The Center for Fetal Diagnosis and Treatment, The Children's Hospital of Philadelphia, Philadelphia, PA, USA.
Department of Radiology, The Children's Hospital of Philadelphia, Philadelphia, PA, USA.
Pediatr Radiol. 2023 May;53(6):1085-1091. doi: 10.1007/s00247-023-05629-2. Epub 2023 Feb 24.
The utilization of 3-T magnetic field strength in obstetric imaging is increasingly common. It is important to ensure that magnetic resonance (MR) imaging with higher magnetic field strength is safe for the fetus. Comparison of neurodevelopmental outcome in neonates undergoing prenatal MR imaging with 1.5-T versus 3-T is of interest but has not yet been examined.
We hypothesized no clinically meaningful difference in neurodevelopmental outcome between fetuses undergoing 1.5-T versus 3-T fetal MR imaging. As imaging a normal fetus for research purposes is illegal in Pennsylvania, this study was conducted in a population of fetuses with left congenital diaphragmatic hernia (left-CDH).
A retrospective review of neurodevelopmental outcome of fetuses with left-CDH scanned at 1.5-T (n=75) versus 3-T (n=25) magnetic field strength between July of 2012 and December of 2019 was performed. Neurodevelopmental outcomes were assessed using the Bayley Scales of Infant Development, 3rd Edition (BSID-III).
There were no statistical differences in median age of assessment (1.5-T: 18 [12, 25] versus 3-T: 21 [11, 26], P=0.79), in mean BSID-III cognitive (1.5-T: 91 ± 14 versus 3-T: 90 ± 16, P=0.82), language (1.5-T: 92 ± 20 versus 3-T: 91 ± 20, P=0.91), and motor composite (1.5-T: 89 ± 15 versus 3-T: 87 ± 18, P=0.59) scores, subscales scores (for all, P>0.50), or in risk of abnormal neuromuscular exam (P=0.29) between neonates with left-CDH undergoing a 1.5-T versus 3-T MR imaging during fetal life. Additionally, the distribution of patients with average, mildly delayed, and severely delayed BSID-III scores was similar between the two groups (for all, P>0.50). The overall distribution of the composite scores in this CDH population was similar to the general population independent of exposure to 1.5-T or 3-T fetal MR imaging. Two 3-T patients (8%) and five 1.5-T patients (7%) scored within the significant delayed range for all BSID-III domains. Subjects with lower observed-to-expected fetal lung volume (O/E FLV) and postnatal need for ECMO had lower cognitive, language, motor, and subscales scores (for all, P<0.03) regardless of being imaged at 1.5-T versus 3-T.
This preliminary study suggests that, compared to 1.5-T MR imaging, fetal exposure to 3-T MR imaging does not increase the risk of neurodevelopmental impairment in fetuses with left-CDH. Additional MR imaging studies in larger CDH cohorts and other fetal populations are needed to replicate and extend the present findings.
在产科成像中使用 3-T 磁场强度越来越常见。确保更高磁场强度的磁共振(MR)成像对胎儿安全非常重要。在接受产前 1.5-T 与 3-T 磁共振成像检查的新生儿中比较神经发育结局是很有意义的,但尚未进行过研究。
我们假设在接受 1.5-T 与 3-T 胎儿磁共振成像检查的胎儿中,神经发育结局没有临床意义上的差异。由于在宾夕法尼亚州,出于研究目的对正常胎儿进行成像属于违法行为,因此本研究在患有左侧先天性膈疝(左侧-CDH)的胎儿群体中进行。
对 2012 年 7 月至 2019 年 12 月期间在 1.5-T(n=75)与 3-T(n=25)磁场强度下接受扫描的左侧-CDH 胎儿的神经发育结局进行回顾性研究。使用贝利婴幼儿发展量表,第三版(BSID-III)评估神经发育结局。
两组的中位评估年龄(1.5-T:18[12,25]与 3-T:21[11,26],P=0.79)、平均 BSID-III 认知评分(1.5-T:91±14 与 3-T:90±16,P=0.82)、语言评分(1.5-T:92±20 与 3-T:91±20,P=0.91)和运动综合评分(1.5-T:89±15 与 3-T:87±18,P=0.59)、亚量表评分(均为 P>0.50)或新生儿神经肌肉检查异常风险(P=0.29)均无统计学差异。此外,两组中具有平均、轻度延迟和重度延迟 BSID-III 评分的患者分布情况相似(均为 P>0.50)。该 CDH 人群的综合评分分布总体上与独立于 1.5-T 或 3-T 胎儿磁共振成像暴露的一般人群相似。2 名 3-T 患者(8%)和 5 名 1.5-T 患者(7%)在所有 BSID-III 领域的评分均处于显著延迟范围内。无论在 1.5-T 还是 3-T 下进行成像,观察到的与预期胎儿肺容积比(O/E FLV)较低和出生后需要 ECMO 的患者认知、语言、运动和亚量表评分较低(均为 P<0.03)。
本初步研究表明,与 1.5-T MR 成像相比,左侧-CDH 胎儿暴露于 3-T MR 成像并不会增加神经发育受损的风险。需要在更大的 CDH 队列和其他胎儿群体中进行更多的磁共振成像研究,以复制和扩展本研究结果。
