Slides Presentation On The Below Topic Excluding Title And T

12 Slides Presentation On Below Topicexcluding Title And Thank You An

12 slides presentation on below topic(excluding title and thank you and reference slides) IOT can help monitor the health of patient in Realtime, if the wearable or small device which can be implanted in body are connected to mobile applications then in real time, data can be sent to health care provide. This will give patient great edge on recovering from unknow risk such as Blood pressure, sugar levels and heart attacks. It can help to reduce last minute patient rush.

Paper For Above instruction

Internet of Things (IoT) has revolutionized the healthcare industry by enabling real-time health monitoring through connected devices. The integration of wearable sensors and implanted medical devices with mobile applications allows for continuous data collection and immediate transmission to healthcare providers. This technological advancement offers significant benefits in early detection of health risks, improving patient outcomes, and reducing emergency hospital visits.

The deployment of IoT devices in medicine primarily involves wearable sensors such as fitness bands, smartwatches, and medical implants. These devices monitor vital signs like blood pressure, blood glucose levels, heart rate, and oxygen saturation continuously. When connected to mobile applications, they provide a seamless flow of health data to clinicians, enabling proactive intervention before conditions worsen. For example, a patient with hypertension can receive alerts when blood pressure readings exceed safe thresholds, allowing for timely medication adjustments or lifestyle changes (Sharma et al., 2021).

Implantable devices further enhance the scope of IoT in healthcare by offering real-time monitoring of internal conditions. These devices can detect abnormal heart rhythms, monitor blood sugar levels in diabetics, or assess blood clotting factors, transmitting crucial data directly to healthcare providers. Such continuous monitoring helps in early diagnosis and tailored treatment plans, reducing the risk of sudden health crises like heart attacks or strokes (Kim & Park, 2020).

The benefits of IoT-enabled health monitoring extend beyond proactive care. Patients experience improved quality of life by maintaining independence and confidence in managing their health. Early detection of anomalies minimizes the need for emergency interventions, which often are costly and stressful. Additionally, healthcare systems benefit from reduced patient load during emergencies, allowing more focus on preventive care and chronic disease management (Li et al., 2022).

However, integration of IoT devices in healthcare also presents challenges such as data privacy and security concerns. Sensitive health data transmitted over wireless networks must be protected against cyber threats. Furthermore, interoperability among different devices and systems remains a technical hurdle, requiring standardized protocols and robust infrastructure to ensure seamless data exchange and accurate interpretation (Zhou et al., 2021).

Despite these challenges, ongoing advancements in IoT technology, data analytics, and cybersecurity are paving the way for more reliable and secure health monitoring systems. Future developments may include artificial intelligence algorithms that analyze data trends to predict health risks even before symptoms manifest, further enhancing early intervention capabilities (Patel et al., 2023).

In conclusion, IoT-enabled health monitoring devices have immense potential to transform healthcare by providing real-time, continuous data that aids in early detection and intervention. This proactive approach can significantly improve patient outcomes, reduce emergency visits, and lower healthcare costs. As technology progresses, addressing security concerns and ensuring device interoperability will be key to maximizing the benefits of IoT in healthcare systems worldwide.

References

• Kim, H., & Park, S. (2020). IoT-based Continuous Health Monitoring System for Chronic Disease Management. Journal of Medical Systems, 44(12), 210.
• Li, Y., Zhang, Q., & Liu, J. (2022). The Impact of IoT on Healthcare: A Review of Recent Developments and Future Challenges. IEEE Transactions on Industrial Informatics, 18(5), 3334-3342.
• Patel, V., Desai, S., & Kumar, S. (2023). Artificial Intelligence and IoT Integration for Predictive Healthcare Analytics. Future Generation Computer Systems, 138, 134-145.
• Sharma, A., Singh, N., & Gupta, R. (2021). Wearable Devices for Remote Patient Monitoring: An Overview. Healthcare Technology Letters, 8(4), 89-95.
• Zhou, X., Wu, Y., & Chen, L. (2021). Challenges and Opportunities of IoT in Healthcare Data Security. IEEE Access, 9, 135845-135855.