Implementing Pharmacy Informatics in College Curricula: The AACP Technology in Pharmacy Education and Learning Special Interest Group

Many professional organizations have initiatives to increase the awareness and use of informatics in the practice of pharmacy. Within education we must respond to these initiatives and make technology integral to all aspects of the curriculum, inculcating in students the importance of technology in practice. This document proposes 5 central domains for organizing planning related to informatics and technology within pharmacy education. The document is intended to encourage discussion of informatics within pharmacy education and the implications of informatics in future pharmacy practice, and to guide colleges of pharmacy in identifying and analyzing informatics topics to be taught and methods of instruction to be used within the doctor of pharmacy curriculum

Web Services and IT Management in Healthcare and Grid Computing

Alma Ata Declaration on Primary Health Care defines , health as not just absence of disease but fitness at all levels i.e.Physically, mentally, Psychologically, spirtually, socially, and so on. RCH emphasizes fitness at all level along with health education and medical education. For the last one decade IT has contributed substantially in the healthcare domain. Tele-Medicine, Health informatics, using IT for Health for Prevention, curing, rehabilitation, Medical Education and accessing resources are the some of them.Web Services, IT Management, IT in healthcare, Health Informatics

Prescription for nursing informatics in pre-registration nurse education.

Nurses need to be able to use information and communications technology not only to support their own practice, but also to help their patients make best use of it. This article argues that nurses are not currently adequately prepared to work with information and technology through their pre-registration education. Reflecting the lack of nursing informatics expertise, it is recommended that all pre-registration nursing programmes should have access to a nursing informatics specialist. A prescription to meet the informatics needs of the newly qualified nurse is proposed. This places the areas that need to be included in pre-registration education into broad groups that both articulate the competencies that nurses need to develop, and indicate why they are needed, rather than providing context-free checklists of skills. This is presented as a binary scatter chart with two axes, skill to knowledge and technology to information

Nursing Informatics: is IT for All Nurses?

Given the definition if nursing informatics it should be a core activity for all nurses, and seen as a tool to support high quality care giving. Three studies reported in this paper show that this is not the case. Qualified nurses are perceived as having poor skills and knowledge, and as being resistant to IT as it takes them away from patient care. Educators share this lack of knowledge, and neither academics nor students consider nursing informatics to be a clinical skill. In order to use computers while on placement students were found to need confidence in their skills, and to feel that the use of computers was encouraged. Socialisation into the profession is an important part of nurse education, and currently students are being socialised into a professional role where they are not encouraged to use computers, or to consider their use to be a key nursing task. If nursing informatics is to truly become a way of improving patient care this needs to be changed, and preregistration education is a key place to start to bring this change about

Short Courses: Flexible Learning Opportunities in Informatics

In today’s fast-paced, data-driven world, researchers need to have a good foundation in informatics to store, organize, process, and analyze growing amounts of data. However, not all degree programs offer such training. Obtaining training in informatics on your own can be a daunting task for both new and established researchers who have little informatics experience. Providing educational opportunities appropriate for various skill levels and that mesh with a full-time schedule can remove barriers and foster a collaborative, informatics-savvy community that is better equipped to push science forward. To enhance informatics education in bioinformatics, VCUs Wright Center for Clinical and Translational Research of- fers a complementary series of seminars and workshops. These short course offerings introduce attendees to bioinformatics concepts and applications, and provide hands-on experience using online Bioinformatics databases. Bioinformatics 101 (B101) is an 8-week long series of 1-hour seminars focused on introducing topics in bioinformatics related to Next Generation Sequencing (NGS). Lectures are application focused and include overviews of NGS technology, practical bioinformatics pipelines, and examples of how the technology can influence downstream bioinformatics analyses. Bioinformatics 102 (B102) is a 5-day, 2 hours per day workshop developed in collaboration with VCU Libraries that provides attendees with hands-on experience accessing and using public data repositories. Sessions include a brief lecture followed by hands-on exercises. A Certificate of Completion is awarded upon meeting certain criteria for either the 101 or 102 courses. Bioinformatics 101 has been offered 3 times with a combined total of 246 registrants, and Bioinformatics 102 has been offered twice with a total of 78 registrants (limited to 30 per session per day). From course surveys, 82% (n=108) and 95% (n=47) of respondents gave B101 and B102 a positive rating, respectively. In addition, 89% of B101 respondents indicated their knowledge was improved, with 100% of B102 respondents indicating the same. A total of 84 and 33 certificates have been awarded for B101 and B102, respectively. The Bioinformatics 101 and 102 courses have become highly anticipated across the university, and have gained the external attention of surrounding businesses and colleges. Registrants have diverse backgrounds including biological, clinical, computational, administrative, librarian, business, and others with a total of 77 departments across VCU and VCU Health represented. Due to this interest, Bioinformatics 101 began offering live online attendance to accommodate those who were unable to travel across campus, or who are attending from outside VCU. This past year, 50% of attendance was online indicating a growing need for flexible education opportunities in informatics. Increasing researcher knowledge of Bioinformatics along with awareness of university resources for informatics support fosters an informatics-savvy research community that is empowered to take advantage of existing and new data sources in the pursuit of new insights and scientific discoveries for the betterment of human health. Future work will include the development of a more comprehensive educational framework by creating new and flexible learning opportunities that will make informatics education easy and convenient for our dedicated researchers

Proposal for the Creation of a Subdiscipline: Education Informatics

“Education Informatics” is the name for an emerging new sub-discipline of education. We define “Education Informatics” as the application of technology to discovering and communicating education information. This article will provide an historical and theoretical foundation for the emergence of this new sub-discipline. Existing definitions of informatics, the literature on education informatics, and the evolution of academic disciplines will be examined. The authors will explore commonalities between the two disciplines from which education informatics is derived: information science and education. They will justify the foundation of the sub-discipline, grounding it within the existing discipline of education. The article will conclude with a discussion of how this new sub-discipline might impact research and practice; a plan for incorporating the new sub-discipline in the educational system; and a proposed research agenda

Characteristics and Enlightenment of Health Informatics Education in American Universities

The demand for health information is increasing in China, and China has gradually paid attention to health informatics education. The successful experience of American health informatics education can effectively promote the development of health informatics education in China. This paper analyzes the main characteristics of health informatics education in American colleges and universities by literature survey and network survey, and concludes that Chinese colleges and universities should strengthen practical education, enhance teachers’ strength, increase the form of educational projects, and perfect the curriculum content system

Enterprise Information Systems and Business Process Modelling in Training and Research

The University of Debrecen introduced the five year “informatics agricultural engineer” course in the 2002/2003 academic year. In the 2006/2007 the „informatics and agricultural administration engineer“ BSc course has been introduced. The courses are run by the Agricultural Economics and Rural Development faculty. Starting of this course is demanded by the Hungarian agro-food sector, Governmental offices, Institutes, which need the applications of wide range informatics tools and systems. The business process modelling and management is becoming important part of implementing and running information systems. The ARIS is one of the leader products in modelling. The other important system is the SAP in the ERP market. In our education program we are using these products. The ARIS toolset is very useful for research on business modelling in agri-food companies too

Medical informatics in an undergraduate curriculum: a qualitative study

BACKGROUND: There is strong support for educating physicians in medical informatics, and the benefits of such education have been clearly identified. Despite this, North American medical schools do not routinely provide education in medical informatics. METHODS: We conducted a qualitative study to identify issues facing the introduction of medical informatics into an undergraduate medical curriculum. Nine key informants at the University of Toronto medical school were interviewed, and their responses were transcribed and analyzed to identify consistent themes. RESULTS: The field of medical informatics was not clearly understood by participants. There was, however, strong support for medical informatics education, and the benefits of such education were consistently identified. In the curriculum we examined, medical informatics education was delivered informally and inconsistently through mainly optional activities. Issues facing the introduction of medical informatics education included: an unclear understanding of the discipline; faculty and administrative detractors and, the dense nature of the existing undergraduate medical curriculum. CONCLUSIONS: The identified issues may present serious obstacles to the introduction of medical informatics education into an undergraduate medicine curriculum, and we present some possible strategies for addressing these issues

Nurses and Computers: An international perspective on how nurses are, and how they would like to be, using ICT in the workplace, and the support they consider that they need.

The use of IT in nursing (nursing informatics) is increasing, and has the potential to improve patient care. Research, and the experience of the author, have shown however that nurses lack basic IT skills and informatics knowledge. This study sought to explore what nurses’ want from IT in the workplace, and how pre-registration education can help to prepare nurses for working in this changing environment. The study, undertaken in New Zealand, a country also seeking to drive forwards its use of IT in healthcare, found that nurses want systems that save them time, and equipment readily available at the patients’ bedside. Nurses who had recently completed their pre-registration programmes tended to have better skills than nurses who had trained some time ago. Nurses who lacked skills, or confidence, wanted support available that understood the role of nurse, and could provide help when it was needed. Nursing schools in New Zealand tend to have a lecturer leading nursing informatics. Nursing informatics is included in pre-registration education programmes, and I was able to see several innovative developments supporting this. Qualified nurses and students generally considered that pre-registration programmes should include information security, legal and ethical issues and supporting patients in meeting their information needs as well as basic IT skills