使用光泵磁强计的柔性阵列记录和量化胎儿磁心电图信号。
Recording and quantifying fetal magnetocardiography signals using a flexible array of optically-pumped magnetometers.
机构信息
Department of Pediatrics, Division of Neurology, University of Arkansas for Medical Sciences, Arkansas Children's Hospital, Little Rock, AR, United States of America.
Department of Obstetrics and Gynecology, University of Arkansas for Medical Sciences, Little Rock, AR, United States of America.
出版信息
Physiol Meas. 2021 Jan 1;41(12):125003. doi: 10.1088/1361-6579/abc353.
OBJECTIVE
Fetal magnetocardiography (fMCG) is a non-invasive biomagnetic technique that provides detailed beat-to-beat fetal heart rate analysis, both in normal rhythm as well as in fetal arrhythmias. New cryogenic-free sensors called optically pumped magnetometers (OPMs) have emerged as a less expensive and more geometrically flexible alternative to traditional Superconducting Quantum Interference Device (SQUID) technology for performing fMCG. The objective of the study was to show the ability of OPMs to record fMCG using flexible geometry while seeking to preserve signal quality, and to quantify fetal heart rate variability (FHRV).
APPROACH
Biomagnetic measurements were performed with OPMs in 24 healthy pregnant women with uncomplicated singleton pregnancies between 28 and 38 weeks gestation (GA). A total of 96 recordings were analyzed from OPM data that was collected using sensors placed in two different maternal configurations over the abdomen. The fMCG signals were extracted and the quality of the recordings were quantified by peak amplitudes and signal-to-noise ratio (SNR). R peaks were used to perform both time and frequency domain FHRV analysis. FHRV measures obtained from OPMs were compared descriptively to the same measures obtained from GA-matched existing SQUID data.
MAIN RESULTS
The fMCG derived from OPMs were observed in 21 of the 24 participants. Higher detection rates (85%) of fMCG signals were observed in the data sets recorded at GA >32 weeks. Peak amplitudes and SNR values were similar between two maternal configurations, but peak amplitudes were significantly higher (p = 0.013) in late GA compared to early GA. FHRV indicators were successfully extracted and their values overlapped substantially with those obtained from SQUID recordings.
SIGNIFICANCE
Taking advantage of the geometric flexibility of the OPMs, we have demonstrated their ability to record and quantify fMCG in different maternal positions as opposed to rigid SQUID configurations.
目的
胎儿磁心图(fMCG)是一种非侵入性生物磁技术,可提供详细的逐搏胎儿心率分析,包括正常节律和胎儿心律失常。新型无低温冷却传感器,称为光泵磁力计(OPM),已成为一种比传统超导量子干涉器件(SQUID)技术更经济、更具几何灵活性的替代方案,可用于进行 fMCG。本研究的目的是展示 OPM 在使用灵活几何形状记录 fMCG 的能力,同时寻求保持信号质量,并量化胎儿心率变异性(FHRV)。
方法
在 28 至 38 孕周(GA)的 24 名健康、单胎妊娠的孕妇中进行了生物磁测量。从使用放置在腹部两个不同母体配置中的传感器收集的 OPM 数据中分析了总共 96 次记录。提取 fMCG 信号,并通过峰值幅度和信噪比(SNR)量化记录的质量。使用 R 波峰进行时域和频域 FHRV 分析。将从 OPM 获得的 FHRV 测量值与从 GA 匹配的现有 SQUID 数据获得的相同测量值进行描述性比较。
主要结果
在 24 名参与者中的 21 名中观察到了来自 OPM 的 fMCG。在 GA >32 周记录的数据集中,fMCG 信号的检测率(85%)更高。两种母体配置之间的峰值幅度和 SNR 值相似,但 GA 晚期的峰值幅度明显更高(p = 0.013)。成功提取了 FHRV 指标,其值与从 SQUID 记录获得的值重叠很大。
意义
利用 OPM 的几何灵活性,我们证明了它们在不同母体位置记录和量化 fMCG 的能力,而不是在刚性 SQUID 配置下。
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