Department of Radiology and Imaging Sciences, Riley Hospital for Children at Indiana University Health, 705 Riley Hospital Dr, Indianapolis, IN 46202.
Department of Radiology and imaging Sciences, Indiana University School of Medicine, Indianapolis, IN.
AJR Am J Roentgenol. 2019 Oct;213(4):925-931. doi: 10.2214/AJR.19.21261. Epub 2019 Jul 16.
The purpose of our study was to assess whether linear ventricular dimensions-specifically, the frontal occipital horn ratio (FOHR) and frontal temporal horn ratio (FTHR) obtained from ultrasound (US)-are reliable measures of ventriculomegaly in infants. Our hypothesis was that these US measures would show good correlation with linear ventricular indexes and ventricular volumes obtained from MRI. We retrospectively identified 90 infants (age ≤ 6 months corrected gestational age) with ventriculomegaly from 2014 to 2017 who had a total of 100 sets of US and MRI studies performed in a 3-day period. FOHR and FTHR were independently measured on US and MRI by two pediatric radiologists and two pediatric neuroradiologists, respectively. Ventricular and brain volumes were segmented from the MR images, and the ventricle-to-intracranial volume ratio was calculated. MRI served as the reference standard. Intraclass correlation coefficients and Bland-Altman analyses were generated to evaluate interobserver and US-MRI concordance. We assessed correlation of the FOHR and FTHR with the ventricle-to-intracranial volume ratio. Bland-Altman plots of the FOHR and FTHR between US and MRI showed excellent concordance with a bias of 0.05 (95% CI, -0.04 to 0.14) and 0.03 (95% CI, -0.06 to 0.13), respectively. There was good-to-excellent interobserver concordance for FOHR and FTHR on head US or MRI ( = 0.86-0.96). There was good correlation between ventricle-to-intracranial volume ratios and US- and MRI-derived FOHRs and FTHRs ( = 0.79-0.87). FOHR and FTHR obtained from US in infants with ventriculomegaly have excellent interobserver concordance, are concordant with MRI-derived linear ratios, and correlate with MRI-derived ventricular volumes. Therefore, US-derived FOHR and FTHR are reliable indexes for clinical follow-up of infantile ventriculomegaly.
我们的研究目的是评估线性脑室尺寸——具体来说,从超声(US)获得的额枕角比(FOHR)和额颞角比(FTHR)——是否是评估婴儿脑积水量可靠的方法。我们的假设是,这些 US 测量值与 MRI 获得的线性脑室指数和脑室容积具有良好的相关性。
我们回顾性地从 2014 年至 2017 年期间识别出 90 名患有脑积水的婴儿(≤ 6 个月的校正胎龄),他们在 3 天内共进行了 100 次 US 和 MRI 检查。两名儿科放射科医生和两名儿科神经放射科医生分别在 US 和 MRI 上独立测量 FOHR 和 FTHR。从 MR 图像中分割脑室和脑体积,并计算脑室与颅内体积比。MRI 作为参考标准。生成了组内相关系数和 Bland-Altman 分析,以评估观察者间和 US-MRI 的一致性。我们评估了 FOHR 和 FTHR 与脑室与颅内体积比的相关性。
US 和 MRI 之间的 FOHR 和 FTHR 的 Bland-Altman 图显示出极好的一致性,其偏差分别为 0.05(95%置信区间,-0.04 至 0.14)和 0.03(95%置信区间,-0.06 至 0.13)。FOHR 和 FTHR 在头 US 或 MRI 上具有良好到极好的观察者间一致性( = 0.86-0.96)。脑室与颅内体积比与 US 和 MRI 衍生的 FOHR 和 FTHR 之间具有良好的相关性( = 0.79-0.87)。
在患有脑积水的婴儿中,从 US 获得的 FOHR 和 FTHR 具有极好的观察者间一致性,与 MRI 衍生的线性比值一致,并与 MRI 衍生的脑室容积相关。因此,US 衍生的 FOHR 和 FTHR 是婴儿脑积水临床随访的可靠指标。
