Litcius/Paper detail

Vector magnetocardiography using compact optically-pumped magnetometers

Shengran Su, Zhenyuan Xu, Xiang He, Guoyi Zhang, Haijun Wu, Yalan Gao, Yueliang Ma, Chanling Yin, Yi Ruan, Kan Li, Qiang Lin

2024Heliyon17 citationsDOIOpen Access PDF

Abstract

Optically pumped magnetometers can provide functionality for bio-magnetic field detection and mapping. This has attracted widespread attention from researchers in the biomedical science field. Magnetocardiography has been proven to be an effective method for examining heart disease. Notably, vector magnetocardiography obtains more spatial information than the conventional method by only taking a component that is perpendicular to the chest surface. In this work, a spin exchange relaxation free (SERF) magnetometer with a compact size of 14 mm × 25 mm × 90 mm was developed. The device has a high sensitivity of 25 fT/ Hz . Meanwhile, in the multichannel working mode, synchronous sensor manipulation and data acquisition can be achieved through our control software without additional data acquisition boards. Since a typical SERF magnetometer only responds to dual-axis magnetic fields, two sensors are orthogonally arranged to form a vector detection channel. Our system consists of seven channels and allows 7 × 9 vector MCG mapping by scanning. High-quality heart vector signals are measured, and P peak, QRS peak, and T peak can be distinguished clearly. To better demonstrate the vectorial information, a vector scatter plot form is also provided. Through a basic bio-electric current model, it demonstrates that triaxial MCG measurements capture a richer spatial current information than traditional uniaxial MCG, offering substantial diagnostic potential for heart diseases and shedding more light on the inversion of cardiac issues.

Topics & Concepts

MagnetocardiographyMagnetometerPhysicsNuclear magnetic resonanceOpticsComputer scienceMagnetic fieldQuantum mechanicsAtomic and Subatomic Physics ResearchAdvanced MRI Techniques and ApplicationsNon-Invasive Vital Sign Monitoring