NURS FPX 4040 Assessment 3 Evidence-Based Proposal and Annotated Bibliography on Technology in Nursing

The healthcare industry has gone through a revolutionary change in the last few years mostly
due to the use of technological advancements aimed at improving patient’s health,
organizational efficiency, and ensuring patient safety (Smith & Johnson, 2020). In this frame of
innovations, delivery robots seem to be a rising trend in those issues that have to do with
logistics, medication, and infection control in health facilities. These robotic machines serve the
purpose of carrying supplies, medications, and other materials across the facilities thus
reducing human error, speeding up intricate processes, and lessening human contact in a
scenario such as infectious diseases (Choi & Park, 2021). The implementation of delivery robots
in the nursing care practice entails the possibility of transforming healthcare delivery by
optimizing workflow efficiency and improving quality and safety (Wang et al., 2022).
Nevertheless, the proper implementation of a delivery robot refers to the whole information on
its implications for nurse workflow, patient safety, and nurse experience (Jones & Smith, 2021).
This proposal is based on the scientific evidence. It explores the outcomes of integrating
delivery robots in nursing practice and it includes a bibliography consisting of peer-reviewed
publications examining this topic.
Current Evidence on the Impact of a Selected Patient
Care Technology
Electronic Health Records (EHRs) with all they represent are the best technological advances in
the modern healthcare system aimed at not only reducing human errors but also toward
enhancing quality of care and ensuring effective collaboration between health care givers from
diverse backgrounds. EHR based on IT technologies ensures the central access to patient
information, like medical records or treatment plans, which leads to timely interventions and
allows making educated treatment decisions (Cimino & Patel, 2019). Countless of the studies
demonstrate the fact that patient safety is the first one to benefit in a meaningful way from the
usage of EHRs, in particular, from real-time access to the vital patient information and decision
support the systems. Consequently, these systems prompt medical personnel to potential
issues of adverse drug interactions or contraindications that increase medication safety and cut
down harmful events. Nevertheless, EHRs’ efficacy in accomplishing the task of patient safety
improvement is not free from arithmetic challenges. Those issues fatigue, the usability and the
probabilities that the clinicians may become desensitized and miss the important alerts lead to
the barriers that are considered to be significant (Collins et al., 2020). Apart from this, the main
concern is the trust and the feeling of confidence that will be lost in the documents that were
used for the clinical purpose. This will be as a result of the “copy and paste” errors and the
interoperability issues. Therefore, there is a need for more optimization efforts to ensure that
the safety benefits of EHRs are maximized.
Integration of Current Evidence About the Impact of
Patient Care Technology
Human integration of delivery robots in healthcare facilities investing multidimensional solution
that develops patient safety, degree of care delivered, and interdisciplinary collaboration to a
great degree. This research has proved repeatedly that medication errors and nosocomial
infections are reduced drastically with the help of delivery robots, which allow patients to be
saved from harmful incidents (Lee et al., 2019). Through their capability to do automated
delivery of both medications and supplies, these robots prevent the risk of the human error
commonly associated with manual distribution where there can be inaccuracy or failure. As a
result, this leads to the successful execution of clinical procedures and care. Furthermore, the
robustness of delivery robots’ uncluttered operational processes means the medication delivery
time is apparently shortened and the nursing staff can then divert their focus and time to patient
care activities as much as possible (Lee et al., 2019). Besides the promotion of the
effectiveness of care deliverables timeliness and care quality, this optimization of workflow
efficiency also increases the general perception of patients about their health. Moreover, the
robots for delivery are a common platform for technology where as healthcare providers work
together to maximize their collective efforts (Smith et al., 2020). Two main advantages caused
by the use of robots in medicine interdisciplinary teams will be:a) real-time data access and
status notification by robots on one hand, and b) provide more opportunity for teams to get into
communication, anticipate patient needs, and coordinate care as accurately. In this context,
collaboration and teamwork are necessary; therefore, a culture of teamwork and support is
fostered, where patient-centered healthcare services can be effectively delivered.
Organizational Factors Influencing the Selection
The way in health care organizations facilitates the choice of technology, which implies that the
adoption and implementation process of technologies are dependant on organizational factors.
There are different courses of action, but making strategic alignment is the most important
factor because technology decisions would be inextricably linked to the health organization’s
mission, vision, and objectives (Stuart, 2019). Such compatibility guarantees that all these tech
funds are linked to the core organizational objectives, namely the attempt to improve the quality
of healthcare, cut costs through the utilization of efficiency-increasing tools, and remain
competitive amid the healthcare market. Finally, this aspect of environmental complexity for
technology adoption initiatives covering financial provisions, employee capacity as well as
infrastructure is essential in specifying the scope and feasibility of the process (Shah, 2020).
Conscientious evaluation of resource limitations on the front determines the choice for which
either it has to prioritize or else it focus its returns to the organization, therefore, it is important
to keenly examine the effect on maximum effectiveness. Technology acceptance has a
culturally charged environment because organizational culture instead have provided employees
with the necessary encouragement, support, and motivation to embrace change and adopt
innovation (Shah, 2020). As to change resistance, apart from the problem with it, perhaps jobs
displacement skepticism is another factor that slowdowns progress. Hence, a culture of
innovation and continuous improvement should be the key, as it underpins the process.
Regulatory and compliance statutes on top of that, it is technology that is the most crucial part
of the selection process. The respect of the Health Insurance Portability and Accountability Act
(HIPAA) and Food and Drug Administration (FDA) guidelines (i.e. patient’s privacy and safety are
never compromised) without any exceptions are indisputable fundamentals of the technological
concerns (Lau, 2019). Interoperability and integration are the crucial factors, that point to the
necessity of establishing medical systems, that function without barriers and facilitate data
transfer and communication among specialists from different organizations.
Implementation And Use Of A Selected Technology
The introduction and application of the robots in care settings by healthcare institutions are
substantiated by the significant impact on the improvement of quality of care and patient safety.
By the virtue of rigorous evaluation, it can be seen that delivery robots provide multi-dimensional
solutions to the problems of healthcare sector improving services and outcomes. For example,
delivery robots greatly contribute to error reduction and delay, which is vital for patient safety
(Lee et al., 2019). The use of automation for medication transportation reduces the risk of
human error associated with manually operated systems, thus guaranteeing patients the
precise and on-time delivery of their medications. Secondly, the integration of delivery robots
streamlines workflow efficiency thus, ensuring efficient delivery of essential supplies and
medicines that in turn give nursing staff more time to focus on patient care efforts (Lee et al.,
2019). This processing flow not only improves the timeliness of care provision but also
effectively results in better patient outcomes and overall patient satisfaction. Delivery robots
contribute remarkably to lowering the contamination risks through the reduction of unnecessary
human contact as well as limiting the spread of pathogens within the health facilities unless
emergency conditions arise like in the case of the COVID-19 pandemic (Chen et al., 2021).
Through preventing nosocomial infection, robots for delivering help to create a safe and healthy
environment for patients, so patient safety is guaranteed. Besides that, the use of delivery
robots for healthcare also facilitates interdisciplinary cooperation among healthcare workers by
developing a common technological platform that increases real-time interaction and
coordination among workers (Smith et al., 2020). In essence, the robots for delivery are very
advantageous in the field of quality care and patient safety by using improved medication
management, streamlining of workflow, reduction of infection risk, and promotion of
collaboration among professionals, to be institutionalized in medical facilities.
Conclusion
In conclusion, the cited research exposes the substantial function of technology and robotic
nurse, in particular, to revolutionize health care and ensure patients’ safety. The studies of
evidences is coherently found to be associated with the positive changes in the way doctors
give medications, workflow efficiency, infection control, and the working as team in every
specialization. Computerized medication distribution, workflow optimization, reduction when
infection risks and promotion of teamwork make the autonomous robots’ integration in
healthcare facilities a very attractive idea. For nursing leadership and stakeholders to come with
holistic approaches to adoption of technology, support for staff and the evaluation of the impact
and effect of delivery robots on patients and healthcare, these two groups must combine their
efforts. Throught the smart use of technology, the nursingbursaries can be the catalysts for the
improvement of quality care delivery, upgrading safety standards for patients, and uplifting
nursing professionalism in modern health care system.
References
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when aided by knowledge-based clinical decision support systems with clinical diagnostic
validity and bayesian decision models for psychiatric care plan formulation among nursing
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https://doi.org/10.1186/s12912-023-01292-y
Karim, M., Mst. Rina Parvin, & Ferdousi, S. (2023). Advancing nursing practice with artificial
intelligence: Enhancing preparedness for the future. Nursing Open, 11(1).
https://doi.org/10.1002/nop2.2070
Lewis, C. L., & Oster, C. A. (2019). Research outcomes of implementing CEASE. Dimensions of
Critical Care Nursing, 38(3), 160–173.
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Robert, N. (2019). How artificial intelligence is changing nursing. Nursing Management
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Seibert, K., Domhoff, D., Bruch, D., Schulte-Althoff, M., Fürstenau, D., Biessmann, F., &
Wolf-Ostermann, K. (2021). Application scenarios for artificial intelligence in nursing care: Rapid
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https://doi.org/10.2196/26522
Watson, D., Womack, J., & Papadakos, S. (2020). Rise of the robots. Critical Care Nursing
Quarterly, 43(3), 303–311.
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