PurposeDescribe the evolution of implementation science and the roles and potential collaborations of doctorally prepared nurses to advance implementation science in practice settings.MethodsReview of academic preparation and areas of expertise for doctorally prepared nurses as it relates to implementation science and evidence‐based practice (EBP).FindingsThere have been substantial gains in the number of academic programs in healthcare that include content on EBP, resulting in healthcare teams that are motivated to align practices with best evidence. Unfortunately, many EBP initiatives stall during early stages of implementation, resulting in fragmented practices and persistent gaps between evidence and practice. Implementation science aims to bridge this gap and provides a structured, science‐based approach to implementation. Few healthcare teams are familiar with implementation science, and many do not incorporate knowledge from the field when implementing EBPs. Doctorally prepared nurses are in a unique position to serve as leaders in EBP implementation due to the breadth and depth of academic preparation and their pivotal roles across practice settings.ConclusionsCollaboratively aligning existing strengths of PhD and DNP prepared nurses with knowledge of implementation science can advance implementation of EBP across practice settings to effectively incorporate and sustain meaningful change to improve outcomes.Linking Evidence to Action sectionDoctorally prepared nurses are in a unique position to advance and apply the science of implementation in practice settings. Nurse scientists can generate evidence on effective strategies and outcomes among healthcare teams to successfully integrate evidence based practices into routine care. Nurse leaders and educators can apply these findings and use an implementation science approach when leading clinical teams in evidence‐based practice changes.
We describe a care delivery model in which one hospital in a larger health system was dedicated exclusively to treatment of COVID-19 patients. This allowed for rapid training, conservation of resources and promoted safety of healthcare workers, demonstrated by no healthcare worker exposures due to improper personal protective equipment use.
This was an open-label, randomized clinical trial comparing the effects of thermomechanical stimulation (Buzzy) versus no intervention in 105 adults undergoing intravenous (IV) catheter insertion before elective orthopedic surgical procedures. A visual analog scale was used to measure pain; satisfaction questionnaires were administered after IV catheter insertion. There was no significant difference in the mean pain score between the experimental (n = 49) and control (n = 56) groups (2.52 vs 2.43, P = .86). Subjects who reported higher preprocedure anxiety benefited most from the test intervention. It was determined that the application of cold and vibration is not universally effective for pain prevention during IV catheter insertion or for improvement in patient satisfaction in preoperative care.
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