3-D ultrasound from 2-D scanners for less than US$1000

May 7, 2007 Almost every doctor’s surgery in a developed country has a 2-D ultrasound scanner and for most parents it’s the first time they see their child-to-be. Apart from enabling us to see an unborn child in its mother’s womb, medical ultrasonography helps to detect gall stones, identify tumor-like lumps and it plays a particularly important role in the early detection of breast cancer. Three-dimensional sonography can provide especially informative images, for instance allowing the structure of tumors, their growth pattern and their blood supply to be clearly distinguished from healthy tissue. Although 3-D technology has been available since the 1990s, it remains prohibitively expensive. Physicians and clinics wishing to upgrade from 2-D to 3-D technology usually have to invest more than US$100,000 in new equipment. Now researchers have produced a system that enables conventional 2-D ultrasound scanners to be upgraded to provide 3-D images for less than US$1000.

In collaboration with the software company MedCom, researchers from the Fraunhofer Technology Development Group TEG and the Fraunhofer Institute for Biomedical Engineering IBMT have succeeded in producing a considerably less expensive solution for physicians.

“We fit the ultrasound transducers with inertial sensors that can determine the exact position and orientation of the probe,” explains Dr. Urs Schneider, project manager at the TEG.

“Specially developed algorithms then allow us to reconstruct a three-dimensional image from the data thus obtained.” The inertial sensors are small, inexpensive semiconductor components that are sensitive to movement in any direction. Such sensors are normally very imprecise, especially when determining equatorial coordinates. However, the special algorithms developed by the TEG engineers enable the exact calculation of spatial coordinates. The margin of error of the sensors could therefore be reduced from around 10 degrees to less than one degree. For the first time, a highly accurate, low-cost navigation system is available that can easily be integrated into existing ultrasound scanners.

This inexpensive upgrade makes it possible to improve standards of healthcare, particularly in eastern European countries: Patients there too can now benefit from better diagnostic capabilities. Schneider expects the new system, which consists of a small device installed with the necessary software, to be commercially available later this year.

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