You Are Hired As A Research Coordinator By The New Hospital

You Are Hired As A Research Coordinator By the New Hospital In Town O

You are hired as a research coordinator by the new hospital in town. One mission of the hospital is to work hard in preventing health issues by using new technologies created by health conscious engineers. Your task is to review health-related videos and articles and provide a summary of current technology being used in the medical field to prevent health issues for the hospital stakeholders. Your summary must include : A summary of at least three health-related technologies The advantages of each one, including how it helps in preventing a health issue An explanation of how robots and artificial intelligence can benefit hospitals CHOOSE ONE of the following options for your summary: A 2- to 3-minute podcast using the software of your choice, such as Sound Recorder or Audacity to create your audio file and save as a MP3 or WAV. A 2- to 3-minute video delivered as an MP4 or MOV file. Infographic delivered as a PDF. You may use any Microsoft ® Office product or free sites such as Piktochart, Easel.ly, or Canva to create an infographic.

Paper For Above instruction

The integration of advanced technology in healthcare is revolutionizing disease prevention and patient management, significantly improving health outcomes. This paper reviews three prominent health-related technologies and explores their advantages and roles in preventing health issues. Additionally, it examines how robots and artificial intelligence (AI) benefit hospital operations and patient care.

1. Wearable Health Devices

Wearable health devices, such as smartwatches and fitness trackers, monitor vital signs like heart rate, blood pressure, oxygen saturation, and sleep patterns in real time. These devices are equipped with sensors that collect continuous health data, enabling early detection of abnormalities. For example, increased heart rate variability or irregular rhythms can indicate potential cardiac issues before symptoms manifest. The advantages include increased patient engagement, continuous monitoring outside clinical settings, and early intervention, which prevents more severe health problems such as heart attacks or strokes. These devices also promote a proactive approach to health management, reducing hospital admissions and costs.

2. Telemedicine Platforms

Telemedicine involves remote consultations between healthcare providers and patients, facilitated through secure video conferencing and digital communication tools. This technology extends healthcare access to remote or underserved populations, enabling early diagnosis and management of chronic diseases such as diabetes and hypertension. The advantages include immediate access to medical advice, reduced travel and waiting times, and more frequent health monitoring. Telemedicine can prevent health crises by facilitating early intervention, reducing complications, and decreasing hospital readmissions.

3. Digital Imaging and Diagnostic Technologies

Advancements in digital imaging, such as MRI, CT scans, and ultrasound, enable highly detailed visualization of internal structures, aiding in accurate and early diagnosis. These technologies assist in detecting conditions such as tumors, fractures, or vascular diseases promptly. The non-invasive nature and high precision of digital imaging improve diagnostic accuracy, leading to timely treatments. Their advantages include minimizing invasive procedures, decreasing diagnostic errors, and facilitating personalized treatment planning, thereby preventing health issues from progressing.

Role of Robots and Artificial Intelligence in Hospitals

Robots and artificial intelligence are transforming healthcare by improving operational efficiency, enhancing diagnostic accuracy, and supporting treatment procedures. Robots assist with surgeries, providing precision and reducing human error, which can significantly improve patient outcomes, especially in minimally invasive surgeries. AI algorithms analyze vast amounts of medical data rapidly to identify patterns that might be missed by humans, leading to earlier diagnosis and customized treatment plans. AI-powered systems also facilitate administrative tasks, such as scheduling and patient record management, freeing up healthcare personnel to focus on direct patient care. Moreover, AI-driven predictive analytics can anticipate patient deterioration, enabling preemptive interventions that prevent critical health issues. Overall, the integration of robotics and AI leads to safer, faster, and more effective healthcare delivery.

Conclusion

The continuous evolution of health-related technologies holds immense potential for disease prevention and health management. Wearable devices, telemedicine, and digital imaging are already making significant impacts by facilitating early detection and accessible care. Complementing these are robotics and AI, which enhance precision, operational efficiency, and predictive capabilities within hospitals. Embracing these innovations is essential for modern healthcare institutions committed to preventative care and improved patient outcomes.

References

• Chen, M., Ma, Y., & Song, J. (2019). Wearable health devices and health management. Journal of Medical Internet Research, 21(12), e15716.
• Golin, C. E., et al. (2017). Telemedicine and health disparities: A comprehensive review. Telemedicine and e-Health, 23(7), 603–610.
• Harrison, S., et al. (2018). Advances in digital imaging and diagnostics. Radiographics, 38(4), 915–930.
• Topol, E. (2019). Deep Medicine: How Artificial Intelligence Can Make Healthcare Human Again. Basic Books.
• Yang, G., et al. (2020). Robots in healthcare: Opportunities and challenges. IEEE Transactions on Automation Science and Engineering, 17(4), 1347–1358.
• Morley, J., et al. (2020). The ethics of AI in medicine: A systematic review. BMC Medical Ethics, 21(1), 37.
• Zhou, X., et al. (2021). Predictive analytics in healthcare using AI. Journal of Healthcare Engineering, 2021, 6695766.
• Nassif, N., et al. (2020). The role of AI in hospital operations. Journal of Hospital Administration, 9(2), 1–8.
• Lee, J., et al. (2022). Integration of wearable devices in chronic disease management. Digital Health, 8, 20552076221103410.
• Rosenberg, T., et al. (2020). Emerging trends in telehealth and remote care during COVID-19. Journal of Telemedicine and Telecare, 26(7), 413–416.