NUR 514 Emerging Technology Brief
Grand Canyon University NUR 514 Emerging Technology Brief – Step-By-Step Guide
This guide will demonstrate how to complete the Grand Canyon University NUR 514 Emerging Technology Brief assignment based on general principles of academic writing. Here, we will show you the A, B, Cs of completing an academic paper, irrespective of the instructions. After guiding you through what to do, the guide will leave one or two sample essays at the end to highlight the various sections discussed below.
How to Research and Prepare for NUR 514 Emerging Technology Brief
Whether one passes or fails an academic assignment such as the Grand Canyon University NUR 514 Emerging Technology Brief depends on the preparation done beforehand. The first thing to do once you receive an assignment is to quickly skim through the requirements. Once that is done, start going through the instructions one by one to clearly understand what the instructor wants. The most important thing here is to understand the required format—whether it is APA, MLA, Chicago, etc.
After understanding the requirements of the paper, the next phase is to gather relevant materials. The first place to start the research process is the weekly resources. Go through the resources provided in the instructions to determine which ones fit the assignment. After reviewing the provided resources, use the university library to search for additional resources. After gathering sufficient and necessary resources, you are now ready to start drafting your paper.
How to Write the Introduction for NUR 514 Emerging Technology Brief
The introduction for the Grand Canyon University NUR 514 Emerging Technology Brief is where you tell the instructor what your paper will encompass. In three to four statements, highlight the important points that will form the basis of your paper. Here, you can include statistics to show the importance of the topic you will be discussing. At the end of the introduction, write a clear purpose statement outlining what exactly will be contained in the paper. This statement will start with “The purpose of this paper…” and then proceed to outline the various sections of the instructions.
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How to Write the Body for NUR 514 Emerging Technology Brief
After the introduction, move into the main part of the NUR 514 Emerging Technology Brief assignment, which is the body. Given that the paper you will be writing is not experimental, the way you organize the headings and subheadings of your paper is critically important. In some cases, you might have to use more subheadings to properly organize the assignment. The organization will depend on the rubric provided. Carefully examine the rubric, as it will contain all the detailed requirements of the assignment. Sometimes, the rubric will have information that the normal instructions lack.
Another important factor to consider at this point is how to do citations. In-text citations are fundamental as they support the arguments and points you make in the paper. At this point, the resources gathered at the beginning will come in handy. Integrating the ideas of the authors with your own will ensure that you produce a comprehensive paper. Also, follow the given citation format. In most cases, APA 7 is the preferred format for nursing assignments.
How to Write the Conclusion for NUR 514 Emerging Technology Brief
After completing the main sections, write the conclusion of your paper. The conclusion is a summary of the main points you made in your paper. However, you need to rewrite the points and not simply copy and paste them. By restating the points from each subheading, you will provide a nuanced overview of the assignment to the reader.
How to Format the References List for NUR 514 Emerging Technology Brief
The very last part of your paper involves listing the sources used in your paper. These sources should be listed in alphabetical order and double-spaced. Additionally, use a hanging indent for each source that appears in this list. Lastly, only the sources cited within the body of the paper should appear here.
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Sample Answer for NUR 514 Emerging Technology Brief
Despite uncertainties concerning the future, embracing and deploying technological advancements is important for creating and developing sustainable healthcare systems and creating more effective treatments for healthier populations and communities. Artificial intelligence is allowing providers to improve diagnostics and other aspect of healthcare (Ali et al., 2023). Machine learning as a form of artificial intelligence (AI) helps providers to analyze CT scans in the treatment of the effects of emerging and reemerging diseases like the coronavirus disease of 2019 (COVID-19). The purpose of this brief paper is to discuss artificial intelligence as an emerging technology in healthcare provision.
Purpose of Artificial Intelligence as an Emerging Technology
Artificial intelligence systems can analyze patterns in a patient’s medical history and present health data to predict possible health risks. The predictive capability of AI enables healthcare providers to offer preventive, proactive and ultimately leads to better patient outcomes and reduced cost of care (Alowais et al., 2023). AI algorithms can mine medical records, design treatment plans, and develop drugs faster than other components. Artificial intelligence improves cancer diagnostics, especially in biopsy and cell mutations. AI algorithms can improve the personalization of care by giving physicians insights into disease patterns and treatment strategies.
Artificial intelligence improves access to care as it ensures effective diagnosis of different medical conditions. Furthermore, providers leverage AI to develop tools for remote care for patients in rural areas and with difficulties in accessing care (Junaid et al., 2022). Technology promotes patient safety by enhancing accuracy in diagnoses. AI encourages precision or personalized care which improves the quality of care.
Ethical and Legal Issues in Incorporating Artificial Intelligence
The integration of artificial intelligence implores health organizations and providers to consider legal and ethical aspects. Firstly, the privacy and confidentiality of patient health information are core ethical issues when incorporating AI. Healthcare providers should protect patient information and never disclose it without informed consent (Bajwa et al., 2021). Again, the ethical issues of integrity and transparency are essential. Legal provisions like the Health Information Portability and Accountability Act (HIPAA), HITECH, and Affordable Care Act mandate health organizations and providers to protect health information. Breaching these mandates can lead to legal suits and disciplinary measures. Therefore, using AI implores providers to consider these aspects and adhere to them.
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Role of Nurse Informatics in Artificial Intelligence
Nursing informatics plays a critical role in artificial intelligence use in healthcare. The nurse informaticists train nurses on the use of AI, gather system requirements, and help design a system that meets consumer and end-user needs (McGonigle et al., 2024). The input from the nurse informaticist ensures that software vendors develop an effective system that integrates different components of care provision for effective delivery and quality outcomes.
Concepts in Artificial Intelligence
Workflow analysis, human factors, and user-centered design concepts in artificial intelligence are critical to its effective deployment in healthcare. The role of workflow analysis in AI includes improving processes, enhancing patient safety, and integrating technology. Human factors entail the study of the interactions with elements of a technology system (Booth et al., 2021). The understanding of human factors is important in AI as it enables providers to easily use the technology and ensure it’s safe and effective. User-centered design ensures satisfaction, easy adoption and utilization, and improved patient outcomes.
Conclusion
Emerging technologies in healthcare like artificial intelligence (AI) offer possibilities and potential for improved care delivery and patient safety. AI leverages algorithms to improve care for patients and health populations. The use of AI implores providers and health care organizations to consider ethical and legal aspects and deploy core concepts like workflow analysis and user-centered design to attain set goals in care provision.
References
Alowais, S. A., Alghamdi, S. S., Alsuhebany, N., Alqahtani, T., Alshaya, A. I., Almohareb, S.
N., … & Albekairy, A. M. (2023). Revolutionizing healthcare: the role of artificial intelligence in clinical practice. BMC Medical Education, 23(1), 689. DOI: https://doi.org/10.1186/s12909-023-04698-z
Ali, O., Abdelbaki, W., Shrestha, A., Elbasi, E., Alryalat, M. A. A., & Dwivedi, Y. K. (2023). A
systematic literature review of artificial intelligence in the healthcare sector: Benefits, challenges, methodologies, and functionalities. Journal of Innovation & Knowledge, 8(1), 100333. https://doi.org/10.1016/j.jik.2023.100333
Bajwa, J., Munir, U., Nori, A., & Williams, B. (2021). Artificial intelligence in healthcare:
transforming the practice of medicine. Future Healthcare Journal, 8(2), e188-e194.
DOI: 10.7861/fhj.2021-0095
Booth, R., Strudwick, G., McMurray, J., Chan, R., Cotton, K., & Cooke, S. (2021). The future of
nursing informatics in a digitally enabled world. Introduction to nursing informatics, 395-417. DOI:10.1007/978-3-030-58740-6_16
Junaid, S. B., Imam, A. A., Balogun, A. O., De Silva, L. C., Surakat, Y. A., Kumar, G., … &
Mahamad, S. (2022, October). Recent advancements in emerging technologies for healthcare management systems: A survey. Healthcare (Basel), 10(10): 1940. DOI: 10.3390/healthcare10101940
McGonigle, D., & Mastrian, K. (2024). Nursing informatics and the foundation of knowledge.
Jones & Bartlett Learning.
Sample Answer 2 for NUR 514 Emerging Technology Brief
Informatics play an important role in assisting health care providers through current and emerging barriers to care. Working in a fast-paced environment full of distractions and the constantly changing world of medicine make it impossible to know every detail of information and set the potential for human error. Clinical provider order entry (CPOE) has eliminated the written error-laden potential of the past when illegible handwriting and abbreviation errors occurred. Orders are entered electronically directly into the patient’s record for medications, radiology, procedures, laboratory, etc. This functionality is enhanced paired with clinical decision support systems (CDSS). CDSS guides providers with real-time support through a variety of diagnosis, medication, and treatment-related information. When orders are entered into the patient’s record, tools such as drug interaction alerts, allergies, medication contraindications, and renal-based dosing are compared and checked against the order. The provider is alerted to any potential hazard before the order is complete. These are examples aimed at improving patient care and reducing medical errors and costs (AHRQ, n.d.).
The challenges with CPOE and CDSS are the high costs associated with the purchase of the system and implementation process. In addition, there are upgrades and optimization processes that must take place over time that add additional cost. It is difficult to consider the financial investment knowing “the existence of technology does not in itself guarantee that it will be used in a manner that promotes better outcomes for patients” (McGonigle & Mastrian, 2022, p. 271). According to Poon et. al (2003), a significant amount of management officials that have had successful implementation of CPOE cited barriers to adoption. Barriers included “1) cost, as high as 10–30 million dollars for a large hospital; 2) uncertain return on investment; 3) potential negative impact on physician workflow; 4) concern about physician rebellion, and 5) difficulty training physicians, particularly at community hospitals” (Poon et. al, 2003, section: Results).
Heuristic principles are important for efficient clinical information systems because the systems are intended to optimize usability and streamline care in a safe manner. Users should experience effective and efficient workflows (Kaminski, 2020). The system should be easy to learn and navigate from memory. The system should also avoid error for the user and allow for recovery from error.
References:
Agency for Healthcare Research and Quality. (n.d.). Computerized provider order entry. https://digital.ahrq.gov/computerized-provider-order-entry-0#:~:text=Computerized%20provider%20order%20entry%20(CPOE,verbal%2C%20telephone%2C%20and%20fax
Kaminski, J. (2020). Theory applied to informatics – Usability. Canadian Journal of Nursing Informatics, 15(4), 1–10.
McGonigle, D., & Mastrian, K. (2022). Nursing informatics and the foundation of knowledge (5th ed.). Jones & Bartlett Learning.
Poon, E., Blumenthal, D., Jaggi, T., Honour, M., Bates, D., & Kaushal, R. (2003). Overcoming the barriers to the implementing computerized physician order entry systems in US hospitals: perspectives from senior management. AMIA … Annual Symposium proceedings. AMIA Symposium, 2003, 975.
Sample Answer 3 for NUR 514 Emerging Technology Brief
The drastically advancing technology in the evolving world plays a significant role in solving healthcare problems and improving the quality of care provided at a reduced cost. Recent technology has not only been beneficial to the healthcare providers in their line of duty but also improves the well-being of the diverse population. Such advanced technology utilized in healthcare include genomics, robotics, wearable sensors, management system, and telehealth (Wang, & Kricka, 2018). One point of focus is the utilization of three-dimensional (3D) printing as an emerging technology that has displayed significant impact in overcoming current healthcare barriers.
Overview of 3D Printing
The 3D printing technology, previously referred to as rapid prototype technology, enables customized fabrication of three-dimensional constructs based on images obtained from magnetic resonance imaging (MRI) and computed tomography (CT) or the computer-aided design (CAD) software. The main purpose of this technology in healthcare is the fabrication of anatomical replicas. Models produced by the 3D printing machines are currently utilized by healthcare professionals in enhancing disease diagnosis, treatment clarification, and practice in certain surgical interventions to enhance outcomes. The models also help in promoting patient education as clinicians utilize them in demonstrating certain medical conditions and the available interventions for the treatment of such conditions (Hornick, 2017). 3D printing is also utilized in orthopedics, in manufacturing custom-made prosthetic limbs which help in promoting movement hence improving the quality of life of the patient. The prosthetic ensures that the specifications of the model match the actual anatomical structure of the user.
Ethical Issues
Despite the benefits associated with 3D printing in the current healthcare system, the technology tends to raise several ethical issues. The main ethical issue is justice and access, as most 3D products are costly, hence only affordable by the rich, such as prosthetic limbs. The other ethical issue is safety. Medical professionals are trained to adopt the evidence-based practice to enhance the safety of the patient and promote well-being (Ripley et al., 2017). However, limited studies have revealed the safety of custom-made prosthetics despite their effectiveness in solving current healthcare problems. As such, more studies need to be conducted to ascertain the safety of 3D products such as prosthetic limbs among patients across all ages, from children to the geriatric population.
Improving Access to Care, Patient Safety and Quality
Several advantages are associated with 3D printing in the current healthcare system. However, with maximum utilization of this technology, patient safety and access to quality and effective care can be attained. For instance, enhancing pre-surgical practice using 3D models can help hasten the surgical procedure with increased accuracy and safety of the patient (Wang & Kricka, 2018). Additionally, the technology will help shorten theatre time per patient hence increasing the accessibility for more patients undergoing similar procedures. Lastly, 3D printing can help enhance the patient outcome, as demonstrations using actual models that are similar to the patient’s anatomical structure can help boost their understanding.
Conclusion
The incorporation of technology in the current healthcare system has played a significant role in solving healthcare problems. Different forms of technology have been utilized in promoting the safety and quality of care provided at a reduced cost. For instance, the utilization of 3D printing has helped enhance diagnostic procedures, surgical interventions, and the use of prosthetic limbs for those who have undergone amputation. Further advancements are expected in the future to attain safe and readily accessible healthcare services.
References
Hornick, J. (2017). 3D printing in Healthcare. Journal of 3D printing in medicine, 1(1), 13-17. https://doi.org/10.2217/3dp-2016-0001
Liaw, C. Y., & Guvendiren, M. (2017). Current and emerging applications of 3D printing in medicine. Biofabrication, 9(2), 024102. DOI: 10.1088/1758-5090/aa7279.
Ripley, B., Levin, D., Kelil, T., Hermsen, J. L., Kim, S., Maki, J. H., & Wilson, G. J. (2017). 3D printing from MRI data: harnessing strengths and minimizing weaknesses. Journal of Magnetic Resonance Imaging, 45(3), 635-645. https://doi.org/10.1002/jmri.25526
Wang, P., & Kricka, L. J. (2018). Current and emerging trends in point-of-care technology and strategies for clinical validation and implementation. Clinical chemistry, 64(10), 1439-1452. https://doi.org/10.1373/clinchem.2018.287052