Robotics again unveils its connection with medicine
powered by wireless technology, illustrating the key role mobile technology
plays in modern health care innovation. These injectable machines can carry out
medical tasks, gather diagnostics, even deliver drugs into the bloodstream,
according to a Stanford University electrical engineer, Ada Poon who was the
leading light of this project, inventing implantable machines, powered by
wireless technology, that are small enough to traverse veins. She adds, "Such
devices could revolutionize medical technology, Applications include everything
from diagnostics to minimally invasive surgeries."
Poon was into this revelation when she came to realize
body cells conduct electricity poorly, but are unexpectedly receptive to radio
waves. This spurred Poon and her team to develop a remote radio-control for
medical devices advanced enough to perform minor surgeries, take diagnostics
and analyze patients.
These days a lot of technology is being used in
medical field, and this revolution is helping a lot for the doctors and nurses,
who are using tablets and smartphones to research and communicate with
patients, and a number of health services apps are becoming popular. For
example, an iPhone service allows doctors to check EKGs with their smartphones,
allowing for quicker analysis and diagnosis. Doctors are also diagnosing
strokes using smartphones, using an app that displays a 3D image of the
patient's brain as the stroke occurs. How smart has become the medical field
using cutting edge technology to the core. There are lots of apps available for
making practice of doctors easier. The Food and Drug Administration approved a
smartphone-enabled ultrasound device, another illustration that medical
advances are making strides along with advances in mobile technology. . The FDA
is struggling to catch up with recent medical advances centered on mobile
technology, and additional guidelines are on the horizon to regulate medical
apps
Pharmaceutical companies are also nowadays into using
technology for developing a "smart pill" to take patients' stats,
similar to how the wireless robots could gather data from within the
bloodstream. The pills need further testing before they hit the market, and are
subject to FDA approval.
Medical robots are already there, but still Stanford
team’s medical robots are under development, and they will face regulatory
scrutiny when they enter the health care market. Since Stanford's robots run on
wireless technology, the FDA may take an especially detailed look into the
effect high-frequency radio waves have on body tissue, since those waves power
the devices.
It is unbelievable that in just few years of time, how
effectively technology and its scopes are used in various fields, and this may
result in remarkable developments in future by not just following traditional
conventional methods and now Poon's discovery of human tissue's receptiveness
to radio waves highlights how much is left to learn about how mobile technology
can affect people. Still more to come.
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