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Spence, D., & Fielding, S. (2002). Win-win-win: Collaboration advances critical care practice. Contemporary Nurse, 13(2/3), 223–228.
Abstract: This paper provides an overview of the structure and processes of an eighteen month, distance education course focused on developing advanced practice in the context of critical care nursing. Within the framework of a Master of Health Science, the postgraduate certificate (critical care nursing) was developed as a collaboration between Auckland University of Technology and two regional health providers. Students enrol in science and knowledge papers concurrently then, in the second half of the course, are supported within their practice environment to acquire advanced clinical skills and to analyse, critique and develop practice within their specialty. This course is set against a background of increasing interest in education post registration. The acquisition of highly developed clinical capabilities requires a combination of nursing experience and education. This requires collaboration between clinicians and nurse educators, and approaches to address accessibility of relevant educational opportunities for nurses outside the country's main centres.
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Lim, A. G., & Honey, M. (2006). Integrated undergraduate nursing curriculum for pharmacology. Nurse Education in Practice, 6(3), 163–168.
Abstract: This article presents an integrated approach to pharmacology education for nurses aligned with constructivist learning theory, as taught at the School of Nursing, University of Auckland. The weaving of pharmacology through the three-year undergraduate curriculum is described, showing the development of a pharmacology curricula thread. The significance of supporting curricula content in areas such as communication skills, law and ethics, as well as sound biological science and physiology knowledge are highlighted.
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Harding, T. S. (2006). New strategies in evidence based practice. Klinisk sygepleje, 20(3), 4–11.
Abstract: This article considers wider organisational issues that impact on the implementation of evidence based practice. It describes the strategies adopted by the Auckland Area Health Board and Unitec New Zealand to implement the principles of evidence based practice in New Zealand. This has resulted in a collaboration with Auckland University and the Joanna Briggs Institute for Evidence Based Nursing and Midwifery to form the Centre for Evidence Based Nursing – Aotearoa. Evidence based nursing is a vital part of nursing education. Unitec New Zealand has developed and incorporated evidence based nursing into all courses in their undergraduate programme. Central to this is the use of evidence based practice in patient care and the integration of technology with evidence based nursing in clinical practice.
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Rydon, S. E., Rolleston, A., & Mackie, J. (2008). Graduates and initial employment. Nurse Education Today, 28(5), 610–619.
Abstract: This research project was undertaken to inform nurse educators in the Department of Nursing and Health Studies of Manukau Institute of Technology of the employment opportunities for new graduate nurses emerging from the three year degree and registration programme. Graduates from the programme for the previous three years were surveyed for their experiences in gaining employment. 89.8% of graduates were successful in gaining employment in the first three months post registration. The number of graduates employed within a district health board declined across the three years but there were no significant differences between cohorts. Overall, 73% of graduates were employed into new graduate positions. The majority of graduates felt that their nursing education prepared them well for their role as a registered nurse. The findings of the qualitative data identified a strong need for science throughout the degree; longer clinical blocks; increased hands on experience; more practice with skills and less theory in relation to practical experience.
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Nicol, M. J. (2002). The teaching of genetics in New Zealand undergraduate nursing programmes. Nurse Education Today, 22(5), 401–408.
Abstract: This paper reports the results of a survey to determine how much genetics is taught in the bioscience component of the three-year Bachelor of Nursing degree offered by 16 tertiary education institutes in New Zealand. A questionnaire was mailed to the bioscience lecturers seeking information on the bioscience and genetics content of current programmes. They were also asked to indicate their perception of the impact and relevance of new genetic knowledge on health care and nursing education. Results indicated that on average 250-350 hours are devoted to the teaching of biosciences. Less than 10 hours are devoted to genetics at 66% of institutes, one institute did not teach any aspect of genetics. None of the institutes taught more than 20 hours of genetics in the programme, although 47% of lecturers said they would like to teach more genetics if there were more time available in the curriculum. Lecturers teaching bioscience to Bachelor of Nursing students are aware of the importance of genetics in health care and to nursing in particular, and the majority are of the opinion that more genetics should be included in undergraduate programmes, however 'curriculum crowding' is a problem.
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van Rooyen, P., Dixon, D. A., Dixon, G., & Wells, C. C. (2006). Entry criteria as predictor of performance in an undergraduate nursing degree programme. Nurse Education Today, 27(7), 593–600.
Abstract: This research explored the relationship between entry criteria and academic performance in the first and second year bioscience papers at Otago Polytechnic School of Nursing. The School's inclusion of a bioscience requirement varies from the Nursing Council criteria for acceptance into undergraduate nursing programmes. Six hundred and nineteen academic records of 1994-2002 graduates were sampled. Chi-square and correlational analyses found a relationship between entry qualifications and students' academic performance in the two papers. The entry criteria had a stronger relationship with the students' performance in the first year bioscience paper than the second year paper. Performance in the first year was predicative of second year performance. Age was also found to be a useful predictor of grades. These findings support the School's Bioscience entry criteria and provide important information for admission committees.
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