Is Their Foundation Solid Enough to Build On: An Investigation into the Information-Seeking Skills and Self-Efficacy Levels of New Nursing Students

Researchers at a mid-sized, Midwest, faith-based university used a quasi-experimental non-equivalent control group pretest posttest design to gather data from newly enrolled nursing students in a baccalaureate, masters and doctorate in nursing practice program. Literature regarding confidence levels, self-efficacy and information literacy skills was reviewed. Specific tools to assess confidence and self-efficacy of information literacy skills were explored. The 28-item Information Literacy Self-Efficacy Scale (ILSES) developed in 2006 by Serap Kurbanoglu was used in fall 2012, spring 2013 and fall 2013 to gather data from over 200 newly enrolled nursing students. Analysis of self-reported information literacy skills and self-efficacy levels were analyzed using SPSS software. Reported changes in self-efficacy as a result of information literacy interventions were reported. Implications for the use of active learning activities and skills assessments within information literacy programs were presented

Teaching Information Literacy Skills to Undergraduate Nursing Students: A Collaborative Approach

Background An expectation of baccalaureate nursing education is to prepare nurses to implement evidenced-based practice (EBP). This expectation extends far beyond a basic understanding of the research process. BSN prepared nurses must be able to effectively and efficiently identify, analyze, and synthesize evidence (AACN, 2008). The acquisition of information literacy skills is foundational to the development of EBP. Implementation The study took place at a College of Nursing within a mid-sized, faith-based university located in the Midwest. Historically, students enrolled in their senior level undergraduate nursing research/EBP course underwent one library instruction session with the nursing librarian to reinforce search strategies for accessing single studies and higher levels of evidence. As part of the course, students conducted EBP group projects which required searching for the best evidence to address a clinical problem. Evaluation of EBP projects revealed that students were not effectively performing systematic searches. This deficit was interpreted as critical since the EBP process is built upon accessing the best evidence. To facilitate development of these skills, a collaboration between the College of Nursing and Library Services emerged. Literature regarding teaching nursing research/EBP and information literacy was reviewed. Specific EBP skills and methods to effectively teach those skills were explored. A collaborative approach to teaching was instituted by embedding a librarian in the nursing research course and integrating information literacy content throughout the semester. Research logs and evidence summary grids for 39 student groups, as well as, individual student final exam and course scores across four semesters were evaluated. Conclusions Collaborative teaching/learning activities significantly improved students’ abilities to perform systematic searches and identify, analyze and synthesize evidence as measured by research log and evidence summary scores. Although course scores for those exposed to collaborative teaching/learning activities were not significantly improved, comprehensive final exam scores, a focused measure of students’ EBP knowledge, were significantly improved. Recommendations Collaboration between nursing faculty and librarians is recommended to promote development of students’ information literacy skills. Information literacy is foundational to the EBP process; time must be dedicated to establishing these skills. Information literacy skills should be introduced early in the nursing curriculum and reinforced in multiple courses

Using a Research Log and Reflective Writing to Improve EBP and Information Literacy Skills of BSN Students

Background Baccalaureate nursing educators must prepare nurses to implement evidence-based practice (EBP). BSN nurses must be able to effectively identify, analyze, and synthesize evidence (AACN, 2008). In a nursing research course, students conducted group projects which required searching for the best evidence. Project evaluations revealed that students were not searching systematically. To facilitate EBP and information literacy skill development, a collaboration between the College of Nursing and Library Services emerged. Targeted Learning Outcomes 1. Formulate a strategic search using databases and Internet resources 2. Evaluate and select the ‘best available’ evidence 3. Document systematic search (keywords, subject headings, limiters, and results) 4. Describe why evidence was selected 5. Reflect on search process, difficulties, and potential revisions for next search. Teaching Learning Activities In spring of 2012, research logs were added to an EBP group project requiring students to identify the best evidence. Groups documented their search using a research log worksheet and narrative which included reflection of the search process, evidence appraisal, and strengths and weakness. Although the research log worksheet provided structure, specific problems including uncoordinated group searches, inadequate articulation of evidence selection, and limited reflection about strengths and weaknesses were still identified. Additional sessions reinforcing information literacy skills were integrated in the course. The information literacy skills sessions and research logs were implemented for two subsequent semesters. Evaluation of Approach Student research log and EBP group project scores will be compared over three semesters using ANOVA to determine differences in group performance. During initial data analysis, an independent t test reflected a significant difference between scores for Spring 2012 and Fall 2012 groups. The Fall 2012 groups who used research logs and experienced additional information literacy skills sessions scored significantly higher on their assignments than Spring 2012 groups. Data collection for Spring 2013 is in progress. Final study results as well as implications for nursing education will be articulated

A Face Versus Non-Face Context Influences Amygdala Responses to Masked Fearful Eye Whites

The structure of the mask stimulus is crucial in backward masking studies and we recently demonstrated such an effect when masking faces. Specifically, we showed that activity of the amygdala is increased to fearful facial expressions masked with neutral faces and decreased to fearful expressions masked with a pattern mask—but critically both masked conditions discriminated fearful expressions from happy expressions. Given this finding, we sought to test whether masked fearful eye whites would produce a similar profile of amygdala response in a face vs non-face context. During functional magnetic resonance imaging scanning sessions, 30 participants viewed fearful or happy eye whites masked with either neutral faces or pattern images. Results indicated amygdala activity was increased to fearful vs happy eye whites in the face mask condition, but decreased to fearful vs happy eye whites in the pattern mask condition—effectively replicating and expanding our previous report. Our data support the idea that the amygdala is responsive to fearful eye whites, but that the nature of this activity observed in a backward masking design depends on the mask stimulus

Neural Circuitry of Emotional and Cognitive Conflict Revealed through Facial Expressions

Neural systems underlying conflict processing have been well studied in the cognitive realm, but the extent to which these overlap with those underlying emotional conflict processing remains unclear. A novel adaptation of the AX Continuous Performance Task (AX-CPT), a stimulus-response incompatibility paradigm, was examined that permits close comparison of emotional and cognitive conflict conditions, through the use of affectively-valenced facial expressions as the response modality.Brain activity was monitored with functional magnetic resonance imaging (fMRI) during performance of the emotional AX-CPT. Emotional conflict was manipulated on a trial-by-trial basis, by requiring contextually pre-cued facial expressions to emotional probe stimuli (IAPS images) that were either affectively compatible (low-conflict) or incompatible (high-conflict). The emotion condition was contrasted against a matched cognitive condition that was identical in all respects, except that probe stimuli were emotionally neutral. Components of the brain cognitive control network, including dorsal anterior cingulate cortex (ACC) and lateral prefrontal cortex (PFC), showed conflict-related activation increases in both conditions, but with higher activity during emotion conditions. In contrast, emotion conflict effects were not found in regions associated with affective processing, such as rostral ACC.These activation patterns provide evidence for a domain-general neural system that is active for both emotional and cognitive conflict processing. In line with previous behavioural evidence, greatest activity in these brain regions occurred when both emotional and cognitive influences additively combined to produce increased interference