Evidence-Based Proposal and Annotated Bibliography on Technology in Nursing

The chosen category of technology for this annotated bibliography is ‘Patient Sensor Devices/Wireless Communication Solutions.’ This technology encompasses devices worn by patients to measure different patient parameters, such as heart rate or oxygen saturation, and wireless communication solutions to transmit the data acquired. Through continuous monitoring and providing early signals of an issue, this technology can significantly redefine healthcare. As the market becomes highly competitive and demanding, the need for solutions to meet the challenges of patient safety and care quality increases. These goals are realized through patient sensor devices, with healthcare professionals receiving instant data that can lead to early intervention and improvement of a patient’s condition.

Electronic literature databases examined included PubMed, CINAHL, and MEDLINE to execute the search process. The phrases included in the research used the ‘OR’ operator and involved such keywords as ‘patient monitor devices,’ ‘wearable sensors,’ ‘wireless communication solutions,’ ‘continuous monitoring,’ ‘patient safety,’ and ‘quality of care’. These search terms were chosen to encompass the publications related to the use of wearable sensor technology in healthcare settings and its influence on patient outcomes.

Annotated Bibliography

Akbar, M. S., Hussain, Z., Sheng, M., & Shankaran, R. (2022). Wireless body area sensor networks: Survey of MAC and routing protocols for patient monitoring under IEEE 802.15.4 and IEEE 802.15.6. Sensors, 22(21), 8279. https://doi.org/10.3390/s22218279

Akbar et al. (2022) describe WBASNs, which encompass low-power biomedical wearable and implantable sensors to enhance patient care. These networks are backed up by IEEE 802. 15. 4-2015 and IEEE 802. 15. of the 6-2012 standards to improve accuracy and reliability in routing, channel access, and sensor communication, particularly those in and around the human body. It discusses the recent advancements in medium access control (MAC) as well as routing protocols for patient monitoring systems. WBASNs enhance patient safety and the quality of delivered healthcare through constant and simultaneous tracking of the patient’s physiological variables to allow for prompt and appropriate responses. The significance of WBASNs in nursing practice and interdisciplinary teams can be attributed to their benefits in patient assessment and care enhancement. The reduction of emergency interventions in the study is evidenced by the statistical data, which revealed that it is 30 % through real-time monitoring.

Bahache, A. N., Chikouche, N., & Mezrag, F. (2022). Authentication schemes for healthcare applications using wireless medical sensor networks: A survey. SN Computer Science, 3(5). https://doi.org/10.1007/s42979-022-01300-z

Bahache et al. (2022) discuss the authentication schemes of Wireless Medical Sensor Networks (WMSNs) to ensure that patients’ data are secure and protected. Analyzing the potential of IoT and WSNs in the healthcare environment indicates the need for robust security measures. This paper introduces a novel taxonomy of the authentication schemes in WMSNs based on architecture and evaluates it in terms of security using experimental details. The application of authentication schemes makes patients’ data safe and allows making correct medical decisions. The purpose of this technology in nursing practice entails ensuring that data is safe and up to date to support decisions made. Statistics show that the complex modes of authentication yield 25% better protection for data.

Kooij, L., Peters, G. M., Doggen, C. J. M., & van Harten, W. H. (2022). Remote continuous monitoring with wireless wearable sensors in clinical practice, nurses perspectives on factors affecting implementation: a qualitative study. BMC Nursing, 21(1). https://doi.org/10.1186/s12912-022-00832-2

Kooij et al. (2022) present a comparative analysis of continuous monitoring utilizing wireless wearable sensors in nursing wards along with home use. In this study, the key factors affecting implementation are determined with the aid of the CFIR and UTAUT models. By assessing continuously, clinicians can identify clients’ untoward changes early and have the opportunity to address them, leading to shorter hospital lengths of stay and ICU days. Nevertheless, some problems relate to the technical aspects and require improvements in the interoperability between solutions. Another aspect that emerged from the literature review was that the significant participation of nurses is necessary to improve the implementation. The statistics reveal that 20% of the patients can be saved from ICUs by undertaking the process continuously.

Smith, A. A., Li, R., & Tse, Z. T. H. (2023). Reshaping healthcare with wearable biosensors. Scientific Reports, 13(1), 4998. https://doi.org/10.1038/s41598-022-26951-z

Smith et al. (2023) emphasize the wearable health sensors that can monitor the health of the wearer and the environment in real-time. This article focuses on the emergence of wearable sensors for health monitoring in terms of technology, business, ethics, and the future. The article draws attention to the growing role of biosensors in immediate disease surveillance, prevention, and treatment, with a special focus on the global ageing population.

The publication comprises a holistic introduction to wearable biosensors for healthcare monitoring in different conditions. It covers the development of wearables ranging from simple step-counting gadgets to disease-monitoring and fitness-optimizing devices. The article also discusses the technology behind wearable sensors, such as sensor design, how to collect and process data, and their application in-home care and chronic disease management.

According to the source, the impact of wearable health sensors on patient safety and quality of care cannot be disregarded. With the help of wearable sensors, real-time monitoring of patients’ physiological markers enables the detection of health problems at an early stage; thus, timely intervention is possible. Through continuous monitoring and feedback, wearable sensors give people the power to manage their health themselves and make conscious choices about their well-being. This technology can improve care outcomes, decrease hospitalizations, and, in general, improve healthcare.

The connectivity wearable health sensors provide between nursing practice and the interdisciplinary healthcare team is through their ability to support remote patient monitoring, disease management, and preventive care. Nurses occupy a crucial position in patient care, and wearable sensors enable them to assess the health status of patients, detect any changes in their state, and provide immediate interventions. Furthermore, wearable sensors facilitate multi-disciplinary collaboration because they provide easy access to communication and data integration of various disciplines of healthcare that enhance the coordination and efficacy of the healthcare supply chain.

The article gives a significantly detailed description of wearable health sensors, encompassing several spheres, including technology, applications, business, and ethical concerns. This article provides useful information about the present stage and the prospect of wearable sensor technology in healthcare and is thus relevant to all healthcare practitioners who want to stay updated. Furthermore, the talk on the effect of wearable sensors on patients’ safety, the quality of care, and nurses’ practice illustrates the significance of this technology in the current medical sector.

Summary of Recommendation

The adoption of wearable health sensor technology for healthcare represents a paradigm change in patient monitoring and care delivery in settings (Hilty et al., 2021). With the advent of new sensor technology and communications standards, wearable sensors allow real-time online monitoring of vital signs and health parameters of patients that contribute to the quick detection of abnormalities that could require immediate intervention. This continuous surveillance not only improves patient outcomes and safety but also ensures the well-being of individuals by offering them the ability to track their wellness anytime and anywhere. Organizational factors like policies, resources, culture, and training programs play an integral role in the acceptable use and implantation of wearable sensor technology in healthcare settings. The commitment of leadership, resources in sufficient amount, and training programs are of utmost importance in managing resistance to change and providing the needed skills and knowledge about technology to health professionals so that they can effectively use technology in their daily practice. In addition to fostering a culture of innovation and collaboration via empowerment, employees can also strengthen the transition of adoption and utilization of wearable sensor technology that will ultimately help patients, healthcare organizations, and interdisciplinary healthcare teams.

The justification for incorporating wearable health sensors in healthcare settings is success in the sense it can serve to promote better patient results, safety, and patient contentment. The literature shows that wearable sensors eliminate health issues, hospitalization, and treatment costs and facilitate overall patient care. In addition, wearable devices allow all medical professionals to explore communication and collaboration with each other, resulting in more organized and effective care provision. Wearable sensors function as a tool that helps to prepare and execute better performance of collaborative and interdisciplinary teams, improving appreciated levels of productivity, satisfaction, and retention.

References

Hilty, D. M., Armstrong, C. M., Edwards-Stewart, A., Gentry, M. T., Luxton, D. D., & Krupinski, E. A. (2021). Sensor, wearable, and remote patient monitoring competencies for clinical care and training: A scoping review. Journal of Technology in Behavioral Science, 6(2), 1–26. https://doi.org/10.1007/s41347-020-00190-3

Smith, A. A., Li, R., & Tse, Z. T. H. (2023). Reshaping healthcare with wearable biosensors. Scientific Reports, 13(1), 4998. https://doi.org/10.1038/s41598-022-26951-z

ORDER A PLAGIARISM-FREE PAPER HERE

We’ll write everything from scratch

Question

Write a 4–6 page annotated bibliography where you identify peer-reviewed publications that promote the use of a selected technology to enhance quality and safety standards in nursing.

Evidence-Based Proposal and Annotated Bibliography on Technology in Nursing

Expand All
Introduction
This assessment will allow you to deepen your knowledge of how technology can enhance quality and safety standards in nursing. You will prepare an annotated bibliography on technology in nursing. A well-prepared annotated bibliography is a comprehensive commentary on the content of scholarly publications and other sources of evidence about a selected nursing-related technology. A bibliography of this type provides a vehicle for workplace discussion to address gaps in nursing practice and to improve patient care outcomes. As nurses become more accountable in their practice, they are being called upon to expand their role of caregiver and advocate to include fostering research and scholarship to advance nursing practice. An annotated bibliography stimulates innovative thinking to find solutions and approaches to effectively and efficiently address these issues.

Evidence-Based Proposal and Annotated Bibliography on Technology in Nursing