In this interview with MEDICA-tradefair.com, Prof. Vasilis Ntziachristos describes the impact the procedure can have for those affected – who could eventually use it by themselves at some point.
Prof. Ntziachristos, how does your method work?
Prof. Vasilis Ntziachristos: RSOM is a new technology we developed for clinical examinations. It uses visible light to excite ultrasound waves within tissue. The ultrasound waves detected are of very broad frequency response (about 100 Megahertz) so that for the first time, we can visualize rich optical contrast with high resolution inside the tissue, much deeper than optical microscopy.
This new ability allows us to recognize features of the tissue structure that were previously not achievable with other non-invasive imaging methods. Therefore, RSOM opens new possibilities for using the skin as a window to many diseases. For example, it is well known that diabetes affects the micro vessels in the skin. We have now shown that by obtaining detailed three-dimensional images of the skin's microvasculature using RSOM, we can non-invasively detect the progression of diabetes.
What is the benefit of such scanners in medicine?
Ntziachristos: Many people visit their doctor once a year or less, often not until symptoms appear. Therefore, current medicine assesses disease in a rather infrequent way. It is also often difficult to understand if there is improvement or progression of a disease in response to changing one’s lifestyle or in response to drugs. Using non-invasive sensors, we can monitor disease more frequently and quantify gradual changes over time. So, we can monitor the evolution of disease in a more precise way than is possible today.
There is also evidence in the literature that microvasculature changes due to diabetes occur very early, typically confirmed by invasive tests. With the new sensor technology, we are therefore not only opening up opportunities for improving the precision of progression monitoring, but also early detection.