Our Technology - Introducing MARIA
There is scientific consensus that breast tumours may be distinguished from normal breast tissue by their dielectric value. This has led to various attempts to exploit this property for imaging. These attempts include early work at Bristol dating back to 1992.
In recent years at Bristol, building on research in ground penetrating radar, a novel breast imaging technique has been developed based upon a synthetically-focussed but real-aperture multistatic radar and is known as MARIA (Multistatic Array processing for Radiowave Image Acquisition). An ultrawideband pulse is synthesized using an Agilent 8722ES Vector Network Analyser that sweeps in frequency from 4GHz to 10GHz. The signal is transmitted from each element in an antenna array and then received by all the other elements. The large aperture and wide bandwidth theoretically allow collection of reflected and scattered signals from objects as small as 1.7mm.
The transmitted radiowave signal has a peak power of less than 1mW, the public limits for exposure to radiowaves are not even approached and hence the technology is intrinsically safe and is freely-repeatable. The technique was initially validated through highly-sophisticated computational models before moving on to experimental validation in complex breast phantoms (models of the breast using simulated tissues with literature dielectric values for skin, fat, and tumour). Ultimately, however, it is not possible to realistically replicate the complexity and variation in real breast structure and for this reason the team have moved as swiftly as possible to human breast imaging.
Further information, along with more clinical data, is available on request. Please contact us for further information.