3D Simulations of Intracerebral Hemorrhage Detection Using Broadband Microwave Technology
Artikel i vetenskaplig tidskrift, 2019

Early, preferably prehospital, detection of intracranial bleeding after trauma or stroke would dramatically improve the acute care of these large patient groups. In this paper, we use simulated microwave transmission data to investigate the performance of a machine learning classification algorithm based on subspace distances for the detection of intracranial bleeding. A computational model, consisting of realistic human head models of patients with bleeding, as well as healthy subjects, was inserted in an antenna array model. The Finite-Difference Time-Domain (FDTD) method was then used to generate simulated transmission coefficients between all possible combinations of antenna pairs. These transmission data were used both to train and evaluate the performance of the classification algorithm and to investigate its ability to distinguish patients with versus without intracranial bleeding. We studied how classification results were affected by the number of healthy subjects and patients used to train the algorithm, and in particular, we were interested in investigating how many samples were needed in the training dataset to obtain classification results better than chance. Our results indicated that at least 200 subjects, i.e., 100 each of the healthy subjects and bleeding patients, were needed to obtain classification results consistently better than chance (p < 0.05 using Student's t-test). The results also showed that classification results improved with the number of subjects in the training data. With a sample size that approached 1000 subjects, classifications results characterized as area under the receiver operating curve (AUC) approached 1.0, indicating very high sensitivity and specificity.

microwave technology

intracranial hemorrhage

FDTD modeling

stroke

subspace classifier

machine learning

Författare

Andreas Fhager

Sahlgrenska universitetssjukhuset

Chalmers, Elektroteknik, Signalbehandling och medicinsk teknik

Stefan Candefjord

Sahlgrenska universitetssjukhuset

Chalmers, Elektroteknik, Signalbehandling och medicinsk teknik

Mikael Elam

Sahlgrenska universitetssjukhuset

Mikael Persson

Sahlgrenska universitetssjukhuset

Chalmers, Elektroteknik, Signalbehandling och medicinsk teknik

Sensors

1424-8220 (ISSN) 1424-3210 (eISSN)

Vol. 19 16 3482

Ämneskategorier

Medicinsk laboratorie- och mätteknik

Annan medicinteknik

Biomedicinsk laboratorievetenskap/teknologi

DOI

10.3390/s19163482

PubMed

31395840

Mer information

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2022-04-05