ANALISIS VARIASI ARUS-WAKTU TABUNG (mAs) DAN ITERATIVE RECONSTRUCTION (IR) DENGAN PENGUKURAN MODULATION TRANSFER FUNCTION (MTF) PADA CITRA CT SCAN KEPALA

Authors

  • Ikhwan Zikri Jurusan Teknik Radiodiagnostik dan Radioterapi, Poltekkes Jakarta II
  • Muhammad Irsal Jurusan Teknik Radiodiagnostik dan Radioterapi, Poltekkes Kemenkes Jakarta II
  • Shinta Gunawati Sutoro Jurusan Teknik Radiodiagnostik dan Radioterapi, Poltekkes Jakarta II
  • Guntur Winarno Jurusan Teknik Radiodiagnostik dan Radioterapi, Poltekkes Jakarta II
  • Ikra Mullah Instalasi Radiologi, RSUD Tuanku Imam Bonjol
  • Dinda Akhridinata Instalasi Radiologi, RSUD Tuanku Imam Bonjol

DOI:

https://doi.org/10.22437/jop.v10i2.41433

Keywords:

Current-time tube (mAs), Iterative reconstruction (IR), Modulation transfer function (MTF), Brain CT imaging

Abstract

To optimize head CT examination protocols, tube current-time (mAs) variation and the use of iterative reconstruction (IR) are often combined to decrease radiation dose to patients, which may have an impact on image quality and radiation dose. Modulation transfer function (MTF) is an objective measurement to determine the spatial resolution of CT images, so it is expected to provide information on ideal optimization parameters considering radiation dose and image quality. The research method is quantitative descriptive type, data collection was carried out at one of the hospitals in Padang in the August-December period of 2024. Then CT imaging was performed using a head CT protocol that was exposed to the phantom daily CT QC with variations in tube-current of 200 mAs, 300 mAs and a combination of IR with iDose and without iDose. The analysis was performed on 10 pieces of head CT images which will then calculate the 50% MTF value using imageJ. After that, the results of the study will be carried out by making a graph of the average value and a comprehensive literature review is carried out to analyze the tube current-time variation with MTF measurements on head CT images. The results showed that the MTF values of the time-current tube and IR variations tended to have the same pattern for all, so that in this study it can be said that variations in tube current-time (mAs) and iterative reconstruction (IR) cannot affect MTF.

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References

Adi, E. P., Sholeh, A. S., Ardenti, D. D., & Pratiwi, U. (2024). Pengaruh Penambahan Media Kontras Terhadap Kualitas Citra CT Scan Kepala Pada Pasien Tumor Otak. Jurnal Ilmu Fisika Dan Terapannya, 11(2), 24–32. https://journal.student.uny.ac.id/fisika/article/view/21973

Brüllmann, D. D., & D’Hoedt, B. (2011, May). The modulation transfer function and signal-to-noise ratio of different digital filters: a technical approach. Dento Maxillo Facial Radiology. https://doi.org/10.1259/dmfr/33029984

Fitriana, L., & Utami, H. S. (2021). Perbedaan Nilai Image Noise Dan Dosis Radiasi Dengan Menggunakan Automatic Exposure Control (Aec) Pada Pemeriksaan CT Scan. Jurnal Kesehatan, 12(2), 131–136. https://doi.org/10.38165/JK.V12I2.259

Friedman, S. N., Fung, G. S. K., Siewerdsen, J. H., & Tsui, B. M. W. (2013, May). A simple approach to measure computed tomography (CT) modulation transfer function (MTF) and noise-power spectrum (NPS) using the American College of Radiology (ACR) accreditation phantom. Medical Physics. https://doi.org/10.1118/1.4800795

Hikmah, I., Indah Purnama, S., Prayugo Hariyanto, A., & Nur Afifah Zen, dan. (2023). Optimasi Dosis Mata dan Kualitas Citra Menggunakan Shielding pada Pencitraan CT-Scan Kepala. Jurnal Teori Dan Aplikasi Fisika, 11(01), 73–80. https://jtaf.fmipa.unila.ac.id/index.php/jtaf/article/view/332

Ilyas Ma’aruf Hamam, Asih Puji Utami, & Sofie Nornalita Dewi. (2021). Teknik Pemeriksaan CT-Scan Kepala Studi Literatur Stroke Hemorrhagic. http://digilib.unisayogya.ac.id/

Irsal, M., Irsal, M., & Winarno, G. (2020). Pengaruh Parameter Milliampere-Second (mAs) terhadap Kualitas Citra Dan Dosis Radiasi Pada Pemeriksaan CT scan Kepala Pediatrik. Jurnal Fisika Flux: Jurnal Ilmiah Fisika FMIPA Universitas Lambung Mangkurat, 17(1), 1–8. https://doi.org/10.20527/flux.v17i1.7085

Irsal, M., Nurbaiti, N., Mukhtar, A. N., Gunawati, S., & Hidayat, W. (2021). Effect of Tube Voltage on the Use of Iterative Reconstruction on Computed Tomography Brain Examination. Jurnal Teori Dan Aplikasi Fisika, 09(01), 103–110. https://jtaf.fmipa.unila.ac.id/index.php/jtaf/article/view/277

Mutiara Fatimah Azhara, Syamsir Dewang, Sri Dewi Astuty, Ulfah Rosyidah, & Bannu Abdul Samad. (2023). Analisis Modulation Transfer Function (MTF) Dan Contras-To-Noise Ratio (CNR) Untuk Optimasi Kualitas Citra CT Scan. Berkala Fisika, 26(1), 1–7. https://ejournal.undip.ac.id/index.php/berkala_fisika/article/view/54919/23777

Novita T. A. Parinding, Ramli Haji Ali, & Vonny N. Tubagu. (2015). Gambaran Hasil Pemeriksaan CT Scan Kepala Pada Penderita Stroke Hemoragik Di Bagian Radiologi Fk. Unsrat/SMF Radiologi BLU RSUP Prof. Dr. R. D. Kandou Manado. Jurnal E-Clinic (ECl), 3(1), 93–97. https://ejournal.unsrat.ac.id/v3/index.php/eclinic/article/view/6746/6270

Rozanah, Wahyu Setia Budi, & Zaenal Arifin. (2015). Perbandingan Kualitas Citra CT Scan Pada Protokol Dosis Tinggi dan Dosis Rendah Untuk Pemeriksaan Kepala Pasien Dewasa dan Anak. Youngster Physics Journal, 4(1), 117–126. https://doi.org/10.2/JQUERY.MIN.JS

Setiawan, A. M. B., Anam, C., Hidayanto, E., Sutanto, H., Naufal, A., & Dougherty, G. (2023). Comparison of noise-power spectrum and modulation-transfer function for CT images reconstructed with iterative and deep learning image reconstructions: An initial experience study. Polish Journal of Medical Physics and Engineering, 29(2), 104–112. https://doi.org/10.2478/pjmpe-2023-0012

Sulaksono, N., & Kurniawati, A. (2023). Optimalisasi Kualitas Citra Anatomi Dengan Variasi iDose Dan Interative Model Recontruction (IMR) Pada MSCT Urography Non Kontras Dengan Teknik Tracking. JRI (Jurnal Radiografer Indonesia), 6(1), 51–55. https://doi.org/10.55451/JRI.V6I1.176

Suyudi, I., Anam, C., Sutanto, H., Triadyaksa, P., & Fujibuchi, T. (2020). Comparisons of Hounsfield Unit Linearity between Images Reconstructed using an Adaptive Iterative Dose Reduction (AIDR) and a Filter Back-Projection (FBP) Techniques. Journal of Biomedical Physics and Engineering. https://doi.org/10.31661/jbpe.v0i0.1912-1013

Wang, Y., & Li, B. (2015). Evaluation of Modulation Transfer Function on the optical tomography imaging system. https://doi.org/10.1109/CISP.2015.7407971

Wulandari, B. S., Anam, C., Sutanto, H., Amilia, R., & Lakapu, Y. (2024). The Evaluation of the Tube Current Impact on Axial , Sagittal , and Coronal MTFs on CT Images Using an In-House Phantom. November. https://doi.org/10.32628/IJSRST24116185

Yahdillah Nur, Herri Trilaksana, & Akhmad Muzammil. (2021). Analisis Pengukuran Kualitas Citra CT-Scan Dengan Menentukan Nilai Resolusi Spasial Menggunakan MTF (Modulation Transfer Function). [Fisika, Universitas Brawijaya]. http://www.lib.unair.ac.id

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Published

2025-04-14

How to Cite

Ikhwan Zikri, Irsal, M., Shinta Gunawati Sutoro, Guntur Winarno, Ikra Mullah, & Dinda Akhridinata. (2025). ANALISIS VARIASI ARUS-WAKTU TABUNG (mAs) DAN ITERATIVE RECONSTRUCTION (IR) DENGAN PENGUKURAN MODULATION TRANSFER FUNCTION (MTF) PADA CITRA CT SCAN KEPALA. JOURNAL ONLINE OF PHYSICS, 10(2), 38–43. https://doi.org/10.22437/jop.v10i2.41433

Issue

Vol. 10 No. 2 (2025): JOP (Journal Online of Physics) Vol 10 No 2

Section

Fisika Nuklir dan Biofisika

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Copyright (c) 2025 Ikhwan Zikri, Muhammad Irsal, Shinta Gunawati Sutoro, Guntur Winarno, Ikra Mullah, Dinda Akhridinata

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This work is licensed under a Creative Commons Attribution 4.0 International License.