Design Of Phantom Ultrasonography For Ultrasonography (USG) Calibration
DOI:
https://doi.org/10.59485/jtemp.v6i2.132Keywords:
USG Phantom, USG calibration, engine oil material, water material, Vertical Distance, Horizontal DistanceAbstract
This study aims to design and build an Ultrasonography (USG) Phantom as an ultrasound calibration medium with more affordable materials but still meets quality and precision standards. The USG Phantom is designed using two basic materials, namely distilled water and engine oil, to then compare its performance in producing ultrasonic images. The research method used is an experiment with the stages of tool design, phantom manufacturing, and functional testing using Vertical and Horizontal Distance parameters. Testing was carried out with a convex USG transducer at Roemani Muhammadiyah Hospital Semarang. The test results show that the engine oil-based phantom provides a clearer and more stable image compared to water. The results of vertical distance measurements show the smallest absolute error value of 0.01cm (0.1mm) on objects 1–2 with a relative error value of 0.3%, and the largest of 0.09cm (0.9mm) on objects 7–8 with a relative error value of 4.5%. Meanwhile, for horizontal distance, the smallest absolute error value was recorded at 0.14 cm (1.4 mm) on objects 1–2 with a relative error value of 6.8%, and the largest was 0.19 cm (1.9 mm) on objects 2–3 and 4–5 with a relative error value of 9.5%. All vertical and horizontal error values were still within the AAPM TG‑1 tolerance limits, which were ±2 mm or ±2% for vertical measurements and ±3 mm or ±3% for horizontal measurements. Thus, the engine oil phantom can be categorized as a suitable ultrasound calibration medium that is economical, effective, and meets international accuracy standards. This research is expected to be a practical solution for healthcare facilities to perform ultrasound calibration at a lower cost.
Downloads
References
Pardosi PJ, Primasyukra MA, Ulina S, Abdillah K. Analisa Pemeliharaan Preventif Alat Ultrasonograph (USG) Siemens Aquson-X300 di Rumah Sakit Universitas Sumatera Utara. J MUTIARA ELEKTROMEDIK [Internet]. 2024 Jun 26;8(1):29–36. Available from: http://e-journal.sari-mutiara.ac.id/index.php/Elektromedik/article/view/5300
Sehmbi H, Perlas A. Basics of Ultrasound Imaging. In: Regional Nerve Blocks in Anesthesia and Pain Therapy [Internet]. Cham: Springer International Publishing; 2015. p. 27–56. Available from: https://link.springer.com/10.1007/978-3-319-05131-4_3
Dabukke H, Sijabat S, Harefa AJ, Putri MA. Sosialisasi Pentingnya Kalibrasi Peralatan Kesehatan Di Pelayanan Kesehatan. J Abdimas [Internet]. 2024;5(2):242–7. Available from: https://e-journal.sari-mutiara.ac.id/index.php/JAM/article/view/5207
Culjat MO, Goldenberg D, Tewari P, Singh RS. A Review of Tissue Substitutes for Ultrasound Imaging. Ultrasound Med Biol [Internet]. 2010 Jun;36(6):861–73. Available from: https://linkinghub.elsevier.com/retrieve/pii/S030156291000075X
Amini R, Akbar F, Azwar E. Studi Kualitatif Sistem Manajemen Logistik Alkes di Puskesmas Blang Kuta Kabupaten Pidie Jaya Tahun 2022. J Heal Med Sci [Internet]. 2022;1(2):177–88. Available from: https://pusdikra-publishing.com/index.php/jkes/article/view/821
Giannotti E, Jethwa K, Closs S, Sun R, Bhatti H, James J, et al. Promoting simulation-based training in radiology: a homemade phantom for the practice of ultrasound-guided procedures. Br J Radiol [Internet]. 2022 Sep 1;95(1137). Available from: https://academic.oup.com/bjr/article/7451403
Jawli A, Aldehani W, Nabi G, Huang Z. Tissue-Mimicking Material Fabrication and Properties for Multiparametric Ultrasound Phantoms: A Systematic Review [Internet]. Vol. 11, Bioengineering. Multidisciplinary Digital Publishing Institute (MDPI); 2024. p. 620. Available from: https://www.mdpi.com/2306-5354/11/6/620
McGarry CK, Grattan LJ, Ivory AM, Leek F, Liney GP, Liu Y, et al. Tissue Mimicking Materials for Imaging and Therapy Phantoms: A Review [Internet]. Vol. 65, Physics in Medicine and Biology. IOP Publishing Ltd; 2020. Available from: https://iopscience.iop.org/article/10.1088/1361-6560/abbd17
Oglat A, Matjafri M, Suardi N, Oqlat M, Abdelrahman M, Oqlat A, et al. Chemical Items Used for Preparing Tissue-Mimicking Material of Wall-Less Flow Phantom for Doppler Ultrasound Imaging. J Med Ultrasound [Internet]. 2018;26(3):123. Available from: https://journals.lww.com/10.4103/JMU.JMU_13_17
Goodsitt MM, Carson PL, Witt S, Hykes DL, Kofler JM. Real‐time B ‐mode ultrasound quality control test procedures. Report of AAPM Ultrasound Task Group No. 1. Med Phys [Internet]. 1998 Aug 23;25(8):1385–406. Available from: https://aapm.onlinelibrary.wiley.com/doi/10.1118/1.598404
Kementrian Kesehatan Republik Indonesia. Metode Kerja Pengujian dan Kalibrasi Alat Kesehatan. Vol. I. 2018.
Ratar VI, Trihandaru SS, Maslebu G. Analisis Resolusi Spasial Citra Ultrasonografi (USG) Pada Arah Tangensial Radias Citra Menggunakan Phantom Berbasis Silicon Rubber. J Fis dan Apl [Internet]. 2020 Feb 27;16(1):1. Available from: http://iptek.its.ac.id/index.php/jfa/article/view/16%281%2901
Yunitri, N.; Janitra, F. E.; Kustanti, C. Y. .; Nur Aini; Tiara Octary; Melati Fajarini; Hidayat Arifin; Putri AR. . DMYS. Metode Penelitian Eksperimental. J Kesehat [Internet]. 2020;11(2):67–79. Available from: https://jurnal.stikesbethesda.ac.id/index.php/jurnalkesehatan/article/view/453
Pertamina Lubricants. Meditran S Series Product Data Sheet. 2022.
Pangestuti D, Maslebu G, Trihandaru S. Perancangan Pengukuran Akurasi Jarak Menggunakan Phantom Silicone Pada Kontrol Kualitas Ultrasonografi Dengan Teknik Komputasi. J Sains dan Edukasi Sains [Internet]. 2019 Feb 28;2(1):36–41. Available from: http://ejournal.uksw.edu/juses/article/view/1973
Ommen ML, Schou M, Beers C, Jensen JA, Larsen NB, Thomsen EV. 3D printed calibration micro-phantoms for super-resolution ultrasound imaging validation. Ultrasonics [Internet]. 2021 Jul;114:106353. Available from: https://linkinghub.elsevier.com/retrieve/pii/S0041624X21000019
Putri CFR, Maslebu G, Setiawan A. Analisis Densitas Larutan Berbasis Citra Phantom Agar Dalam Kendali Mutu USG. POSITRON [Internet]. 2021 Oct 15;11(1):26–30. Available from: https://jurnal.untan.ac.id/index.php/jpositron/article/view/44404
Fatimah S, Maslebu G, Trihandaru S. Analisis Homogenitas Citra Ultrasonografi Berbasis Silicone Rubber Phantom Dengan GLCM. J Fis [Internet]. 2018;8(1):18–27. Available from: https://journal.unnes.ac.id/nju/index.php/jf/article/view/14359
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2025 MEDIKA TRADA
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.