Detection of brain hemorrhage in white matter using analysis of radio channel characteristics

This paper presents a simulation-based study on detection of stroke/brain hemorrhage even in the white matter using radio channel characteristics analysis. The idea is to utilize the fact that blood has different dielectric properties than brain’s white and grey matters and, thus, additional blood areas inside the brain change radio channel characteristics between the transmitter and receiver antennas located on the opposite sides of the head. The antennas should be strongly directive and designed to work attached to the body surface so that hemorrhages even in the white matter could be detected. The study is conducted using the electromagnetic simulation software CST and two different simulation models: a spherical tissue layer model and an anatomical voxel model. The antennas used in this study are bio-matched mini-horn antennas designed for implant communications at 1—4 GHz frequency range. Different sizes of the blood areas are evaluated. This initial study shows how even small sizes of hemorrhage can change radio channel even as the hemorrhage is located in the middle of the brain, in the white matter. The path loss difference is 0.5—10 dB between the hemorrhage and reference cases depending on the size and location of the hemorrhage. A practical solution of this hemorrhage detection technique could be a portable helmet type of structure having several small sized antennas around the internal part of the helmet. Such a helmet would be easy to use e.g. in ambulance, which would enable early detection of hemorrhage in its early phase and, hence, improve prospects of the cure significantly.

Authors:
Särestöniemi Mariella, Pomalaza-Raez Carlos, Hakala Jaakko, Myllymäki Sami, Kilpijärvi Joni, Iinatti Jari, Hämäläinen Matti, Myllylä Teemu

Publication type:
A4 Article in conference proceedings

Place of publication:
Body Area Networks. Smart IoT and Big Data for Intelligent Health 15th EAI International Conference, BODYNETS 2020, Tallinn, Estonia, October 21, 2020, Proceedings

Keywords:
Bio-matched horn antenna, brain hemorrhage, dielectric properties, early diagnosis, propagation loss, radio channel analysis

Published:
15 December 2020

Full citation:
Särestöniemi M. et al. (2020) Detection of Brain Hemorrhage in White Matter Using Analysis of Radio Channel Characteristics. In: Alam M.M., Hämäläinen M., Mucchi L., Niazi I.K., Le Moullec Y. (eds) Body Area Networks. Smart IoT and Big Data for Intelligent Health. BODYNETS 2020. Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering, vol 330. Springer, Cham. https://doi.org/10.1007/978-3-030-64991-3_3

DOI:
https://doi.org/10.1007/978-3-030-64991-3_3

Read the publication here:
http://urn.fi/urn:nbn:fi-fe202102023482