Website-Based Teleradiology Information Systems at Disaster Locations
Corresponding Author(s) : Desi Indah Sulistiyo Rini
International Journal of Allied Medical Sciences and Clinical Research,
Vol. 8 No. 2 (2020): 2020 Volume 8- Issue -2
Abstract
Indonesia is a disaster-prone country, be it social, natural, and non-natural disasters. Disasters are usually associated with mass casualties, where health services are an important factor in preventing death, disability, and disease events. Therefore a special health information system in the event of a disaster is needed. One form of health information system is a teleradiology information system used for remote diagnostic imaging. The purpose of this study is the creation of a website-based teleradiology information system at the disaster location as an easy way to interpret radiological images. This type of research uses the Research and Development (R&D) approach of the Borg and Gall method. The sample in this study was 1 radiologist, 2 radiology admins, and 3 radiographers. Expert validation was carried out on the teleradiology information system website design and respondent validation was carried out on website quality and user satisfaction. The result of this research is the teleradiology information system website called "INRASTER" has fulfilled the three main components of teleradiology for disaster. On the results of statistics on the relationship between website quality and user satisfaction variables, the Sig. (2-tailed) < 0.05 which means there is a significant relationship between website quality and user satisfaction. This research concludes that the teleradiology information system website (INRASTER) can be used to facilitate the interpretation of radiological images so that this website can be used during disasters, especially in Indonesian regions.
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References
[2]. WMA, “WMA Statement on Medical Ethics in the Event of Disasters,” Available:
https://www.wma.net/policies-post/wma-statement-on-medical-ethics-in-the-event-of-disasters. 2017.
[3]. Kementerian Kesehatan, “Kepmenkes No.006/MENKES/SK/II tentang Pedoman Manajemen Sumber Daya Manusia (SDM) Kesehatan dalam Penanggulangan Bencana.” Sekretariat Negara, Jakarta. 2006.
[4]. N. H. Kistanto, “Sistem Sosial-Budaya di Indonesia,” Fak. Sastra Univ. Diponegoro. 2011, 1–16.
[5]. M. Ulfah, “Isu Kemajemukan (Pluralisme) Bangsa Indonesian Dalam Film (Tanda Tanya),” Interak. 1, 2008, 1–11. Doi: 10.1017/CBO9781107415324.004.
[6]. Kementerian Kesehatan, “Bencana Alam Yang Terjadi Akibat Faktor Geologi”. 2016.
[7]. Z. Zakaria, “Aplikasi Tektonik Lempeng,” Bull. Sci. Contrib. 5(2), 2007, 123–131.
[8]. R. Akbar, R. Darman, F. Marizka, J. Namora, and N. Ardewati, “Implementasi Business Intelligence Menentukan Daerah Rawan Gempa Bumi di Indonesia dengan Fitur Geolokasi,” J. Edukasi dan Penelit. Inform. 4(1), 2018, 30. Doi: 10.26418/jp.v4i1.25518.
[9]. D. A. Naja and D. Mardianto, “Analisis Kerentanan Fisik Permukiman di Kawasan Rawan Bencana Tsunami Wilayah Parangtritis, Yogyakarta,” J. Bumi Indones. 7, 2018.
[10]. Tim Kerja Kementerian Dalam Negeri, “Pedoman Umum Menghadapi Pandemi Covid-19, Bagi Pemerintah Daerah : Pencegahan, Pengendalian, Diagnosis dan Manajemen,” J. Chem. Inf. Model. 53(9), 2013, 1689–1699, Doi: 10.1017/CBO9781107415324.004.
[11]. N. Wolfson, “Orthopaedic triage during natural disasters and mass casualties : Do scoring systems matter ,” SICOT, 2013, 1439–1441. Doi: 10.1007/s00264-013-1997-z.
[12]. E. Smith, A. Morgans, J. Biggs, and R. Buchanan, “Managing health information during disasters : a survey of current specialised health information systems in Victorian hospitals”. 36(1), 2007.
[13]. A. R. Raeisi, A. Ehteshami, M. Kasai, and M. Yusofi, “Utilization assessment of radiology information system : Solution to patient safety improvement”. 2(1), 2014. Doi: 10.4103/2347-9019.135345.
[14]. J. H. Thrall, “Teleradiology Part I. History and Clinical Applications 1”. 243(3), 2007, 613–617.
[15]. M. Khodaie and A. Askari, “Evaluation of a Very Low-Cost and Simple Teleradiology Technique,” J Digit Imaging, 2015, 295–301. Doi: 10.1007/s10278-014-9756-2.[16]. E. A. Krupinski, “Teleradiology : current perspectives”. 5–14, 2014.
[17]. S. C. Orphanoudakis, E. Kaldoudi, and M. Tsiknakis, “Technological advances in teleradiology,” Eur. J. Radiol., 22, 1996, 205–217.
[18]. G. Llewellyn-jones, S. De Silva, and K. Beitat, “Teleradiology Services in Disaster Events – What does exist and what is required ,” Rem. Publ. LLC. 1(2), 2018, 1–4.
[19]. Mega Sarana Satelit, “Peran Komunikasi Satelit dalam Manajemen Bencan”. Available: http://www.mss.id/manajemen-bencana. 2020.
[20]. P. S. Hasugian, “Perancangan Website sebagai Media Promosi dan Informasi,” JIPN, 3(1), 2018, 82–86.
[21]. J. W. N. Jr, C. Meenan, and P. G. Nagy, “The Future of the Radiology Information System,” AJR. 2013, 1064–1070. Doi: 10.2214/AJR.12.10326.