Kiana Farhadyar , Reza Safdari ,
Volume 11, Issue 6 (3-2018)
Abstract
Background and Aim: Medication errors are preventable event, which may result inappropriate medication intake or damage to patients and, Medication management is a complicated process including multiple activities in order to improve patient safety. There are many documentations that indicate the considerable potential of information technology, especially mhealth in this area. The aim of this study was to review the mobile based medication management systems in order to extract the requirements for these systems development.
Materials and Methods: Four electronic databases (PubMed, Embase, Web of Science and Science Direct) were searched for papers regarding mhealth based medication management systems. After screening the abstracts and publications information a descriptive study was performed on 15 papers.
Results: In this study, 13 functional requirements were extracted and the user requirements was divided into six main groups. Also the technologies which was used in order to implement the functional requirements were extracted.
Conclusion: According to the current study, medication management systems using mhealth technologies are feasible for people with chronic diseases, elderly people and etc. but there is not any medication management system for visually impaired people. Although due to their disabilities they are at higher risk of medication errors and it is a research gap that should be considered in future works.
Mrs Fatemeh Rangraz Jeddi, Ehsan Nabovati, Shima Anvari Tafti, Parisa Yousefi Konjdar,
Volume 17, Issue 5 (12-2023)
Abstract
Background and Aim: A medication dashboard could provide executive directors and managers with the ability to manage medication resources in hospitals. This study aimed to design, implement, and evaluate a medication resources management dashboard for general hospitals.
Materials and Methods: This study was of the development-applied type conducted in an academic therapeutic community center. Based on scientific sources, the dashboard’s key performance indicators (KPIs) and functional requirements were identified. The data collection tool was a questionnaire comprising demographic information, KPIs, and functional requirements. The dashboard conceptual model was designed using Rational Rose software, and then POWER BI software was used to develop the system. The usability of the dashboard was evaluated using the standard questionnaire for End User Computing Satisfaction by 10 users. The data were analyzed in SPSS software using descriptive statistics.
Results: The most important KPIs determined for a medication resources management dashboard in general hospitals were “the ratio of antibiotic consumption to total number of drugs”, “the ratio of the antibiotic prescribed by general practitioners to total number of drugs”, “the ratio of patients for whom antibiotics were prescribed to all patients”, and “the ratio of the number of drug items prescribed by specialists to all physicians”. The most important functional requirements determined were “updating information at specific intervals “, “checking the dashboard at different time intervals”, “defining access levels to view the information”, and “choosing between graphical and tabular displays”. Usability evaluation showed that users’ satisfaction with the dashboard content variable was “very high” and for the other variables was at a “high” level.
Conclusion: The KPIs associated with antibiotics and drug costs within the medication dashboard of general hospitals are high priority. Future studies should evaluate the impact of using a medication dashboard on hospital executive directors’ and managers’ decision-making.
