Space-Ready MRI Machine is 1/10th the Price, Weight of Traditional MRI
September 22, 2012 10:25 PM
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Researchers hope to deploy the device to the International Space Station to study the effects of space travel on humans
While mankind has been sending men and women into space for the past five decades, the effects of spaceflight on the human body are still only partially understood. One key obstacle is that many forms of high-resolution medical scanning equipment is too bulky and heavy to transport into space for use in orbiting space stations.
I. Bringing an MRI up to the ISS?
A key example is the magnetic resonance imaging (MRI) machines. On Earth they provide the
capability to image tissues
a fidelity not possible
with other types of scans. A typical MRI machine costs around $1M USD and weighs about 11 tons due to its bulky
liquid-helium cooled superconducting
magnets. Also a traditional MRI could endanger space state residents -- its gradient coils consume massive amounts of power in short bursts and the magnets can create stray magnetic fields that could disrupt life support and other mission-critical systems.
The chairman of the Canadian
University of Saskatchewan
's Biomedical engineering department hopes to change that, though. Chairman
heads a team that has developed a miniature version of the scanner that weighs less than a ton and costs as little as $200,000.
A full-size mockup of Professor Sarty's reimagined MRI
[Image Source: Gordon Sarty / University of Saskatchewan]
An initial deployment to the
International Space Station
(ISS) may involve a 1/20th of a ton device, only capable of scanning limbs, to study bone mass and vasculature. However, Professor Sarty would like to build a full size scanner for the station eventually. He comments in an
, "I would like to build a facility-class, whole-body-sized MRI. Such a project would require an agreement between the ISS space agencies."
II. Initial Findings Look Promising
American Institute of Aeronautics and Astronautic
s' Sept. 13
AIAA Space 2012
conference Professor Sarty and his team
Their instrument employs a couple of key advances. First, it utilizes a permanent Halbach magnet -- the primary source of the large weight reduction. Halbach magnets are a construct of permanent magnets arranged in an array such that they increase each other’s magnet fields within one region and nullify it within another. In a cylindrical configuration -- a configuration being explored for both motor applications and imaging equipment like Professor Sarty's micro-MRI -- in the ideal case there is an intense field within the cylinder and virtually no field outside of it.
A Halbach magnet [Image Source: PERDaix]
Thus the Halbach magnet cylinder also solves a couple of the other issues as it draws no power and produces minimal magnetization outside the cylinder. To further reduce power, the coil system is modified to only need the radiofrequency coil -- a design called the Transmit Array Spatial Encoding (TRASE).
While the result may be tailor-fit for space applications, Professor Sarty says its qualities like reduced weight and low power consumption could make it well suited for terrestrial applications, as well, such as battlefield deployments (the device could be loaded aboard a truck and run off of batteries).
The final target deployment is the ISS. [Image Source: NASA]
While conference attendees reportedly urged Professor Sarty to set his eyes on these earthbound applications first, he has his sights firmly set on space and is lobbying the
Canadian Space Agency
to deploy a prototype to the ISS. He comments, "Eventually someone will break a bone in space. We have no idea if that bone will heal."
This article is over a month old, voting and posting comments is disabled
RE: terrestrial applications
9/24/2012 3:06:47 PM
One "con" certainly is that the device is not FDA-approved (as a medical device) and gaining that approval will take some time.
"Well, we didn't have anyone in line that got shot waiting for our system." -- Nintendo of America Vice President Perrin Kaplan
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