Retrospective 4D-CT binning based on concurrent non-contact respiratory and cardiac phase tracking using millimeter wave (mmWave) radar

IF 3.2 2区医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

Medical physics Pub Date : 2025-09-29 DOI:10.1002/mp.18113

Jingxuan Zhu, David Zhang, Ziyu Shu, Pamela Samson, Clifford Robinson, Yao Hao, Tiezhi Zhang

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引用次数: 0

Abstract

Background

Concurrent measurement of respiratory and cardiac phases during 4D-CT scans is desired for the treatment of targets in proximity to the heart. Traditional methods require two separate contact-based sensors to monitor breathing and heart beats, which can be inconvenient and intrusive. The mmWave radar can provide non-contact monitoring of patient's motion and has the potential for concurrent monitoring of respiratory and cardiac cycles, offering a promising alternative for phase tracking in 4D-CT.

Purpose

The aim of this study is to validate mmWave radars for non-contact phase tracking of respiratory and cardiac waveforms and investigate its application in 4D-CT imaging.

Methods

A 60–64 GHz frequency modulated continuous wave (FMCW) radar was used to track the chest wall displacement of healthy volunteers. Respiratory and cardiac signals were extracted from the reflected signals by Fast Fourier Transform (FFT) algorithms and phase unwrapping method. Meanwhile, a respiration bellow and an ECG sensor were used to monitor respiratory and cardiac cycles, respectively, as references. The phase correlations between respiratory and cardiac cycles from the mmWave radar and reference devices were studied, and 4D-CT phase binning was conducted using mmWave signals.

Results

The mmWave radar measurement demonstrated strong correlation with the reference measurements, showing high Pearson correlation coefficients ranging from 0.9437 to 0.9533 for respiratory waveforms and 0.9632–0.9896 for cardiac waveforms. Using mmWave signals, phase binning for 4D respiratory and cardiac CT achieved high accuracy, with relative errors of 0.1% and 2.3%, respectively. The system was able to track both signals accurately, with minimal time offsets, highlighting its capability for simultaneous respiratory and cardiac monitoring and precise phase binning in 4D-CT.

Conclusions

The mmWave FMCW radar presents a convenient and effective solution for non-contact, concurrent respiratory and cardiac phase tracking, enabling precise phase binning in 4D-CT imaging. Its ability to detect subtle chest wall movements associated with breathing and heartbeats eliminates the need for physical contact sensors, offering a potential alternative to traditional contact-based methods in 4D-CT.

Abstract Image

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基于毫米波（mmWave）雷达同步非接触呼吸和心脏相位跟踪的回顾性4D-CT分束。

背景：在4D-CT扫描期间同时测量呼吸和心脏相是治疗靠近心脏的目标所需要的。传统的方法需要两个独立的接触式传感器来监测呼吸和心跳，这既不方便又具有侵入性。毫米波雷达可以提供对患者运动的非接触式监测，并具有同时监测呼吸和心脏周期的潜力，为4D-CT的相位跟踪提供了一个有前途的替代方案。目的：验证毫米波雷达对呼吸和心脏波形的非接触相位跟踪，并探讨其在4D-CT成像中的应用。方法：采用60-64 GHz调频连续波（FMCW）雷达跟踪健康志愿者胸壁位移。采用快速傅里叶变换（FFT）算法和相位解包裹法从反射信号中提取呼吸信号和心脏信号。同时，采用呼吸风箱和心电传感器分别监测呼吸周期和心电周期，作为参考。研究了来自毫米波雷达和参考装置的呼吸周期和心脏周期的相位相关性，并利用毫米波信号进行了4D-CT相位分割。结果：毫米波雷达测量值与参考测量值具有较强的相关性，呼吸波形的Pearson相关系数为0.9437 ~ 0.9533，心脏波形的Pearson相关系数为0.9632 ~ 0.9896。利用毫米波信号对4D呼吸和心脏CT进行相位分形，准确率较高，相对误差分别为0.1%和2.3%。该系统能够以最小的时间偏移准确地跟踪这两个信号，突出了其同时监测呼吸和心脏的能力，以及在4D-CT中精确的相位分割。结论：毫米波FMCW雷达提供了一种方便有效的非接触式呼吸和心脏同步相位跟踪解决方案，可以在4D-CT成像中实现精确的相位分割。它能够检测与呼吸和心跳相关的细微胸壁运动，消除了对物理接触传感器的需求，为传统的基于接触的4D-CT方法提供了一种潜在的替代方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Medical physics 医学-核医学

CiteScore

6.80

自引率

15.80%

发文量

660

审稿时长

1.7 months

期刊介绍： Medical Physics publishes original, high impact physics, imaging science, and engineering research that advances patient diagnosis and therapy through contributions in 1) Basic science developments with high potential for clinical translation 2) Clinical applications of cutting edge engineering and physics innovations 3) Broadly applicable and innovative clinical physics developments Medical Physics is a journal of global scope and reach. By publishing in Medical Physics your research will reach an international, multidisciplinary audience including practicing medical physicists as well as physics- and engineering based translational scientists. We work closely with authors of promising articles to improve their quality.