With the progressive improvement of technology, research programs in the healthcare industry have become much easier and more reliable in providing healthcare providers with avenues to learn more about healthcare-related issues and technologies that can be adapted to provide long-term solutions to such challenges (Boikanyo et al., 2023). it must be understood that technologies such as Patient Sensor Devices/Wireless Communication Solutions are among the novel technologies in the healthcare sector that are used in promoting better management of a wide range of health issues, including diabetes and high pressure, that require real-time monitoring to prevent their worsening, according to the study conducted by sciencedirect.com. Wireless sensors and wireless communication are essential healthcare technologies that help patients, healthcare professionals, and caregivers collect, record, and share a wide range of health-related information to facilitate effective and real-time patient monitoring. Additionally, technologies such as sensors, wearable and implantable, and non-contact are utilized in healthcare facilities during data acquisition (Boikanyo et al., 2023). Recently, more advanced technology for remote patient monitoring has been adopted in all healthcare settings to improve the timely delivery of healthcare services to people affected with chronic health issues and perhaps have several comorbidities that make it hard for such people to visit healthcare facilities daily for in person-person. Utilization of Patient Sensor Devices such as blood pressure cuffs, blood pressure monitoring, and glucometer in measuring and recording patient’s blood. Note that the selection of patient sensors or wire communication devices as the primary focus can be attributed to the interest in learning more about how such devices can promote interdisciplinary collaboration and effective communication between patients and healthcare providers. The most interesting fact about the selected technology is that it is essential to encourage monitoring patients and follow-ups together without physical meet-ups and minimize the chances of missed patient appointments or schedules. The reach approach includes selecting keywords such as wireless communication, patient sensor devices, telehealth technologies, and the impacts of patient sensor devices on improving patient safety and quality of healthcare services. The research process employed is the CRAAP approach, which standards for Currency, Relevance, Authority, Accuracy, and Purpose. This will be used to assess the credibility, reliability, authority, and relevance of the selected peer-reviewed articles to review and create an annotated bibliography (Boikanyo et al., 2023). The databases that will be considered for the section of peer-reviewed articles for preparation of the annotated bibliography include Embase, JBI EBP Database, ClinicalKey Nursing, The Cochrane Library, and ClinicalKey. Based on the requirements for this assessment, the report will focus on discussing more Patient Sensor Devices/Wireless Communication Solutions and the critical benefits of such technologies in treating and managing acute and chronic health issues. The report will also generate more insights on organizational factors that impact the selection, adoption, and implementation of a wide range of Patient Sensor Devices, along with the provision of reasons for the need for the implementation and using patient sensor devices, especially in the management of cardiovascular disease, heart disease, diabetes, and high blood pressure (Boikanyo et al., 2023). Finally, the people will provide an evidence-based annotated bibliography on the selection, adoption, and implementation of patient sensor devices or wireless communication solutions, along with a summary of the insights gained from the bibliographies.
Impact of Patient Sensor Devices/Wireless Communication Solution on Patient Safety, Quality of Care, and the Interdisciplinary Team
The adoption, implementation, and utilization of patient sensor devices or wireless communication solutions have improved the quality of care services. Such technologies have made it for patients with long-term illnesses such as high blood pressure. One of the impacts of patient sensor devices in the healthcare sector is that they improve patient-nurse communication in real time. This promotes better change management in seniors when patient treatment response is slow or ineffective. This ensures that patient monitoring is achieved with ease. Effective communication facilitates the sharing of ideas between nurses and patients and among these interdisciplinary teams. This minimizes potential challenges such as medication errors (Budiyarto et al., 2022). Another impact of using patient sensor devices also these technologies are essential to healthcare facilities as they not only promote real-time patient monitoring and provision of timely, quality, and patient-centered services but also help reduce unnecessary patient admission, thereby saving resources for use in severe cases (Budiyarto et al., 2022). Patient sensor device utilization also minimizes patients’ need to travel for in-person clinical visits for clinical checkups. This saves time and costs in accessing healthcare services (Budiyarto et al., 2022). By reducing unnecessary patient admissions, these technologies also help minimize the cost of hospital-acquired care by improving patient safety and quality of healthcare services and increasing accessibility of healthcare services by senior patients from the comfort of their homes.
Organizational Factors Influencing the Selection of Patient Sensor Devices
Before implementing any technology in a healthcare organization, there is a need to assess a wide range of technology qualities concerning organizational needs to ensure that the adopted technology provides reliable services with the animal cost of maintaining it ((Darwish & Hassanien, 2021). Note that myriad organizational factors select patient sensor devices and wireless communication solutions to be adopted and used in healthcare settings. Performance requirements and organization needs are among the factors to consider before selecting patient sensor devices and wireless communication solutions. This implies that the chosen technology should be efficient and reliable in executing the organization’s technological needs concerning patient safety and improving the quality of healthcare services ((Darwish & Hassanien, 2021). Based on this, it is important to consider the communicational performance requirements of the patient sensor devices to be selected before implementing them. Secondly, it is also wise to consider organizational culture in terms of available expertise to facilitate the utilization of such technology. Factors such as an organization’s cybersecurity compliance policy also influence the selection and implementation of patient sensor devices in healthcare facilities. Note that to achieve a stringent requirement such as enhanced performance, security, privacy, and spectrum usage, organization seed to adopt a flexible hybrid optical-radio wireless network to facilitate the transmission and receiving of optical, radio, or both signals ((Darwish & Hassanien, 2021). Another factor is nurses’ perspectives, influenced by their experiences with continuous monitoring using wireless wearable sensors in the nursing ward.
Justification of the Implementation and Use of Patient Sensor Devices/Wireless Communication Solutions in A Healthcare Setting
Implementing wireless communication solutions for patient sensor devices in healthcare facilities is justifiable because of the enormous benefits associated with such technologies. For example, utilization of patient sensor devices such as glucometers effectively increases healthcare access in seniors with chronic diabetes. Adopting and effectively implementing patient sensor devices is essential in healthcare facilities as the technology empowers patients to take self-control and manage their health issues (Darwish & Hassanien, 2021). For example, using blood pressure cuffs and glucometers or continuous glucose monitoring systems is also crucial in monitoring patient glucose status to help develop better treatment approaches whenever the levels are detected to rise above the acceptable levels. Implementing patient sensor devices and wireless communication solutions ensures that healthcare facilities can conserve supplies and bed spaces for critically ill patients and avoid misuse of resources.
Annotated Bibliography
Boikanyo, K., Zungeru, A. M., Sigweni, B., Yahya, A., & Lebekwe, C. (2023). Remote patient monitoring systems: Applications, architecture, and challenges. Scientific African, 20, e01638. https://doi.org/10.1016/j.sciaf.2023.e 01638
The article focuses on various remote patient monitor systems, their architecture, and their uses in healthcare facilities. According to the author, these technologies have become crucial in the provision of virtual healthcare services to patients living in remote areas. The technology ensures that patients are always connected with primary care providers to facilitate continuous patient education and monitoring of vital signs before engaging patients in various treatment regimens (Boikanyo et al., 2023). Also, the author argues that with the adoption of a wide range of remote patient monitoring. The article also states that despite the numerous contributions of patient sensor devices or remote patient monitoring systems in the healthcare sector, several challenges are associated with these technologies. Among these challenges are mobility health issues of heterogeneous networks and the lack of better ways to standardize remote patient monitoring systems.
Darwish, A., & Hassanien, A. E. (2021). Wearable and Implantable wireless sensor network solutions for healthcare monitoring. Sensors, 11(6), 5561-5595. https://doi.org/10.3390/s110605561
This article aims to provide readers with adequate insights into the uses and benefits of implantable wireless and wearable sensor network solutions in promoting remote patient monitoring. Additionally, the authors offer a comprehensive overview of the importance of adopting technologies such as body sensor networks in healthcare facilities to enhance real-time patient monitoring and provide time healthcare services to patients with critical illnesses (Darwish & Hassanien, 2021). The author discusses why healthcare providers should implement body network sensor networks to facilitate patient health monitoring. This can be achieved by attaching the said sensor to the body of a patient to help capture essential patient health data such as vital signs and blood pressure, an aspect that enables healthcare providers to make informed decisions and perhaps initiate appropriate treatment regimens that best suit the health needs of their clients (Darwish & Hassanien, 2021).
Jabeen, T., Jabeen, I., Ashraf, H., Ullah, A., Janghi, N., Ghoniem, R. M., & Ray, S. K. (2023). Smart wireless sensor technology for healthcare monitoring systems using cognitive radio networks. https://doi.org/10.20944/preprints202306.0113.v1
The article explains how intelligent wireless sensor technology can be employed in healthcare facilities to promote better management of serious health issues through cognitive radio networks. The author asserts that to achieve better use of intelligent wireless sensor technology; programmable interfaces must be used to promote better monitoring of the patient’s health needs. As per this article, nurse informaticists and other specialists in information technology within the healthcare sector should work together to ensure clinical nanosensors (Jabeen et al., 2023). The essence of this sensor is to collect health-related information from a patient body and share it with biomedical viewers. The author, however, asserts that sharing such sensitive data requires healthcare professionals to work with the IT team to install reliable cyber security risk mitigation measures to avoid data leakage and access by unauthorized parties.
JT, T., V, A. M., Singh, M., B, M., & Kaveri, N. (2021). A survey on instantaneous data transmission in wireless sensor networks for healthcare monitoring. https://doi.org/10.21203/rs.3.rs-173273/v1
The article aims to assess the types and roles of various wireless sensor devices in treating and severely managing health issues like heart disease and diabetes. The article suggested that healthcare facilities should focus on implementing a patient monitoring framework capable of gathering, sharing, and monitoring patients’ perceptual conditions (JT et al., 2021). The merits of using advanced technologies with IoT is that it allows patients to work and even move around far from beds and even their homes without restrictions. Still, traditional health monitoring systems often confine patients to bed due to the substantial equipment connected to bedside monitors (JT et al., 2021). This dramatically affects patients’ mobility, and therefore, the author urges healthcare organizations to adopt the most current and much-advanced patient wireless devices for easy and effective provision of healthcare services.
Conclusion
In summary, the implementation of technologies mentioned in the annotated bibliography is vital for healthcare facilities as it supports specialties, especially cardiologists and psychiatrists, to provide care services to patients with critical health needs that involve cardiovascular care to achieve better patient follow-ups through virtual home visits and use of smartphone-based rehab exercise along with healthcare provider aided consultations at satellite clinics.
References
Boikanyo, K., Zungeru, A. M., Sigweni, B., Yahya, A., & Lebekwe, C. (2023). Remote patient monitoring systems: Applications, architecture, and challenges. Scientific African, 20, e01638. https://doi.org/10.1016/j.sciaf.2023.e01638
Budiyarto, A., Salam, A., & Naufal, B. (2022). Design system of structural health monitoring system using wireless sensor network. Proceedings of the 5th International Conference on Applied Science and Technology on Engineering Science. https://doi.org/10.5220/0011821400003575
Darwish, A., & Hassanien, A. E. (2021). Wearable and Implantable wireless sensor network solutions for healthcare monitoring. Sensors, 11(6), 5561-5595. https://doi.org/10.3390/s110605561
Jabeen, T., Jabeen, I., Ashraf, H., Ullah, A., Jhanjhi, N., Ghoniem, R. M., & Ray, S. K. (2023). Smart wireless sensor technology for healthcare monitoring systems using cognitive radio networks. https://doi.org/10.20944/preprints202306.0113.v1
Janjua, M. B., Duranay, A. E., & Arslan, H. (2020). Role of wireless communication in healthcare system to cater disaster situations under 6G vision. Frontiers in Communications and Networks, 1. https://doi.org/10.3389/frcmn.2020.610879
JT, T., V, A. M., Singh, M., B, M., & Kaveri, N. (2021). A survey on instantaneous data transmission in wireless sensor networks for healthcare monitoring. https://doi.org/10.21203/rs.3.rs-173273/v1
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