Background The preparedness of newly graduated registered nurses for a demanding work environment and care practices takes form during nursing education. Norwegian nursing education at one university has implemented a selection of basic physical assessment skills (B-PAS) in the nursing curriculum in order to prepare nursing students for a demanding work environment post-graduation. Methods A mixed-method cohort design. We evaluated nursing students’ self-reported use of B-PAS during their clinical rotation using the “Survey of Examination Techniques Performed by Nurses” questionnaire (30 items). In addition, two focus group interviews elicited factors that hinder or facilitate the actual use of B-PAS during clinical rotation. We recruited students from a bachelor’s degree programme for nursing at a Norwegian university. Three hundred and sixty-three of 453 eligible nursing students in the first, second, and third year of the bachelor’s degree programme participated in the study (80%). Results ANOVA showed a significant progression ( p < 0.016) in students’ self-reported use of B-PAS. Auscultation and percussion skills were graded below the median score of 3, which indicates that these skills were less used throughout the programme. The nursing students highlighted contextual factors for their use of B-PAS when in clinical rotation. Preceptors are important gatekeepers for successful implementation, and there is a need for close collaboration between the university and clinical practice. Conclusion Despite the reduced PAS taught in the curricula, there is still a lack of application of such skills in clinical rotations. This study highlights that research should explore how different work environments influence the utilisation of learned skills, and which learning strategies are appropriate or most successful for stimulating clinical reasoning and the extensive use of physical assessment.
Background As many students in higher education are skilled users of mobile technology, mobile learning (mLearning) can be a promising educational strategy to enhance their learning experience. mLearning might also be well suited for nursing students as they navigate between multiple learning contexts in their educational curriculum. As an educational strategy, mLearning may also reduce challenges caused by the theory-practice gap in nursing by supporting skills and knowledge transfer between the university and clinical settings. As the introduction of basic physical assessment skills (B-PASs) into Norwegian bachelor’s degree education in nursing occurred quite recently, there is a lack of competence in supervision and teaching in both university and clinical settings. As such, mLearning appears to be a good strategy to support student B-PAS learning and knowledge transfer across learning contexts. Objective This study aims to explore and elicit the perspectives of students regarding the way in which a selection of digital learning resources supports B-PAS learning and application in clinical rotation, which of the selected digital learning resources are beneficial to include in a suite of mLearning tools, and how the selected digital learning resources could support the transfer of skills and knowledge from the academic to clinical context. Methods We used a longitudinal participatory design approach to co-design a suite of mLearning tools. The co-design processes took place in several workshops (WSs) over a period of 3 months: 2 WSs with first-year students (n=6), 3 WSs with second-year students (n=6), and 3 WSs with third-year students (n=8). The students evaluated several digital learning resources in both academic and clinical contexts. The digital learning resources included digital simulation with virtual patients, massive open online courses, and multimedia learning material. In the co-design WS, the potential and benefits of these digital learning resources for the learning and application of B-PASs were explored. Results The students reported that the digital learning resources stimulated learning in 7 different ways. They also emphasized the importance of including all selected and tested digital learning resources. Moreover, students supported the inclusion of additional learning material, such as multiple-choice tests and written assignments, aimed at providing feedback and contributing to knowledge development. Conclusions The co-design processes and collaboration with the nursing students provided insight into how a suite of mLearning tools may support the learning and application of B-PASs and human bioscience knowledge in clinical rotation. From the students’ perspective, one of the strengths of the suite of mLearning tools was the range of content, as this met a broader range of student learning preferences regarding learning B-PASs. The suite of mLearning tools contributes to and supports skills training and knowledge transfer between multiple learning contexts.
Objectives There is limited knowledge about students’ experiences with virtual simulation when using a video conferencing system. Therefore, the aim of this study was to explore how second-year undergraduate nursing students experienced learning through virtual simulations during the COVID-19 pandemic. Methods The study had an exploratory design with both quantitative and qualitative approaches. In total, 69 nursing students participated in two sessions of virtual simulation during spring 2020, and 33 students answered online questionnaires at session 1. To further explore students’ experiences, one focus group interview and one individual interview were conducted using a video conferencing system after session 2. In addition, system information on use during both sessions was collected. Results Changes in the students’ ratings of their experiences of virtual simulation with the Body Interact™ system were statistically significant. The virtual simulation helped them to bridge gaps in both the teaching and learning processes. Four important aspects of learning were identified: 1) learning by self-training, 2) learning from the software (Body Interact™), 3) learning from peers, and 4) learning from faculty. Conclusions We conclude that virtual simulation through a video conferencing system can be useful for student learning and feedback from both peers and faculty is important.
Background The COVID-19 lockdown in March 2020 had a significant consequence for nursing students worldwide including limited access to learning situations in clinical rotation. Therefore, this study aims to explore how an innovative redesign of a clinical course in a time of pandemic supported nursing students in learning the fundamentals of care in their first year. The redesign involved the transformation of a traditional hands-on clinical course into a technology-enhanced learning environment. Design This was an explorative convergent mixed-methods study using both quantitative and qualitative methods. Methods Twenty-four first-year nursing students responded to an online questionnaire with open-ended questions. Two nursing students and one faculty member participated in individual online interviews, and three faculty members participated in an online focus group interview. All the data were collected in June 2020. The quantitative data were analyzed using descriptive statistics and the qualitative data using content analysis. The GRAMMS guideline was applied. Results The students achieved the learning outcomes regarding fundamental care, basic physical assessment skills, and clinical reasoning with the help of academic assignments, multimedia learning resources, and virtual patients. Further, six central aspects of the facilitator role in the virtual simulation were identified. The aspect that was considered most valuable involved uncovering the “red thread” between different areas of knowledge in the first year of nursing education; this supported the students to better understand how to think and talk like a nurse. Conclusion This study offers insight into how a technology-enhanced clinical course can foster the learning of fundamental nursing care, basic physical assessment skills, and clinical reasoning skills; enhancing students’ preparedness for clinical hours. Virtual patients’ scenarios contributed to integrating different types of knowledge and skills that are important when providing nursing care for patients in clinical practice. This study also highlighted a gap in pedagogical competence among faculty members with regards to facilitating learning in a technology-enhanced learning environment. Study findings suggest promising pedagogical strategies that should be further developed post-pandemic, in response to the call for a renewal of nursing education using more technologically supported learning designs.
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