Clinical electromagnetic brain scanner

Stroke is a leading cause of death and disability worldwide, and early diagnosis and prompt medical intervention are thus crucial. Frequent monitoring of stroke patients is also essential to assess treatment efficacy and detect complications earlier. While computed tomography (CT) and magnetic reson...

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Published in:Scientific reports 2024-03, Vol.14 (1), p.5760-5760, Article 5760
Main Authors: Abbosh, Amin, Bialkowski, Konstanty, Guo, Lei, Al-Saffar, Ahmed, Zamani, Ali, Trakic, Adnan, Brankovic, Aida, Bialkowski, Alina, Zhu, Guohun, Cook, David, Crozier, Stuart
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639/166/985
639/166/987
692/308/575
692/699/375/534
Brain mapping
Classification
Computed tomography
Diagnosis
Emergency medical care
Hospitals
Humanities and Social Sciences
Intensive care units
Localization
Magnetic resonance imaging
multidisciplinary
Neuroimaging
Patients
Science
Science (multidisciplinary)
Stroke
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container_title Scientific reports
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creator Abbosh, Amin
Bialkowski, Konstanty
Guo, Lei
Al-Saffar, Ahmed
Zamani, Ali
Trakic, Adnan
Brankovic, Aida
Bialkowski, Alina
Zhu, Guohun
Cook, David
Crozier, Stuart
description Stroke is a leading cause of death and disability worldwide, and early diagnosis and prompt medical intervention are thus crucial. Frequent monitoring of stroke patients is also essential to assess treatment efficacy and detect complications earlier. While computed tomography (CT) and magnetic resonance imaging (MRI) are commonly used for stroke diagnosis, they cannot be easily used onsite, nor for frequent monitoring purposes. To meet those requirements, an electromagnetic imaging (EMI) device, which is portable, non-invasive, and non-ionizing, has been developed. It uses a headset with an antenna array that irradiates the head with a safe low-frequency EM field and captures scattered fields to map the brain using a complementary set of physics-based and data-driven algorithms, enabling quasi-real-time detection, two-dimensional localization, and classification of strokes. This study reports clinical findings from the first time the device was used on stroke patients. The clinical results on 50 patients indicate achieving an overall accuracy of 98% in classification and 80% in two-dimensional quadrant localization. With its lightweight design and potential for use by a single para-medical staff at the point of care, the device can be used in intensive care units, emergency departments, and by paramedics for onsite diagnosis.
doi_str_mv 10.1038/s41598-024-55360-7
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subjects 639/166/985
639/166/987
692/308/575
692/699/375/534
Brain mapping
Classification
Computed tomography
Diagnosis
Emergency medical care
Hospitals
Humanities and Social Sciences
Intensive care units
Localization
Magnetic resonance imaging
multidisciplinary
Neuroimaging
Patients
Science
Science (multidisciplinary)
Stroke
title Clinical electromagnetic brain scanner
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