Background: Working in the perioperative context is complex and challenging due to the impact of ageing and innovations, making new ways of working and collaborating emerging. The continual evaluation in this environment underscores the need for adaptability to technological advancements, and requires substantial allocation of resources for training and education. Educational programs for nurse anesthetists and surgical nurses should prioritize candidates through their unique personality traits and their ability to adapt evolving technologies. Objective: To explore personality characteristics of perioperative healthcare professionals that are instrumental for sustainable employability in technologically advanced environment. Methods: Personality characteristics were identified with the Big Five Inventory, which consisted of 60 items answered on a five-point Likert scale (strongly disagree to strongly agree). 823 perioperative healthcare professionals (360 nurse anesthetists and 463 surgical nurses) and 827 participants of the normative Dutch population completed the online survey. Findings: Specific personality traits were found for nurse anesthetists and surgical nurses when compared to the normative Dutch population. Traits of nurse anesthetists differed significantly on all domains of the Big Five Inventory, with the largest differences found within the dimension negative emotionally (F=3532.39, df=2, p<0.001). The same applied to surgical nurses, in which the largest differences were also found within the dimension negative emotionally (F=4051.66, df=2, p<0.001). Conclusion: This study highlights the role of specific personality traits in maintaining employability among Dutch perioperative healthcare professionals within the rapidly evolving and technologically advanced landscape of healthcare. It contributes to an understanding of sustainable employability in technologically advanced environments and emphasizes the relationship between individual traits and professional excellence, being crucial educational strategies and overall improvement in healthcare.
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BackgroundWorking in the perioperative context is complex and challenging. The continual evaluation in this environment underscores the need for adaptability to technological advancements, and requires substantial allocation of resources for training and education. This study aimed to explore personality characteristics of nurse anesthetists and surgical nurses that are instrumental for sustainable employability in technologically advanced environment.MethodsExploratory, cross-sectional survey study including nurse anesthetists and surgical nurses, both certified and in training, and a sample of the normative Dutch population. Personality characteristics were identified with the Big Five Inventory, which consisted of 60 items answered on a five-point Likert scale (strongly disagree to strongly agree).ResultsSpecific personality traits were found for nurse anesthetists and surgical nurses when compared to the normative Dutch population. Traits of both nurse anesthetists and surgical nurses differed significantly on all domains of the Big Five Inventory, with the largest differences found within the dimension negative emotionally.ConclusionsThis study highlights the role of specific personality traits in maintaining employability within the rapidly evolving and technologically advanced landscape of healthcare. It emphasizes the relationship between individual traits and professional excellence, being crucial educational strategies for overall improvement in healthcare.
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Introduction: Nursing students will come across stressful situations during their internships and will continue to do so in future practice. Because of the impact stress can have on performance, nursing students need to be equipped to work and collaborate in such situations. Careful consideration of the needs and desires of nursing students should be taken in account, in order to create a training environment that fosters students' ability to learn to collaborate under stress. Aim: The aim of this study is to identify viewpoints of undergraduate nursing students towards the learning of collaboration in stressful situations, to understand their needs and desires, and to improve educational designs for training to collaborate in stressful situations. Methods: We conducted a Q-methodology study, a mixed methods approach that studies and charts subjectivity, and uses a by-person factor analytical procedure to create profiles of shared viewpoints. The process of our Q-study is based on the following five steps: Q-set development (54 statements), participant selection (n = 29), Q-sorting procedure, data analysis, and factor interpretation. Results: Q-factor analysis resulted in two prevailing factors that answer our research question. Twenty-five students loaded on these two factors, and factor interpretation resulted in Profile 1 “Practice makes perfect, so let's do it” and Profile 2 “Practice is needed, but it scares me”. Whereas Profile 1 regarded learning to collaborate in stress mainly as a challenge, Profile 2 appeared anxious despite feeling the necessity to learn this. An overarching consensus factor revealed the importance of a learning environment in which mistakes can be made. Discussion: The two described profiles align with the biopsychosocial model of challenge and threat, and could help to recognize and address the individual needs of nursing students when learning to collaborate in stressful situations. Incorporating these profiles in training may guide students towards a more challenge-like appraisal of stressful situations.
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Background: Continuing professional development (CPD) in nursing is defined as ‘a life-long process of active participation in learning activities that assist in developing and maintaining continuing competences, enhancing professional practice and supporting achievement of career goals’. Research has shown that inability to access resources and activities for CPD influences quality of care and adversely affects nurses’ satisfaction, recruitment and retention. Although more and more research regarding CPD is done, a comprehensive overview about the needs of nurses for successful CPD is missing. Conclusions: All nurses strive for CPD. However, organizations need to recognize nurses' personal goals and unique strategies as this leads to different needs in CPD. In addition, resources must be made available and accessible before CPD can be successfully pursued by all nurses.
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Prehabilitation trajectories contribute to improving lifestyle choices and influencing risk factors to reduce postoperative complications, the overall hospital stay and lower health care costs. This paper gives an overview of the best current evidence on the role, scope, added value and expertise of nurses during the prehabilitation trajectory of patients with GI cancer, consisting of relevant nursing diagnosis, interventions and outcomes within four specific domains. The methods used are literature searches that were performed between June 2022 and January 2023, with a final search on January 25th. The search strategy included four steps, following the Joanna Briggs Institute Manual. Two researchers contributed to the study selection process. The results were categorized according to the domains of multimodal prehabilitation. The Handbook of Carpenito was used to link the results to nursing diagnoses, interventions and nurse sensitive outcomes.
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Patients undergoing major surgery are at risk of complications and delayed recovery. Prehabilitation has shown promise in improving postoperative outcomes. Offering prehabilitation by means of mHealth can help overcome barriers to participating in prehabilitation and empower patients prior to major surgery. We developed the Be Prepared mHealth app, which has shown potential in an earlier pilot study.
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Clinical decision support systems (CDSSs) have gained prominence in health care, aiding professionals in decision-making and improving patient outcomes. While physicians often use CDSSs for diagnosis and treatment optimization, nurses rely on these systems for tasks such as patient monitoring, prioritization, and care planning. In nursing practice, CDSSs can assist with timely detection of clinical deterioration, support infection control, and streamline care documentation. Despite their potential, the adoption and use of CDSSs by nurses face diverse challenges. Barriers such as alarm fatigue, limited usability, lack of integration with workflows, and insufficient training continue to undermine effective implementation. In contrast to the relatively extensive body of research on CDSS use by physicians, studies focusing on nurses remain limited, leaving a gap in understanding the unique facilitators and barriers they encounter. This study aimed to explore the facilitators and barriers influencing the adoption and use of CDSSs by nurses in hospitals, using an extended Fit Between Individuals, Tasks, and Technology (FITT) framework.
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In indoor comfort research, thermal comfort of care-professionals in hospital environment is a little explored topic. To address this gap, a mixed methods study, with the nursing staff in hospital wards acting as participants,was undertaken. Responses were collected during three weeks in the summer (n = 89), and four weeks in the autumn (n = 43). Analysis of the subjective feedback from nurses and the measured indoor thermal conditions revealed that the existent thermal conditions (varying between 20 and 25 °C) caused a slightly warm thermal sensation on the ASHRAE seven point scale. This led to a slightly unacceptable thermal comfort and a slightly obstructed self-appraised work performance. The results also indicated that the optimal thermal sensation for the nurses—suiting their thermal comfort requirements and work performance—would be closer to‘slightly cool’than neutral. Using a design approach of dividing the hospital ward into separate thermal zones, with different set-points for respectively patient and care-professionals’comfort, would seem to be the ideal solution that contributes positively to the work environment and, at the same time, creates avenues for energy conservation.
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Purpose Worry is an intuitive sense that goes beyond logical reasoning and is valuable in situations where patients’ conditions are rapidly changing or when objective data may not fully capture the complexity of a patient’s situation. Nurse anesthetists’ subjective reasons for worry are quite vague as they are valued inconsistently and not accurately expressed. This study aimed to identify factors playing a role in the emergence of worry during anesthesia practice to clarify its concept. Design Mixed-methods design consisting of quantitative online surveys followed by qualitative focus group interviews including Dutch nurse anesthetists. Methods Both quantitative and qualitative thematic analyses were performed, followed by data and methodological triangulation to enhance the validity and credibility of findings and mitigate the presence of bias. Findings Surveys (N = 102) were analyzed, and 14 nurse anesthetists participated in the focus group interviews. A total of 89% of the survey respondents reported that at least once have had the feeling of worry, of which 92% use worry during clinical anesthesia practice. Worry was mentioned to be a vital element during anesthesia practice that makes it possible to take precautionary actions to change the anesthetic care plan in a changing situation or patient deterioration. Conclusions While a clear definition of worry could not be given, it is a valuable element of anesthesia practice as it serves as a catalyst for critical thinking, problem-solving, clinical reasoning, and decision-making. Use of the feeling of worry alongside technological systems to make an informed decision is crucial. Technology has significantly improved the ability of health care providers to detect and respond to patient deterioration promptly, but it is crucial for nurse anesthetists to use their feeling of worry or intuition alongside technological systems and evidence-based practice to ensure quick assessments or judgments based on experience, knowledge, and observations in clinical practice.
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Background: Due to the globally increasing demand for care, innovation is important to maintain quality, safety, effectiveness, patient sensitivity, and outcome orientation. Health care technologies could be a solution to innovate, maintain, or improve the quality of care and simultaneously decrease nurses’ workload. Currently, nurses are rarely involved in the design of health care technologies, mostly due to time constraints with clinical nursing responsibilities and limited exposure to technology and design disciplines. To ensure that health care technologies fit into nurses’ core and routine practice, nurses should be actively involved in the design process. Objective: The aim of the present study was to explore the main requirements for nurses’ active participation in the design of health care technologies. Design: An exploratory descriptive qualitative design was used which helps to both understand and describe a phenomenon. Participants: Twelve nurses from three academic hospitals in the Netherlands participated in this study. Method: Data were collected from semistructured interviews with hospital nurses experienced in design programs and thematically analysed. Results: Four themes were identified concerning the main requirements for nurses to participate in the design of health care technologies: (1) nurses’ motivations to participate, (2) the process of technology development, (3) required competence to participate (such as assertiveness, creative thinking, problem solving skills), and (4) facilitating and organizing nurses’ participation. Conclusion: Nurses experience their involvement in the design process as essential, distinctive, and meaningful but experience few possibilities to combine this work with their current workload, flows, routines, and requirements. To participate in the design of health care technologies nurses need motivation and specific competencies. Organizations should facilitate time for nurses to acquire the required competencies and to be intentionally involved in technology design and development activities.
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