Breaking News

How IoT facilitates Oxygen Supply at Hospitals?



The benefit of IoT in various industries has been transforming commercial activities. Similarly, healthcare has significantly benefited healthcare services, supply chains of hospital supplies, remote monitoring of patients and hospitals, and management of infectious diseases.

The oxygen supply at hospitals can be tracked with IoT devices. The usage of oxygen to various patients can also be monitored to ensure transparency in the system. With increasing IoT automation in healthcare, there are efficient and transparent channels of data gathering, analysis, and processing.

This analysis goes a long way in improving healthcare infrastructure, transportation of resources and personnel, and healthcare supply chains. IoT careers for those involved in IoT in healthcare as well as data analytics in healthcare will be on the rise.

Monitoring medical equipment

With the use of RFID tags and sensors, oxygen equipment, as well as other essential resource equipment, can be traced. This saves considerable time, effort, and expenses involved in locating resources urgently. With regular monitoring, the stock of supplies can be replenished accordingly.

When the hospital is running low on oxygen or other critical supplies, the IoT systems automatically detect the depleting stock and place orders for more. Even low-cost medical supplies are appropriately monitored and stocked, be it gloves, syringes, masks, and sanitizing materials.

Data regarding equipment usage can also be efficiently tracked in real-time. There is no need to allocate human resources to oversee these activities. Hospital personnel can focus on patient care. With better equipment tracking, there are lesser losses of parts, fewer instances of theft, and it is easier to locate equipment on the hospital premises. This helps in enhancing overall hospital efficiency.

Predictive maintenance

With IoT applications installed in hospitals, various expensive and critical equipment and diagnostic machinery are tracked and monitored. Sensors and electronics are deployed to track the machine condition, efficiency, accuracy, and niggling problems.

Any potential breakdowns are immediately detected and corrective measures can be taken. Predictive maintenance helps in sudden breakdowns as the machinery is regularly monitored. IoT automation in healthcare helps in reducing breakdown costs and extends the lifecycle of medical equipment.

IoT and vital sign monitoring of patients

IoT devices seamlessly monitor vital parameters of patients with the help of wearables and other sensor-equipped devices. A patient’s temperature, respiration rates, blood pressure, pulse rate, and oxygen saturation are monitored in real-time. Healthcare personnel will be kept abreast instantly if the patient is in any distress and requires oxygen or other support. IoT in healthcare can be especially helpful in maintaining a patient’s digital healthcare records. The doctors and nurses on various shifts are kept abreast of any changes in the patient’s condition, medications, and interactions.

IoT monitoring of patients has assumed monumental significance during the Covid pandemic. With the need to isolate Covid patients, real-time monitoring of patients is possible with IoT systems. Their vitals can be tracked remotely.

The physical interactions can be minimized thereby reducing the risk of infection for healthcare workers as well as the spread of infection. Portable monitors help in tracking the patient’s vital signs. The patient’s need for oxygen can be seamlessly addressed based on the IoT real-time patient data.

IoT in tackling oxygen supply at hospitals

During the Covid-19 pandemic, there is an increasing need for medical oxygen as patients suffer from low oxygen saturation and experience breathlessness. Hospitals are often running out of oxygen supplies and are unable to treat patients.

The manufacture and transportation of medical oxygen supplies are critical to the entire healthcare setup, especially during these crisis times. Medical-grade oxygen must meet stringent regulatory requirements to prevent contamination. To tide over the critical period of oxygen scarcity, industrial-grade oxygen manufacturing units have been repurposed to produce oxygen for medical use.

The use of IoT automation simplifies the process of overseeing these activities and allowing for easier tracking. With real-time data and analysis of data from different healthcare facilities by IoT applications, the oxygen demand can be forecast more accurately.

These forecasting plans can assist oxygen suppliers. IoT in logistics is particularly helpful in the distribution of oxygen to various hospitals. The number of tankers, their capacity, and their location can be tracked. Warehousing facilities to store oxygen cylinders can be better monitored.

Conclusion

Medical oxygen is a critical hospital supply, more so in Covid times. With efficient use of IoT systems, bottlenecks in the supply chain can be quickly addressed. Routing of cylinders to areas of requirement can be planned and monitored better.

In this humanitarian medical crisis, IoT systems can support the healthcare initiatives to tide over the oxygen shortage and provided much-need support. This situation will also throw up several IoT jobs for aspiring professionals.

No comments