A Newly Developed mm-Wave Sensor for Detecting Plaques of Arterial Vessels

Vogt, S. and Detert, M. and Wagner, D. and Wessel, J. and Ramzan, R. and Nimphius, W. and Ramaswamy, A. and Guha, S. and Wenger, C. and Jamal, F.I. and Eissa, M.H. and Schumann, U. and Schmidt, B. and Rose, G. and Dahl, C. and Rolfes, I. and Notzon, G. and Baer, C. and Musch, T.

Volume: 66 Pages: 91-98
DOI: 10.1055/s-0037-1606318
Published: 2018

Background Microcalcifications within the fibrous cap of the arteriosclerotic plaques lead to the accrual of plaque-destabilizing mechanical stress. New techniques for plaque screening with small detectors and the ability to differentiate between the smooth and hard elements of plaque formation are necessary. Method Vascular plaque formations are characterized as calcium phosphate containing structures organized as hydroxylapatite resembling the mineral whitlockite. In transmission and reflexion studies with a simple millimeter wave (mm-wave)-demonstrator, we found that there is a narrow window for plaque detection in arterial vessels because of the tissue water content, the differentiation to fatty tissue, and the dielectric property of air or water, respectively. Result The new sensor is based on a sensing oscillator working around 27 GHz. The open-stub capacitance determines the operating frequency of the sensor oscillator. The capacitance depends on the dielectric properties of the surrounding material. The sensor components were completely built up in surface mount technique. Conclusion Completed with a catheter, the sensor based on microwave technology appears as a robust tool ready for further clinical use. © 2018 Georg Thieme Verlag KG Stuttgart, New York.

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