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Journal articles on the topic 'Health information system development'

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Published: 10 December 2022
Last updated: 19 February 2023

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1

Kutto, Winnie. "Health Information System." Journal of Information and Technology 6, no. 1 (October 12, 2022): 97–105. http://dx.doi.org/10.53819/81018102t6033.

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The majority of low and middle-income countries (LMICs) have frequently implemented health information systems (HIS) in response to international pressure to account for health care investments. Health information can facilitate better planning and monitoring health services, which may lead to improved health outcomes, which is the concept behind robust and effective HIS. However, the use of health information systems (HIS) as accountability tools has frequently been criticized for being counterproductive because they give health information more significance to international organizations and national governments than to those in charge of local health services. This paper aims to examine how HIS influence the development of local accountability practices and their effects on health care delivery. The technology domain of HIS is combined with a theoretical perspective derived from structuration theory. A case study of HIS in Kenya is analyzed from this point of view. The findings have implications for the application of structuration theory to comprehending accountability and the significance of IT materiality in structuration processes. It contributes to a deeper comprehension of how HIS can foster enhanced human development and health care. It also contributes to the comprehension of IS as a means of socialization through which users can negotiate multiple accountability goals as well as a means of governing people's behavior. Keywords: Health, Information systems, Healthcare
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2

Young, Ronald C., and Peter Karungu. "The development of a health information system." Development Southern Africa 13, no. 6 (December 1996): 895–901. http://dx.doi.org/10.1080/03768359608439942.

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3

Weerakkody, Gamini, and Pradeep Ray. "CSCW-based System Development Methodology for Health-Care Information Systems." Telemedicine Journal and e-Health 9, no. 3 (September 2003): 273–82. http://dx.doi.org/10.1089/153056203322502669.

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4

Habib, Ahmad. "Development of Archives Management Information System with RFID and SMS Gateway." International Journal of Psychosocial Rehabilitation 24, no. 4 (February 28, 2020): 5227–43. http://dx.doi.org/10.37200/ijpr/v24i4/pr201621.

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5

Han, Sung Hyun, Young Moon Chae, Young Hahn Moon, Jaehoon Roh, Kyung Jong Lee, Myung Wha Cho, and Hae Young Min. "The development of industrial health information management system." Korean Journal of Occupational and Environmental Medicine 4, no. 2 (1992): 181. http://dx.doi.org/10.35371/kjoem.1992.4.2.181.

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6

Mock, Nancy, James Setzer, Ian Sliney, Gado Hadizatou, and William Bertrand. "Development of Information-Based Planning in Niger." International Journal of Technology Assessment in Health Care 9, no. 3 (1993): 360–68. http://dx.doi.org/10.1017/s0266462300004621.

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AbstractThe authors present their experiences in assisting the government of Niger to develop automated information systems for health care management. They discuss the structure of the health system, the role of donor assistance, the process of initiating automated systems, and the technical requirements and costs of the system. Finally, they draw general conclusions that may be useful for those attempting similar efforts.
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7

Luic, Ljerka, and Dubravka Striber-Devaja. "The significance of information standards for development of integrated health information system." Archive of Oncology 14, no. 1-2 (2006): 64–66. http://dx.doi.org/10.2298/aoo0602064l.

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Information systems play a significant role in helping to improve health outcomes and decision-making at the point of care, as well as in the planning and funding of care. There is no doubt that new technologies, especially information and communication technologies, could dramatically contribute to achieve better results in our activities in general. The healthcare sector, one of the largest sectors of society accounting, is very complex with many different application requirements. There are also a number of different types of actors that need to communicate for various healthcare purposes (patients/citizens, healthcare professionals and organizations providing health care cervices, payment bodies, pharmaceutical industry, the national governments). Standardization is the first and the most important step in building an Integral Healthcare Information System. However, standardization has been recognized in most of the countries as an important tool to achieve some of the general goals in healthcare systems. The relationship between the participants locally, regionally and nationally requires that information is shared for planning, funding and treatment purposes. Health information standards are instrumental for the operation of healthcare organizations, the planning and management of the health sector, for electronic business transactions and the development of a national system of electronic health records as well. It is necessary to make relevant decisions on adoption of specific health information standards, to adjust them to local conditions as necessary, define in sufficient details methods the manner of their introduction and implementation. The successful implementation of each National Health Information Systems Strategy is heavily dependent upon the implementation of information standards.
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8

Tsai, Flora S. "Mobile E-Health Information System." International Journal of Handheld Computing Research 2, no. 4 (October 2011): 1–28. http://dx.doi.org/10.4018/jhcr.2011100101.

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A mobile e-Health information system (MEHIS) aims to speed up the operations of health care in medical centers and hospitals. However, the proper implementation of MEHIS involves integrating many subsystems for MEHIS to be properly executed. A typical MEHIS can consist of many components and subsystems, such as appointments and scheduling; admission, discharge, and transfer (ADT); prescription order entry; dietary planning; and smart card sign-on. This paper describes the development of a MEHIS with open-source Eclipse, using currently available health care standards. The author discusses the issues of building a mobile e-Health information system which can help achieve the goal of ubiquitous and mobile applications for the personalization of e-Health.
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9

Xing, Li, Wang Pin, and Lin Yi. "Research and Development on Health Care Information Service System." Advance Journal of Food Science and Technology 5, no. 11 (November 5, 2013): 1510–13. http://dx.doi.org/10.19026/ajfst.5.3376.

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10

Dalbokova, D., M. Krzyzanowski, A. Galan, M. Jantunen, D. Jarosinska, R. Kim, S. Medina, A. Paldy, and B. Staatsen. "Development of Environment and Health Information System in Europe." Epidemiology 17, Suppl (November 2006): S448. http://dx.doi.org/10.1097/00001648-200611001-01201.

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11

Hirsch, Erwin F., and Kirsten Levy. "Trauma system development in Armenia." Journal of Medical Systems 20, no. 2 (April 1996): 77–84. http://dx.doi.org/10.1007/bf02260892.

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12

Huang, Guojian, Dong Hui Wang, Xin Hua Wang, and Zhen Yu He. "Software System Development of Crane Structural Health Monitoring." Advanced Materials Research 774-776 (September 2013): 1599–603. http://dx.doi.org/10.4028/www.scientific.net/amr.774-776.1599.

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In order to improve the level of safety technology and safeguard work efficiency, software is developed. The software is divided into several functional modules: User information Management Module, System Settings Module, Information Collection and Transmission Module, Database Management Module, Data Analysis Module, Site Display Module and User Help Module. This paper focuses on the development and application of the system software. Sensors data is collecting by a FBG System, and directly send into Crane Structure Health Monitoring and Security Alarm Expert System via data filtering and data correction procedures. Users can access the expert systems data network and expert system can send warning or alarm information to user via Wi-Fi. Its the main part of the software platform. After software functional use cases,the next thing to do is the dynamic behavior of software modeling. The dynamic behavior is related to information exchange between users and software, software and peripherals.
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13

Dzulkifli, A. R., A. L. Aishah, H. S. Ch'ng, A. Rose, A. Rahmat, A. M. Mohd. ISA, B. Mohd. BAIDI, H. Abas, A. M. Abu Bakar, and H. Samsinah. "Development of a health information service using a videotex system." Journal of Audiovisual Media in Medicine 17, no. 3 (January 1994): 117–20. http://dx.doi.org/10.3109/17453059409063071.

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14

Ha, Eun Hee, Yun Chul Hong, Young Man Rho, Cheol Hwan Kim, Kyung Ja June, Haeng Lee, Hye Sook Park, Mi Ran Yang, Heui Sug Jo, and Jae Bum Shim. "Development of Occupation Health Information System based on the Internet." Journal of Korean Society of Medical Informatics 3, no. 2 (1997): 161. http://dx.doi.org/10.4258/jksmi.1997.3.2.161.

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15

Chung, Young Chul, and Hyeoun Ae Park. "Development of a Health Information Evaluation System On the Internet." Journal of Korean Society of Medical Informatics 6, no. 1 (2000): 53. http://dx.doi.org/10.4258/jksmi.2000.6.1.53.

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16

Park, Hyeoun Ae, Hyo Sook Oh, Hoo Jung Kim, Young Sook Park, Tae Min Song, and Young Chul Chung. "Development of a Web-Based Women's Health Information Service System." Journal of Korean Society of Medical Informatics 7, no. 3 (2001): 47. http://dx.doi.org/10.4258/jksmi.2001.7.3.47.

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17

Uchimura, Yuji, and Hideo Fujita. "Development of Medical and Health Information System using Mobile Devices." IEEJ Transactions on Sensors and Micromachines 132, no. 11 (2012): 381–86. http://dx.doi.org/10.1541/ieejsmas.132.381.

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18

Bargenquast, Julie. "A Community Health Information Model: The Basis of a Partnership in Information System Development." Australian Journal of Primary Health 3, no. 1 (1997): 76. http://dx.doi.org/10.1071/py97009.

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The Community Health Information Development (CHID) Project, a project for NSW Health, was initiated in August 1994. The goal of CHID was to assess the feasibility of an information system for this sector of the NSW health system which could answer questions on the business functions, performance measurement, service planning and service quality of community health. An organisational structure and process were developed by October 1994. That organisational structure and process were utilised for the assessment of the community health environment to determine the feasibility of, and requirements for, a community health information system. A brief overview of the four interrelated Working Parties' findings: Service Domains; Common Data Set; Information Management; and, Information Technology is provided. The key concepts in the Community Health Information Model (CHIM), a deliverable of the Information Management Strategy, is then outlined. This model, built through extensive consultation with community health workers, is accompanied by a dictionary which outlines each community health entity and attribute. The Community Health Information Model has 230 entities, approximately 485 attributes and 357 relationships between those entities and attributes and provides a common language for communication within community health. An overview of the Community Health Function Model, a companion model for the CHIM, is then provided. A Function Model describes the processes which generate the entities and attributes in an Information Model. The Function Model is also used to inform the scope of information system development, the next phase of this project. Following completion of the assessment phase in November 1994, a Business Case for the development of an information system for community health was accepted by the executive of NSW Health (the NSW health department). The paper outlines briefly, progress on the development of the information system and the proposed timeline for implementation.
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19

Na, Na, Yong Lin Liu, and Hong Ma. "Development and Application of the Health Law Enforcement Information System Based on Information Technology." Advanced Materials Research 709 (June 2013): 458–61. http://dx.doi.org/10.4028/www.scientific.net/amr.709.458.

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Objective: This study aims to explore and establish a set of information system for health law enforcement and management using information engineering technology, and apply the system into both administration and law enforcement managements in health inspection agencies in Qingdao. Methods: Using information engineering technology to establish a set of information platforms for health law enforcement and administration management, then combine the data resources from all the national, provincial and municipal information platforms and develop a set of data analysis and Early warning mechanisms. Results: The municipal information platform was established and put into use successfully in Qingdao health inspection bureau. Conclusion: The application of the information system improved work efficiency greatly, reduce administrative cost, and helps the authorities to comprehensive grasp of the health law enforcement situation, scientifically assess, early warn, timely and effectively intervene and correct the health law enforcement works in the health inspection agencies.
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20

Khozaimi, Ach, Yudha Dwi Putra Negara, and Ali Syakur. "Web-Based Urban Village Information System Development." E3S Web of Conferences 328 (2021): 04031. http://dx.doi.org/10.1051/e3sconf/202132804031.

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The development of increasingly advanced and adequate technology so that information can be accessed quickly, precisely, up-to-date, and accurately has prompted the creation of a system that makes it easier for us to retrieve information anywhere and anytime. One area that is developing is population. So that population data can be recorded properly, it requires good data management or administration. Administrative implementation is still carried out in a traditional manner so that various obstacles arise. Therefore, it is necessary to develop an integrated system for population administration. The stages to develop the Urban Village Data Information System are the data collection stage, the application development stage, and the application testing stage. The design of information systems uses the Waterfall method. The Waterfall method takes a systematic and sequential approach. An Information System has been developed that has been used to assist Urban Village Officers to manage village data. The village information system has the convenience of running it. The Village Information System is easy to use and understand. The Urban Village information system is very helpful for the community, it is also fast and stable.
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21

Coward, P. M. "From Nursing Information Systems to Patient Information Systems." Methods of Information in Medicine 33, no. 03 (1994): 302–3. http://dx.doi.org/10.1055/s-0038-1635021.

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Abstract:Clinical information systems, developed for specific disciplines, reinforce the fragmentation of patient care and fail to support integrated, patient centered approaches. Fundamental restructuring of systems development is required to prepare the health care system and the practice of nursing for the future.
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22

Juanes, Juan A., Pablo Ruisoto, Francisco J. Cabrero, and Alberto Prats-Galino. "An Update on Health Information Technology." Journal of Information Technology Research 7, no. 2 (April 2014): 63–74. http://dx.doi.org/10.4018/jitr.2014040106.

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This study reviews the latest innovations in medical informatics based on digital and technological applications. In particular, we focus on the contributions developed by VisualMed System (Medical Visualization Systems) Group. Applications are presented in four categories: first, development of digital anatomical viewers; second, development of augmented reality applications; third, development of simulator applications; and finally, examples of developed applications for portable devices such as smartphones and tablets are also presented. Every applications share multiple interactivity features and rich visual medical content. Finally, implications for teaching and learning in health sciences are discussed. In particular, the key role of these applications in order to enhance autonomous learning and to visually support traditional teaching methods.
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23

Farzanfar, Ramesh, Allison Stevens, Louis Vachon, Robert Friedman, and Steven E. Locke. "Design and Development of a Mental Health Assessment and Intervention System." Journal of Medical Systems 31, no. 1 (December 19, 2006): 49–62. http://dx.doi.org/10.1007/s10916-006-9042-z.

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24

Утюганова, В., V. Utyuganova, В. Сердюк, and V. Serdyuk. "Development of Principles for System Approach to Information Support of Occupational Health and Safety Management." Safety in Technosphere 7, no. 5 (November 19, 2019): 19–27. http://dx.doi.org/10.12737/article_5d8b1cca397662.54195847.

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The urgency analysis of development and implementation of effective information support for occupational health and safety management at the enterprise has been performed. Application of system approach to occupational health and safety management information support has been justified. Definition for information support of an occupational health and safety management system is offered. The main directions for development of system for occupational health and safety management information support have been defined, and principles for system approach to development of information systems have been revealed. Principles for system approach to occupational health and safety management information support based on synthesis of requirements to development of occupational health and safety management systems, systems of information support, systems of enterprise management have been developed. The suggested approach to development of occupational health and safety management information support has a practical significance for occupational health and safety management system integration into organization management system.
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25

Brahma Fahrezi, Rendi. "Web-Based Melviana Health Clinic Information System." Journal of Business, Social and Technology (Bustechno) 1, no. 1 (January 25, 2020): 44–63. http://dx.doi.org/10.46799/jbt.v1i1.28.

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In today's globalization era, nscience and technology are developing very rapidly, especially information technology. Human need for everything is required to be more efficient, for example it is very clear from the development of information technology, the work that originally still uses a lot of manual systems at this time has begun to decrease, because it began to practice to a computerized system. Because with a computerized process any work will be easier to do. In the process of developing data and information needs that are growing longer, has encouraged better handling of data and information so that each element can be implemented optimally the author to get information relevant to the topic and problems that will or are being researched. The information can be obtained from scientific books, research reports, yearbooks and written sources both printed and electronic.
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26

Grishman, Melanie H. "Development of a Computer Information Management System." Social Work in Health Care 22, no. 2 (March 1996): 73–86. http://dx.doi.org/10.1300/j010v22n02_05.

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27

Chechenin, Gennady I., and Natalya M. Zhilina. "System experience in the development and operation of information technologies in healthcare." HEALTH CARE OF THE RUSSIAN FEDERATION 65, no. 2 (May 11, 2021): 105–10. http://dx.doi.org/10.47470/0044-197x-2021-65-2-105-110.

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Introduction. Positive long-term system experience of development and functioning of information technologies in health care should find application in modern information systems. The purpose of the study is to justify the principles of improving the efficiency of the use and creation of information resources in health and medicine based on previous experience. Methods. The system approach’s methodology combines the methods of system, graphical and statistical analysis used in the study, methods of expert assessments, empirical modeling, epidemiological, socio-hygienic, and other methods. Identifying the main problems of Informatization, evaluating and analyzing approaches to creating information systems, including interdepartmental ones, are solved. Results. The main problems of informatization of the current stage are identified. The principles of increasing the efficiency of using and creating information resources in healthcare and medicine are justified. The analysis of previously applied principles and methodological approaches to creating information systems is carried out. That is, the experience is evaluated. The study outlines the ways of development and principles of improving the efficiency of using information resources, in particular, through in-depth analysis and modeling of information from multi-year databases. Discussion. The functioning of the “Health Protection” system makes it possible to increase the efficiency, reliability, and completeness of the use of information on the state of morbidity, disability, and mortality of the population and the environment. The fact that the system is interdepartmental allows improving the existing assessment methods, analysis, and control of the population’s quality of medical care and environmental safety. Conclusion. The study results emphasize the need to apply and develop similar approaches at the current informatization stage in the health care system.
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28

Oen, I., M. Boxma, J. Dokter, and L. Taal. "Development of a Burn Specific Information System." Journal of Burn Care & Rehabilitation 21 (January 2000): S264. http://dx.doi.org/10.1097/00004630-200001001-00259.

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29

Jovanovic-Milenkovic, Marina, Zoran Radojicic, Dejan Milenkovic, and Dragan Vukmirovic. "Applying electronic documents in development of the healthcare information system in the Republic of Serbia." Computer Science and Information Systems 6, no. 2 (2009): 111–26. http://dx.doi.org/10.2298/csis0902111j.

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During the planning and implementation of Information and Communication Technologies solutions in the healthcare system, attention should be focused on the interests of citizens, healthcare employees, and the public. The project 'Development of the Healthcare Information System for Basic Healthcare and Pharmaceutical Services' demands the implementation of Electronic Healthcare Documentation in the Healthcare Information System of Serbia. This article represents a short overview of previous development of the healthcare information system. Electronic health documentation needs to represent basic health process of every single user. Healthcare Information Systems is based on patients, medical documents, information exchange about patient's health between health's, insurances and financials institutions, with primary goal to made healthy population with less cost.
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30

Cho, Hyun, and In-Soon Kang. "Development of Nursing Process Information System for the Home Health Care." Journal of the Korea Academia-Industrial cooperation Society 10, no. 5 (May 31, 2009): 1126–32. http://dx.doi.org/10.5762/kais.2009.10.5.1126.

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31

Callaly, Tom, Peter Faulkner, and Graeme Hollis. "The development of a mental health service patient information management system." Australian Health Review 21, no. 3 (1998): 182. http://dx.doi.org/10.1071/ah980182.

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In this paper we describe the development of the Mental Health-Patient InformationManagement System (MH-PIMS), which is an information management systemdesigned for use in a modern, primarily community-based, mental health service.MH-PIMS is a computerised database which was designed by clinicians and issupported by a case management system and complementary patient record set ?together called the Assessment and Care Evaluation (ACE) system. The paper alsodescribes the ACE system. MH-PIMS can generate patient reports of use to casemanagers and teams in managing their caseloads and is of use to senior cliniciansand service managers for audit and strategic planning purposes.
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32

KOZAKAI, Kei, Tsukasa FUKUDA, and Yasushi NAKAUCHI. "2P1-E10 Development of Wearable Dietary and Health Information Logging System." Proceedings of JSME annual Conference on Robotics and Mechatronics (Robomec) 2006 (2006): _2P1—E10_1—_2P1—E10_4. http://dx.doi.org/10.1299/jsmermd.2006._2p1-e10_1.

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33

Campbell, B. C., and A. B. Heywood. "Development of a Primary Health Care Information System in Ghana: Lessons Learned." Methods of Information in Medicine 36, no. 02 (March 1997): 63–68. http://dx.doi.org/10.1055/s-0038-1634694.

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Abstract:In Ghana, between January 1990 and September 1993, a series of steps were undertaken to review the existing vertical reporting procedures and to develop an integrated Health Management Information System (HMIS) for Primary Health Care (PHC).These steps included a situation analysis of the existing reporting systems; participatory design of tools for planning, data collection, feedback and reporting; field test and revision of the modified system; training of staff at all levels; development of tools for self-assessment and stimulation of routine feedback to lower levels and reporting of analysed indicators to higher levels.There were some notable achievements which included promotion of self-reliance, improved data relevance and accuracy, as well as strengthened supervision and support. However, it was difficult to identify the most appropriate institutional location for the HMIS; over-emphasis on process leads to reduced implementation; reporting was still given greater priority than analysis and use of data, and systems for collection and use were still cumbersome and time consuming. It is also difficult to prove that having better information really improves decision-making, or even coverage and quality of PHC service delivery.These issues, as well as lessons learned, are discussed in the paper.
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34

Khan, Mohammad Monirujjaman, Turki M. Alanazi, Amani Abdulrahman Albraikan, and Faris A. Almalki. "IoT-Based Health Monitoring System Development and Analysis." Security and Communication Networks 2022 (April 21, 2022): 1–11. http://dx.doi.org/10.1155/2022/9639195.

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This paper presents the design and implementation of a health monitoring system using the Internet of Things (IoT). In present days, with the expansion of innovations, specialists are always looking for innovative electronic devices for easier identification of irregularities within the body. IoT-enabled technologies enable the possibility of developing novel and noninvasive clinical support systems. This paper presents a health care monitoring system. In particular, COVID-19 patients, high blood pressure patients, diabetic patients, etc., in a rural area in a developing country, such as Bangladesh, do not have instant access to health or emergency clinics for testing. Buying individual instruments or continuous visitation to hospitals is also expensive for the regular population. The system we developed will measure a patient’s body temperature, heartbeat, and oxygen saturation (SpO2) levels in the blood and send the data to a mobile application using Bluetooth. The mobile application was created via the Massachusetts Institute of Technology (MIT) inventor app and will receive the data from the device over Bluetooth. The physical, logical, and application layers are the three layers that make up the system. The logical layer processes the data collected by the sensors in the physical layer. Media access management and intersensor communications are handled by the logical layer. Depending on the logical layer’s processed data, the application layer makes decisions. The main objective is to increase affordability for regular people. Besides sustainability in the context of finance, patients will have easy access to personal healthcare. This paper presents an IoT-based system that will simplify the utilization of an otherwise complicated medical device at a minimum cost while sitting at home. A 95 percent confidence interval with a 5 percent maximum relative error is applied to all measurements related to determining the patient’s health parameters. The use of these devices as support tools by the general public in a certain situation could have a big impact on their own lives.
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35

Чувилькин, А. А., А. В. Бояровская, and Н. А. Борсук. "ANALYSIS OF THE DEVELOPMENT OF A MEDICAL INFORMATION SYSTEM." Южно-Сибирский научный вестник, no. 6(40) (December 20, 2021): 82–89. http://dx.doi.org/10.25699/sssb.2021.40.6.016.

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Охрана здоровья граждан – одна из ключевых тем развития государства. О необходимости выстроить систему здравоохранения на новой технологической базе заявил в Послании Федеральному Собранию 21.04.2021 Президент РФ Владимир Путин. Здравоохранение представляет собой достаточно сложную и динамическую систему, которая требует постоянной оценки ситуации и быстрого принятия решений. Непрерывная оценка эпидемиологической ситуации и мониторинг здоровья конкретного гражданина невозможен без качественно организованного обмена информацией и единой системы данных, внедренных в повседневную работу медицинских учреждений. На данный момент существует большое количество медицинских информационных систем (МИС), однако, многие из них содержат избыточный функционал и специфичный формат хранения данных. Адаптировать существующие МИС под нужды конкретных регионов довольно проблематично как в трудо- и времязатратах, так и финансовом плане. Была поставлена задача разработать медицинскую информационную систему Астрал.Мед, направленную на решение актуальных задач в сфере оказания первичной медико-санитарной помощи. Одной из задач разработки является возможность передачи и приема различной медицинской информации в уже существующие МИС с целью, в конечном итоге, отправки этих данных в Единую государственную информационную систему в сфере здравоохранения. В данном случае должно реализовываться единое хранилище всех данных пациентов внезависимости от медицинского учреждения, в котором они обслуживаются, и от информационной системы в данном учреждении. Реализация системы Астрал.Мед состоит из: разработки модуля интерфейсной части; разработки базы данных и способа взаимодействия с ней; модуля обработки запросов от специалистов медицинского учреждения и модуля интеграции со сторонними МИС (что является одной из самых основных и сложных задач из-за возможной несовместимости форматов хранения данных в различных информационных системах). Protection of the health of citizens is one of the key topics in the development of the state. The need to build a health care system on a new technological base was announced by the President of the Russian Federation Vladimir Putin in his Address to the Federal Assembly on April 21, 2021. Health care is a rather complex and dynamic system that requires constant assessment of the situation and quick decision-making. A continuous assessment of the epidemiological situation and monitoring of the health of a particular citizen is impossible without a well-organized exchange of information and a unified data system introduced into the daily work of medical institutions. At the moment, there are a large number of medical information systems (MIS), however, many of them contain redundant functionality and a specific data storage format. It is quite problematic to adapt existing IIAs to the needs of specific regions, both in terms of labor and time costs, and financially. The task was to develop a medical information system Astral.Med, aimed at solving urgent problems in the field of primary health care. One of the development tasks is the possibility of transferring and receiving various medical information to the already existing MIS with the aim, ultimately, of sending this data to the Unified State Information System in the field of health care. In this case, a single repository of all patient data should be implemented, regardless of the medical institution in which they are served and the information system in this institution. Implementation of the Ast-Ral.Med system consists of: development of the interface module; developing a database and a way to interact with it; a module for processing requests from specialists of a medical institution and a module for integration with third-party MIS (which is one of the most basic and complex tasks due to the possible incompatibility of data storage formats in various information systems).
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Zheng, Wu Yi, Bethany Van Dort, Romaric Marcilly, Richard Day, Rosemary Burke, Sepehr Shakib, Young Ku, Hannah Reid-Anderson, and Melissa Baysari. "A Tool for Evaluating Medication Alerting Systems: Development and Initial Assessment." JMIR Medical Informatics 9, no. 7 (July 16, 2021): e24022. http://dx.doi.org/10.2196/24022.

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Background It is well known that recommendations from electronic medication alerts are seldom accepted or acted on by users. Key factors affecting the effectiveness of medication alerts include system usability and alert design. Thus, human factors principles that apply knowledge of human capabilities and limitations are increasingly used in the design of health technology to improve the usability of systems. Objective This study aims to evaluate a newly developed evidence-based self-assessment tool that allows the valid and reliable evaluation of computerized medication alerting systems. This tool was developed to be used by hospital staff with detailed knowledge of their hospital’s computerized provider order entry system and alerts to identify and address potential system deficiencies. In this initial assessment, we aim to determine whether the items in the tool can measure compliance of medication alerting systems with human factors principles of design, the tool can be consistently used by multiple users to assess the same system, and the items are easy to understand and perceived to be useful for assessing medication alerting systems. Methods The Tool for Evaluating Medication Alerting Systems (TEMAS) was developed based on human factors design principles and consisted of 66 items. In total, 18 staff members recruited across 6 hospitals used the TEMAS to assess their medication alerting systems. Data collected from participant assessments were used to evaluate the validity, reliability, and usability of the TEMAS. Validity was assessed by comparing the results of the TEMAS with those of prior in-house evaluations. Reliability was measured using Krippendorff α to determine agreement among assessors. A 7-item survey was used to determine usability. Results The participants reported mostly negative (n=8) and neutral (n=7) perceptions of alerts in their medication alerting system. However, the validity of the TEMAS could not be directly tested, as participants were unaware of any results from prior in-house evaluations. The reliability of the TEMAS, as measured by Krippendorff α, was low to moderate (range 0.26-0.46); however, participant feedback suggests that individuals’ knowledge of the system varied according to their professional background. In terms of usability, 61% (11/18) of participants reported that the TEMAS items were generally easy to understand; however, participants suggested the revision of 22 items to improve clarity. Conclusions This initial assessment of the TEMAS allowed the identification of its components that required modification to improve usability and usefulness. It also revealed that for the TEMAS to be effective in facilitating a comprehensive assessment of a medication alerting system, it should be completed by a multidisciplinary team of hospital staff from both clinical and technical backgrounds to maximize their knowledge of systems.
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Hsu, Yeh-Liang, Che-Chang Yang, Tzung-Cheng Tsai, Chih-Ming Cheng, and Chang-Huei Wu. "Development of A Decentralized Telehomecare Monitoring System." Telemedicine and e-Health 13, no. 1 (February 2007): 69–78. http://dx.doi.org/10.1089/tmj.2006.0027.

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Dorenskyi, Oleksandr, Olena Drobko, and Oleksandr Drieiev. "Improved Model and Software of the Digital Information Service of the Municipal Health Care Institutions." Central Ukrainian Scientific Bulletin. Technical Sciences 2, no. 5(36) (2022): 3–10. http://dx.doi.org/10.32515/2664-262x.2022.5(36).2.3-10.

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Today, state and municipal services are being actively digitized in Ukraine. In particular, the Kropyvnytskyi city authorities initiated the creation of several information systems (IS) necessary for the development of various spheres of activity based on public needs for municipal services. Among these are IS of medical services provided by the city's health care institutions. Thus, the scientific and technical task of implementing the software for the municipal medical services information system in the city of Kropyvnytskyi is relevant. The work aims to implement access to information about medical services of health care institutions in the city of Kropyvnytskyi by creating municipal information systems with iOS-client. The scientific novelty of the obtained results is to improve the model of municipal information systems of medical services through the implementation of the offline mode of system operation, which in contrast to existing models of similar municipal systems provides access to IP data in the absence of Internet connection. The practical value of the results of scientific work is determined by the developed algorithms of the system, non-creation, work with the map and collection center of analytical, mobile iOS-application of the municipal medical services information system for the city of Kropyvnytskyi, published in the "App Store".
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Milošević, Zoran, Milorad Jerkan, Miodrag Stojanović, Natalija Premović, Sanja Milošević, Aleksandra Ignjatović, and Marija Anđelković-Apostolović. "Application of the health information system in the Health Center Niš." Medicinska rec 1, no. 2 (2020): 23–28. http://dx.doi.org/10.5937/medrec2001023m.

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Medical informatics is the science that studies the creating, transmitting, processing and using information, data and knowledge to solve medical problems. It is medical technology due to participation in the process of formal medical decision-making. The first step in the development of health information systems in Serbia is the adoption of a national "Strategy for the Development of the Information Society in the Republic of Serbia by 2020". The aim of this paper is to consider the advantages of using information technologies in the process of health care provision in health care institutions in comparison to the previous, classical way of collecting, analyzing and interpreting data in the example of primary health care institutions. The methodology is a retrospective study of the presentation of implementation in information technologies on the example of the Health Center Niš for the period from 2004. to 2019. and presentation of the computer equipment status. The implementation of the health information system will enable: better and more efficient access to patient information, faster diagnostics, faster and more reliable selection of medicines, greater patient safety, more time for health care employees, better and more complete health-statistical reporting and faster transfer of biomedical knowledge. The introduction of a health information system will allow the creation of an electronic health record and electronic medical history. In 2011, the Health Center Niš became a user of the medical information system MEDIS.NET, which was realized in the Laboratory for Medical Informatics of the Faculty of Electronic Engineering in Niš. The Adult Health Service and the Child and School Health Services were the first to use electronic records.
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Nosrati, Alireza, and Sareh Jalali. "Estimating the Future of Electronic Health Information System in Society." Journal of Guilan University of Medical Sciences 31, no. 2 (June 22, 2022): 102–11. http://dx.doi.org/10.32598/jgums.31.2.1439.2.

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Background: The health information system provides an integrated platform and an information connection between the actors of the health system regardless of temporal and spatial limitations. Objective This study aims to investigate the factors affecting the development of electronic health record (EHR) system and predict the future of this system in Iran. Methods: In this descriptive study, identification of the main factors for the development of HER and designing the future scenarios of this system was done using a questionnaire completed by 33 managers and experts of information technology in hospitals and medical universities in Guilan and Qazvin provinces of Iran. Data were analyzed in SPSS v. 22 and Expert Choice v. 11 applications. Results: Three dimensions and six criteria were determined to explain the HER development. Dimensions included: information content, information architecture, and information security. The criteria were: Manpower, hardware and software infrastructure, speed of access to health services, operating costs, not dependent on the internet, and comprehensiveness. Moreover, eight scaled scenarios were determined for the future of the EHR system. Conclusion: It is necessary to pay attention to information content, architecture, and security in development of the HER system in Iran.
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Yuksel, M., A. Avcl, B. Ceyhan, Ü. Hülür, Z. Eryllmaz, S. Mollahaliloğlu, E. Atbakan, R. Akdağ, and A. Dogac. "Electronic Health Record Interoperability as Realized in the Turkish Health Information System." Methods of Information in Medicine 50, no. 02 (2011): 140–49. http://dx.doi.org/10.3414/me10-01-0022.

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Summary Objectives: The objective of this paper is to describe the techniques used in developing the National Health Information System of Turkey (NHIS-T), a nation-wide infrastructure for sharing electronic health records (EHRs). Methods: The UN/CEFACT Core Components Technical Specification (CCTS) methodology was applied to design the logical EHR structure and to increase the reuse of common information blocks in EHRs. Results: The NHIS-T became operational on January 15, 2009. By June 2010, 99% of the public hospitals and 71% of the private and university hospitals were connected to NHIS-T with daily feeds of their patients’ EHRs. Out of the 72 million citizens of Turkey, electronic healthcare records of 43 million citizens have already been created in NHIS-T. Currently, only the general practitioners can access the EHRs of their patients. In the second phase of the implementation and once the legal framework is completed, the proper patient consent mechanisms will be available through the personal health record system that is under development. At this time authorized health-care professionals in secondary and tertiary healthcare systems can access the patients’ EHRs. Conclusions: A number of factors affected the successful implementation of NHIS-T. First, all stakeholders have to adopt the specified standards. Second, the UN /CEFACT CCTS approach was applied which facilitated the development and understanding of rather complex EHR schemas. Finally, the comprehensive testing of vendor-based hospital information systems for their conformance to and interoperability with NHIS-T through an automated testing platform enhanced substantially the fast integration of vendor-based solutions with the NHIS-T.
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Ikeda, Mitsuru, Takeo Ishigaki, and Kazunobu Yamauchi. "Development of distributed image database combined with clinical information in hospital information system." Journal of Medical Systems 19, no. 4 (August 1995): 305–11. http://dx.doi.org/10.1007/bf02257261.

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Suthar, Amitabh Bipin, Aleya Khalifa, Olga Joos, Eric–Jan Manders, Abu Abdul-Quader, Frank Amoyaw, Camara Aoua, et al. "National health information systems for achieving the Sustainable Development Goals." BMJ Open 9, no. 5 (May 16, 2019): e027689. http://dx.doi.org/10.1136/bmjopen-2018-027689.

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ObjectivesAchieving the Sustainable Development Goals will require data-driven public health action. There are limited publications on national health information systems that continuously generate health data. Given the need to develop these systems, we summarised their current status in low-income and middle-income countries.SettingThe survey team jointly developed a questionnaire covering policy, planning, legislation and organisation of case reporting, patient monitoring and civil registration and vital statistics (CRVS) systems. From January until May 2017, we administered the questionnaire to key informants in 51 Centers for Disease Control country offices. Countries were aggregated for descriptive analyses in Microsoft Excel.ResultsKey informants in 15 countries responded to the questionnaire. Several key informants did not answer all questions, leading to different denominators across questions. The Ministry of Health coordinated case reporting, patient monitoring and CRVS systems in 93% (14/15), 93% (13/14) and 53% (8/15) of responding countries, respectively. Domestic financing supported case reporting, patient monitoring and CRVS systems in 86% (12/14), 75% (9/12) and 92% (11/12) of responding countries, respectively. The most common uses for system-generated data were to guide programme response in 100% (15/15) of countries for case reporting, to calculate service coverage in 92% (12/13) of countries for patient monitoring and to estimate the national burden of disease in 83% (10/12) of countries for CRVS. Systems with an electronic component were being used for case reporting, patient monitoring, birth registration and death registration in 87% (13/15), 92% (11/12), 77% (10/13) and 64% (7/11) of responding countries, respectively.ConclusionsMost responding countries have a solid foundation for policy, planning, legislation and organisation of health information systems. Further evaluation is needed to assess the quality of data generated from systems. Periodic evaluations may be useful in monitoring progress in strengthening and harmonising these systems over time.
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Damij, T. "Development of a Hospital Information System Using the TAD Method." Journal of the American Medical Informatics Association 5, no. 2 (March 1, 1998): 184–93. http://dx.doi.org/10.1136/jamia.1998.0050184.

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45

Endang, Andi Hutami, Mirandha Ariesca Riana, Mardiatul Jannah, and Kamil Malik. "Home Service Information System Design for Health Workers." International Journal of Advanced Engineering Research and Science 9, no. 7 (2022): 263–67. http://dx.doi.org/10.22161/ijaers.97.28.

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Home Service is a set of health care systems that includes patient care and consultation, baby spa, and many other health services. Home Service adopts the same system flow as Start Up in general. With the limitation of the problem only on health workers, nurses and midwives only. The method used in this research is SDLC. The purpose of developing this research framework is iterative development, based on the User engineering approach. SDLC has stages starting from the planning, analysis, design, implementation, and maintenance stages. The home service application has a flow starting from the registration made by the patient, through their account, the patient will be able to order the services they need. The application will automatically match their orders with nurses or midwives as service providers who have registered as partners. Partners can then confirm the services they can provide as well as the service schedule and fees.
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Timpka, T., M. Ljunggren, and V. Vimarlund. "Risk Perception during Information System Development in Non-Profit Health Care Organizations." Methods of Information in Medicine 37, no. 03 (July 1998): 302–6. http://dx.doi.org/10.1055/s-0038-1634536.

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AbstractThe perception of risk exposure among design team members during the early phases of information system development projects can provide valuable strategic information for clinical organizations. To develop a typology of perceived risks during information system development projects in health care, interviews were performed with key team members from a specialist clinic, primary health care, and an informatics research group, during the requirements specification. Phenomenological data analysis and secondary integration of the results in available theories were performed. System objectives, the user requirements definition procedure, the communication pattern between design team members and project management were found to be perceived as the main risk areas. In the secondary analysis, the technical factors, identified as preventing a maximization of the use of the resources, were lack of informatics knowledge among economic decision makers and differences between customers and suppliers regarding their views on the nature of system design. During the implementation of a given strategy, decision makers may consider the requests of their own sponsors in the first place and maximize the use ofthe project resources in the second place. Informatics knowledge plays a key role in risk perception during the development of an information system in health care. Political considerations by team members are important to take into regard, since these may influence technical and economic decisions.
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Woelk, G. B., and I. M. Moyo. "Development of a Computerized Information System in the Harare City Health Department." Methods of Information in Medicine 34, no. 03 (May 1995): 297–301. http://dx.doi.org/10.1055/s-0038-1634601.

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Abstract:The experience is reported with the health information system of the Health Department of Harare City, five years after its introduction. The system was evaluated in terms of the implementation procedure and improvements in the management process. It is concluded that careful management of the implementation process itself is a key to the successful realization of a health information system in developing countries. The statement that the quality of information produced during a computerization process is only as good as the original data fed into it, is emphasized.
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Elhadi, Mohammed, Ahmed Al-Hosni, Khaled Day, Adbullah Al-Hamadani, Abdulrahman Al-Toqi, Nasser Al-Shamli, and Ali Al-Hashmi. "Review of Health Information Systems in Oman." Sultan Qaboos University Journal for Science [SQUJS] 12, no. 2 (June 1, 2007): 101. http://dx.doi.org/10.24200/squjs.vol12iss2pp101-120.

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This paper is a review of Oman's major Health Information Systems (HISs) and their enabling technologies. The work assesses the scope, functionality, security, and interoperability of the used systems. The review aids in achieving the objectives of HIS systems of improving the global quality of health care, attaining increased coordination between health care providers and consumers, promoting the use of guidelines and policies, and improving the speed of simultaneous access and distribution of medicalrecords and other resources. This paper, which can be considered as a building block towards the development of a nation-wide health care system, studies existing systems and identifies their functions and structures.
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Blobel, B., and D. M. López. "Architectural Approaches for HL7-based Health Information Systems Implementation." Methods of Information in Medicine 49, no. 02 (2010): 196–204. http://dx.doi.org/10.3414/me09-02-0012.

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Summary Objective: Information systems integration is hard, especially when semantic and business process interoperability requirements need to be met. To succeed, a unified methodology, approaching different aspects of systems architecture such as business, information, computational, engineering and technology viewpoints, has to be considered. The paper contributes with an analysis and demonstration on how the HL7 standard set can support health information systems integration. Methods: Based on the Health Information Systems Development Framework (HIS-DF), common architectural models for HIS integration are analyzed. The framework is a standard-based, consistent, comprehensive, customizable, scalable methodology that supports the design of semantically interoperable health information systems and components. Results: Three main architectural models for system integration are analyzed: the point to point interface, the messages server and the mediator models. Point to point interface and messages server models are completely supported by traditional HL7 version 2 and version 3 messaging. The HL7 v3 standard specification, combined with service-oriented, model-driven approaches provided by HIS-DF, makes the mediator model possible. The different integration scenarios are illustrated by describing a proof-of-concept implementation of an integrated public health surveil-lance system based on Enterprise Java Beans technology. Conclusion: Selecting the appropriate integration architecture is a fundamental issue of any software development project. HIS-DF provides a unique methodological approach guiding the development of healthcare integration projects. The mediator model – offered by the HIS-DF and supported in HL7 v3 artifacts – is the more promising one promoting the development of open, reusable, flexible, semantically interoperable, platform-independent, service-oriented and standard-based health information systems.
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Karimaa, E., and P. Nykänen. "Success and Failure Factors in the Regional Health Information System Design Process." Methods of Information in Medicine 45, no. 01 (2006): 85–89. http://dx.doi.org/10.1055/s-0038-1634042.

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Summary Objectives: To identify success and failure factors in the design process of a regional health information system. Methods: A constructive evaluation study including interviews, observations, usability study and document analysis. Results: Modelling was found to be a key element for the successful implementation of a health information system. The developed service chain model helped to define use cases and to implement seamless service chains. User participation in the design process was a success factor resulting in good user acceptance and signs of positive impacts on work practices. Evaluation study also helped system developers to guide the system’s further development. An important failure factor identified was the lack of semantic interoperability of the system components. Conclusions: The results emphasize the socio-technical nature of health information systems. The starting point for development should be thorough insight into the health care work practices where the information systems are to be used. Successful system design should start from modelling of work processes, data and information flows and definition of concepts and their relations. Health informatics as a scientific discipline provides theories and models for the design and development process.
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