What if the key to immortality wasn’t a mysterious elixir or ancient secrets, but something much more scientific and more affordable?
It might sound too good to be true, but recent advances in technology could soon the idea of living a little less attractive forever. Imagine the future where heart failure, one of the main causes of death around the world is no longer a problem.
What if we could have a heart that is constantly beating unesefinite, thanks to an innovative life extension facility? It is not a sci-fi-fi can soon become a reality, due to pioneering development in electronic 3D technology.
Could it be the first step to immortality? Although it might sound a little attractive, it is difficult to ignore the fact that heart -related conditions are among the main causes of death. Now imagine that you have a heart that could potentially last a lifetime. This can soon become a reality due to the development of 3D printed electronic gloves designed to fit your heart and potentially prolong your life.
Heart gloves 3D printed
If you missed it, this breakthrough did waves in 2014. A study published in Nature Communications introduced an innovative electronic membrane that could replace pacemakers. The device is designed to close to the heart and keep it for a long time. This 3D printer uses electronic gloves to constantly monitor electrical activity heart web network sensors.
Using computer modeling and 3D printing, scientists have created a membrane prototype that was tested on the heart of the rabbit. It successfully maintained the heart properly outside the body in the fluid rich in nutrients and oxygen.
Perfect fit
With advanced imaging technology, the elastic membrane is designed to fit perfectly over the heart. In addition to monitoring cardiac activity, it can also detect extreme events such as a heart attack and respond by providing targeted high -resolution therapies. The device can supply electrical pulses from multiple places to interrupt the arrhythmias and prevent sudden cardiac death.
Development of heart membranes
Although this idea is not entirely new, this new model is a significant leap forward in efficiency. Similar patterns, often referred to as “heart socks”, exist from the age of 80. These early versions, however, were basic, made of fabric with electronics in their sewing, which made the sensors more difficult to maintain consistent contact with the heart.
New technological advancement
The real innovation in this new device comes from the stretched electronics developed by John Rogers, a scientist of materials at the University of Illinois. Unlike traditional solid electronics, Rogers uses circuits arranged in a flexible curved layout that allows them to bend and stretch without breaking.
He leveled the construction of a silicon sleeve with a natural heart membrane, a pericardium. This artificial version is equipped with high-tech components that can communicate and detect heart activity in several ways relevant to clinical cardiology.
We look forward to seeing ahead
It is exciting to think about the potential of this technology in the future. At present, the main purpose of the device is to serve as a research tool and help scientists understand how heart rate responds to different conditions. In the future, however, these electronic membranes could become common tools for monitoring endangered individuals and their protection against heart -related events. Although human attempts are still on travel, the promise of this technology is undeniable.
In conclusion, while the concept of immortality can still be far away, the development of this 3D printed electronic glove for the heart offers a look into the future, where heart -related problems could be managed more efficiently and potentially rescue countless lives. This innovative technology, still in the early stages of research, has a promise of heart care transformation.
Due to its ability to monitor cardiac activity and provide targeted therapy, one day one day could become a critical tool in preventing heart attacks and ensuring long -term heart health. While human experiments are not yet on the horizon, the potential to revolutionize this technology is undeniable and offer hope for the future where heart failure may no longer be a reason for concern.