Annotated Bibliography On Technology In Nursing Learner’s No

Annotated Bibliography on Technology in Nursing Learner’s Name

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. Provide a rigorous, scholarly analysis of current evidence on the impact of the technology on patient safety, quality of care, and the interdisciplinary team. Integrate well-researched evidence into recommendations, and describe organizational factors influencing the technology’s selection and implementation in healthcare settings. Justify the use of the technology based on its impact on healthcare organization, patient outcomes, and team productivity. Follow APA style with proper citations and references.

Paper For Above instruction

Introduction to the Selected Technology Topic

Advancements in healthcare technology have progressively transformed nursing practice, leading to enhanced patient safety and improved quality of care. Among these innovations, pulse oximetry stands out as a pivotal technology widely used across various healthcare settings. Pulse oximeters are noninvasive devices that measure blood oxygen saturation, providing critical data that inform clinical decisions and interventions. The choice of pulse oximetry as a focus of this bibliography stems from its pervasive use in both pediatric and adult care, its proven impact on reducing morbidity and mortality, and its role in early disease detection, notably in congenital heart defects and respiratory illnesses. As a nurse interested in patient safety and quality assurance, exploring peer-reviewed literature elucidates how this technology supports clinical efficacy and interdisciplinary collaboration, justifying its adoption across healthcare institutions.

Research Process and Databases Utilized

To compile relevant scholarly resources, extensive searches were conducted through reputable electronic databases such as CINAHL, PubMed, and Scopus. These platforms provide access to peer-reviewed journals specializing in nursing, medicine, and healthcare technology. Keywords employed included “pulse oximetry,” “patient safety,” “quality of care,” “nursing technology,” “clinical outcomes,” and “interdisciplinary team.” The search was limited to publications within the last five years to ensure current evidence and practices. An initial screening of abstracts identified studies focusing on pulse oximetry’s clinical application, accuracy, organizational impact, and integration within nursing workflows. Selected articles provided comprehensive insights into its benefits, limitations, and implementation considerations, supporting a thorough analysis aligned with the assignment’s scholarly criteria.

Annotated Resources

1. Narayen, I. C., Blom, N. A., Ewer, A. K., Vento, M., Manzoni, P., & te Pas, A. B. (2016). Aspects of pulse oximetry screening for critical congenital heart defects: When, how and why? Archives of Disease in Childhood – Fetal and Neonatal Edition, 101(2), F162–F167.

This study advocates for the implementation of pulse oximetry screening in newborns to detect critical congenital heart defects (CCHD). It emphasizes the technology’s effectiveness, simplicity, and cost-efficiency, showcasing high specificity (99.9%) and a sensitivity averaging 76.5%. The authors highlight that early identification of hypoxemia through pulse oximetry significantly reduces neonatal mortality and morbidity. The relevance to nursing practice is profound, as pediatric nurses and neonatal care teams rely on this technology for timely diagnosis and intervention. This resource underscores the importance of integrating pulse oximetry into standard neonatal screening protocols, providing compelling evidence for its widespread use in enhancing patient safety and improving outcomes. The article’s focus on organizational implementation, training, and early detection aligns with organizational factors necessary for technology adoption.

2. Jubran, A. (2015). Pulse oximetry. Critical Care, 19(1), 272.

This article delves into the technical principles, accuracy, and clinical applications of pulse oximeters, including innovations like multiwavelength devices capable of distinguishing dyshemoglobins. Jubran highlights that multiwavelength pulse oximeters improve diagnostic accuracy, especially in cases of carboxyhemoglobinemia and methemoglobinemia—conditions often encountered in critical care settings. The study presents evidence that continuous pulse oximetry monitoring reduces postoperative pulmonary complications and ICU transfer rates, thereby improving patient safety. It discusses the organizational aspects of integrating advanced pulse oximetry into clinical workflows, including staff training and resource allocation. This resource supports the implementation of high-quality, evidence-based technology to prevent adverse events and enhance interdisciplinary decision-making.

3. Nitzan, M., Romem, A., & Koppel, R. (2014). Pulse oximetry: Fundamentals and technology update. Medical Devices: Evidence and Research, 7, 231–239.

This comprehensive review examines the technical underpinnings of pulse oximetry, addressing measurement techniques, limitations, and recent technological advancements. The authors explain that while pulse oximeters are generally reliable, their accuracy can be compromised in critically ill patients receiving supplemental oxygen or with poor perfusion. They argue that advancements like multiwavelength designs and improved algorithms enhance diagnostic precision. The study emphasizes that noninvasive monitoring with pulse oximetry is integral to early detection of respiratory deterioration, thereby reducing complications. For healthcare organizations, the article advocates for investing in modern pulse oximeters, emphasizing the influence of technological upgrades on staff competency and patient safety.

4. Hendaus, M. A., Jomha, F. A., & Alhammadi, A. H. (2015). Pulse oximetry in bronchiolitis: Is it needed? Therapeutics and Clinical Risk Management, 11, 1573–1578.

This article investigates pulse oximetry’s role in managing pediatric bronchiolitis, a common respiratory condition. It discusses how continuous oxygen saturation monitoring assists clinicians in assessing disease severity, guiding oxygen therapy, and determining discharge readiness. The authors note limitations, such as inaccuracies in cases of hypoperfusion or external light interference, but emphasize that the benefits outweigh the risks. The resource underscores the importance of proper training and organizational policies to maximize accuracy and patient safety. It advocates for integrating pulse oximetry into pediatric nursing protocols, highlighting its impact on reducing hospitalization length and improving clinical outcomes.

5. Conclusion and Organizational Implications

The reviewed literature clearly demonstrates that pulse oximetry significantly enhances patient safety and nursing care quality by enabling early detection of hypoxemia, guiding therapeutic interventions, and reducing complications. Its organizational adoption requires comprehensive training, investment in advanced equipment like multiwavelength devices, and integration into routine workflows. Health care organizations must develop policies that support ongoing staff education, maintenance of equipment, and quality assurance programs. Furthermore, the interdisciplinary team benefits from shared access to real-time saturation data, fostering collaborative decision-making. Justifying its use involves emphasizing its cost-effectiveness, impact on clinical outcomes, and alignment with patient safety goals. Therefore, pulse oximetry remains a vital health care technology that enhances nursing practice and overall healthcare delivery.

References

• Hendaus, M. A., Jomha, F. A., & Alhammadi, A. H. (2015). Pulse oximetry in bronchiolitis: Is it needed? Therapeutics and Clinical Risk Management, 11, 1573–1578.
• Jubran, A. (2015). Pulse oximetry. Critical Care, 19(1), 272.
• Narayen, I. C., Blom, N. A., Ewer, A. K., Vento, M., Manzoni, P., & te Pas, A. B. (2016). Aspects of pulse oximetry screening for critical congenital heart defects: When, how and why? Archives of Disease in Childhood – Fetal and Neonatal Edition, 101(2), F162–F167.
• Nitzan, M., Romem, A., & Koppel, R. (2014). Pulse oximetry: Fundamentals and technology update. Medical Devices: Evidence and Research, 7, 231–239.