these days, there has been a developing interest within the
use of telecomms devices for scientific diagnosis. Tiny sensors and monitoring
units can be integrated into drugs and ingested orally, recording biological
records in the body and transmitting it to the outside. those gadgets talk
wirelessly, sending electromagnetic waves thru the frame, which acts as a
transmission medium. A phantom, particularly, is a liquid aggregate or a
crosslinked polymer (hydrogel) that may be moulded into the form and size
needed so one can simulate a particular organ at the electromagnetic stage.
but, further testing and approval is needed earlier than
they may be put on the market.
The models and technique advanced and patented on the UPV
will reduce down on the need for such testing. UPV researcher, Narcis Cardona,
tells us: "they will help compare the transmission of electromagnetic
waves in the ultra-huge band frequency variety between 3.1 and 10.6 GHz, as a
way to shape part of future PANs (personal use), as well as different narrow
band networks, including ISM (industrial, medical and medical radio
bands)."
the brand new technique developed at the UPV will permit organs
which include the liver, heart, pancreas, colon and cartilage to be simulated
on-demand with the perfect electromagnetic profile, simulating which include
complicated relative permittivity, dielectric constant, loss issue and
conductivity. For a number of these organs, no phantoms currently exist or are
set to emerge inside the foreseeable future, "no longer even for a
specific frequency" (Ana Vallés, researcher at the UPV's Centre of
Biomaterials and Tissue Engineering).
No comments:
Post a Comment