Today, in this age of remote healthcare, the advent of the 5G technology is bringing true transforming potential in the usage of smart technology. By this, what we imply is the vision of reality, the marvel called IoT, or the Internet of Things. IoT jobs are becoming the most important jobs and giving the health industry a great boom.
For many years now, the health sector has continued to evolve, with the support of this massive web-connected universe. The services have irrevocably changed, with this slew of lifesaving, high-tech IoT jobs that are one of the coolest inventions in the market. Hence, its advancements cannot be simply overlooked.
Data from Statista states that the total number of global IoT connected devices is expected to be 30.8 billion by the year 2025. In the healthcare sector, according to the 2020 Gartner Analytics Report, you can witness a surge of $534.3 billion by the year 2025.
The use of IoT embedded devices is bound to make healthcare convenient and accessible to all, with autonomous health monitoring, and analyzing massive medical data. Moreover, in the current situation of the COVID-19 pandemic, this eliminates the need for face-to-face interaction between the patients and doctors.
It is no longer surprising that IoT is one of the major technological trends for the year 2020 and beyond. They are smart, intelligent objects forming the ultimate building blocks, helping in the development of the physical pervasive framework. Soon this technological trends has gloom IoT career.
IoT revolution is modernizing and redesigning healthcare in a variety of different methods. Its integration with next-gen technologies has its influence on the entire spectrum of healthcare, via the interconnection of smart identifiable objects.
The convergence of health and medical care with IoT has been one of the most effective application areas, in compliance with standard treatment, optimizing the pharmaceutical workflow, replenishing supplies, assisting with remote monitoring of patients as well as scheduling resources adequately to be at the best service of all.
Secure and cost-effective interactions are made possible between individual patients, physicians, and clinics. Updated healthcare networks, driven by wireless connectivity largely support early patient diagnosis, real-time evaluation of chronic disease, handling medical emergencies, dealing with health databases, medical servers, and more.
Hence, the other notable real-time applications of IoT in healthcare facilitation are as follows –
1. System One
In the Massachusetts Spring fields, with the service assistance from Vodafone network, and other managed global IoT platforms, the Label, and Barcode Specialty Systems – System One transmitted a formulation for medical diagnosis with an exchange of data to the physicians and other personnel.
So that they can maintain a connection with the patients and contribute to a proficient methodology of public healthcare. Recently, it announced funding of $5 million from the Series of The Rise Fund.
Located in Brooklyn, this is a cloud-based IoT healthcare monitoring system that efficiently connects to multiple therapeutic devices that are related to health activities and medications to those who suffer from chronic physical conditions.
This is both a web and mobile-based tool where the patients get personal healthcare and can also participate anonymously in research and studies.
In collaboration with SHL, Quio developed its hardware and software systems for drugs and medicine delivery with interconnected operations on the Cloud-connected RX platform.
An IoT enabled tracking device, this is owned by Apple which helps foster good quality sleep. It is a sleeping monitor, is Bluetooth connected, which also monitors breathing, heart rate, and pressure, consequently analyzing the surrounding from the data that is gathered.
Another similar IoT app is “Eight”, also developed in New York. Here the mattress on which the person sleeps is connected with the IoT sensing application so that data is collected and sent to the Smartphone to finally determine the ideal sleeping temperature.
4. Wearable Biosensor
This turned out to be valuable technological equipment where the option of virtual hospitals became available to all. Disease prevention and detection also became easy.
They are lightweight and small devices, which monitor vitals like temperature, heart rate, breathing fluctuations, pressure, and other critical signs. In the year 2020, Philips announced that it got an FDA clearance for wireless wearable biosensors, that detect early symptoms of the COVID-19 virus in elderly patients alike.
Named the Philips Biosensor BX100, it was installed first at a hospital in the Netherlands where virus affected patients could be monitored and diagnosed remotely. It functioned on “contextual parameters such as posture, activity level, and ambulation.”
Robotic assistants are utilized and implemented in various healthcare, operational activities assisting doctors to perform surgery with greater control, precision and vision.
One example is the “The Surgical System da Vinci” which has a magnified 3D vision. The Robot TUG carries a heavy burden at hospitals along with medications, laboratory specimens, etc.
IoT and Hospitals to reduce Coronavirus Pressure
When the pandemic struck us, healthcare professionals felt directionless. Now emerged technologies are booming in the sector of IoT Health making it possible to gather information and medical data from patients and doctors alike.
A trial was done at the Greece University general Hospital by developing AI induced algorithms which were later embedded into healthcare diagnostic devices and applications.
This potentially leveraged the accuracy of healthcare solutions, testing other similar IoT technologies functioning as an intermediary between medicinal professionals and COVID-19 patients. It also helped with productive pandemic management.
These applications are some of the many other progressive IoT healthcare systems started and used by consumers globally. Now, wearable gadgets like smartwatches can conduct ECG or echocardiogram, making patients aware of a probable heart attack.
Automated Insulin Delivery Systems are also integrated with the Internet of Things, enabling remote but constructive treatment for people with diabetes.
The technologies of Cloud and Grid Computing along with Augmented Reality have further boosted its implementation in healthcare and related segments – an advantageous working frame for both IoT and e-health strategies.