metode Pengolahan Citra Digital. Youngster Physhics Journal. 251 – 256.