Effects of Health Informations System “Dosing Gama” on Time Efficiency in Dosage Adjustment Evaluation
Abstract
Indonesian Ministry of Health shows an increase in patients with impaired kidney and liver function by 10-50% since 2007. The increase is a challenge for pharmacists in conducting pharmaceutical care, which is that dose adjustment for these patients takes a long time. Dosing GAMA, an application that has been developed in 2018, is expected to overcome these obstacles. This study aims to identify the use of the Dosing GAMA application to assist pharmacists in making dose adjustments evaluation more efficient and to assess pharmacist's acceptance of the application. This study was a quasi-experimental study using post-test with control group design. Respondents were recruited by selecting pharmacists according to the inclusion criterion. The control group consisted of 26 pharmacists who made dose adjustments manually, and the intervention group consisted of 26 pharmacists who made dose adjustments using the Dosing GAMA application. Data were obtained by measuring the time required by the pharmacist to make dose adjustments. The intervention group was then asked to complete a perceived acceptance questionnaire. The study indicated that Dosing GAMA could reduce the time needed for dose adjustment evaluation (p<0.05). An average time spent by pharmacists with Dosing GAMA was shorter than that spent by those who made dose adjustments manually without application (13.81±0.78 min vs. 27.5±1.23 min). Overall, the pharmacists have high perceived acceptance of the application. The study results can be used as the basis for developing the application. Furthermore, it is expected that the Dosing GAMA can improve pharmacists’ performance in providing effective pharmaceutical care.
References
Ammenwerth, E., Kaiser, F., Wilhelmy, I., and Höfer, S. 2003. Evaluation of user acceptance of information systems in health care - The value of questionnaires. Studies in Health Technology and Informatics. 95(5): 643–648. doi: 10.3233/978-1-60750-939-4-643
Aymanns, C., Keller, F., Maus, S., and Hartmann, B. 2010. Review on Pharmacokinetics and Pharmacodynamics and the Aging Kidney. 5(22): 314–327. doi: 10.2215/CJN.03960609
Bandameedi, R. 2016. Clinical Pharmacology. International Journal of Clinical Pharmacology and Biopharmacy, 5(1):1–7. doi:10.4172/2167-065X.1000153
Chertow, G., Lee, J., Kuperman, G., Burdick, E., Horsky, J., Seger, D.,Bates, D. 2015. Guided Medication Dosing for Inpatients With Renal Insufficiency. Journal of American Medical Association. 286(22): 2839–2844.
Delco, F., Tchambaz, L., Schlienger, R., Drewe, J., and Krahenbuhl, S. 2005. Dose Adjustment in Patients with Liver Disease. Journal of Drug Safety. 28(6): 529–545.
Dolovich, L., Austin, Z., Waite, N., Chang, F., Farrell, B., Grindrod, K., Sproule, B. 2019. Pharmacy in the 21st century: Enhancing the impact of the profession of pharmacy on people’s lives in the context of health care trends,evidence and policies. Canadian Pharmacists Journal. 152(1): 45–53. doi: 10.1177/1715163518815717
Durodolu, O. 2016. Technology Acceptance Model as a predictor of using information system’ to acquire information literacy skills. Library Philosophy and Practice. 2016(1): 5–9.
Elnaem, M., and Jamshed, S. 2017. Mobile Applications in Clinical Practice: What is Needed in The Pharmacy Scenario. Archives of Pharmacy Practice. 8(1): 3. doi: 10.4103/2045-080x.199619
Fitzgerald, J. 2018. Pharmacy and the Evolution of a Family-Friendly Occupation. Retrieved from National Bureau of Economic Research website: https://www.nber.org/digest/feb13/w18410.html
Foord, A. G., and Gulland, W. G. 2006. Can technology eliminate human error? Process Safety and Environmental Protection. 84(3): 171–173. doi: 10.1205/psep.05208
Ghibelli, S., Marengoni, A., Djade, C., Npnbili, A., Tettamanti, M., Frachi, C., Giovarriscio, F. 2013. Prevention of Inappropriate Prescribing in Hospitalized Older Patients Using a Computerized Prescription Support System. Springer Journal. 30(1): 821–828. doi: 0.1007/s40266-013-0109-5.
Gunarsih, V. 2020. The Validity Test of Drug Dose Adjustment of Dosing Gama Application in Hospitalized Patients with Renal Impairment. Thesis. Universitas Gadjah Mada.
Indonesia's Ministry of Health. 2009. Age Classification According to Category. Directorate General of Health Services, Jakarta.
Indonesia's Ministry of Health. 2017a. Chronic Kidney Disease Situation. Data and information Center Indonesia's Ministry of Health. 1–2.
Indonesia's Ministry of Health. 2017b. Situation of Hepatitis B. Data and Information Center Indonesia's Ministry of Health. 1–6.
Indonesia's Ministry of Health. 2014. Regulation of the Indonesia's Ministry of Health concerning Standards for Pharmaceutical Services in Hospitals. 23.
Jayawardena, D., and Ratnayake, U. I. 2018. Computer Literacy Among Health care Workers in District Base Hospitals in Kalutara District : A Cross Sectional Descriptive study. Journal of the Thai Medical Informatics Association. 2(7): 97–104.
Kim, H., & Kankanhalli, A. 2015. Investigating User Resistance Implementation : A Status Quo Bias Systems Introduction. MIS Quarterly. 33(3): 567–582.
Lapão, L. V., Mira, M., and Gregório, J. 2017. Implementing an online pharmaceutical service using design science research. 1–14. doi: 10.1186/s12911-017-0428-2
Lemeshow, S., Hosmer, D., Klar, J., and Lwanga, S. 1997. Adequacy of Sample Size in Health Studies, World Health Organization. 54–55.
Maclure, K., and Stewart, D. 2016. Digital literacy Knowledge and Needs of Pharmacy Staff: A Systematic Review. Journal of Innovation in Health Informatics. 23(3): 560–571. doi: 10.14236/jhi.v23i3.840
Masrofin, F. 2019. Usability Testing of Haze Trajectory Pattern Mining Web Application Using Thinking Aloud Method and PSSUQ. Bogor Agricultural.
Mpila, D. A., Rahmawati, F., and Andayani, T. M. 2016. Evaluation of Pharmacy Support System to Identify the Drug Related Problems on Cardiovascular Patient. Journal of Management Pharmacy Practice, 6(1), 19–26.
Quant, C., Altieri, L., Torres, J., and Craft, N. 2016. The Self-Perception and Usage of Medical Apps Amongst Medical Students in the United States: A cross-sectional survey. International Journal of Telemedicine and Applications. 2016(1). doi: 10.1155/2016/3929741
Rahmawati, F., Djoko, W., Andayani, T. M., Ihsan, M., & Hakim, A. R. 2018. Patent No. 000127903. Yogyakarta: Ministry of Law and Human Rights Republic of Indonesia.
Rezaei, P., Tavakoli, N., and Ehteshami, A. 2013. The role of health information technology in reducing preventable medical errors and improving patient safety. International Journal of Health System and Disaster Management. 1(4): 195–199.
Riazi, H., Rashid-farokhi, F., Fahimi, F., and Emami, S. 2012. Assessment of Drug Dose Adjustment in Patients with Kidney Disease : Opportunities for Pharmacist Involvement. International Journal of Pharmacy and Pharmaceutical Sciences. 4(3): 178–181.
Tumkur, A., Muragundi, P., Shetty, R., and Naik, A. 2012. Pharmaceutical Care : Need of the Hour in India. Journal of Young Pharmacists. 4(4): 282–286. doi:10.4103/0975-1483.104374.
Yen, P. 2010. Definitions of Usability. In Health Information Technology Usability Evaluation: Methods, Models, and Measures. 210-217. Columbia University.
Copyright (c) 2020 Indonesian Journal of Pharmacy
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
