Venardos A, Colquitt J, Morris S A
Texas Children's Hospital, Department of Pediatrics, Houston, TX, USA.
Ultrasound Obstet Gynecol. 2022 May;59(5):642-650. doi: 10.1002/uog.23689.
There are two borderline left-heart phenotypes in the fetus: (1) severe aortic stenosis (AS), which is associated with a 'short, fat', globular left ventricle (LV), LV systolic dysfunction and LV growth arrest; and (2) severe left-heart hypoplasia (LHH), which is associated with a 'long, skinny' LV, laminar flow across hypoplastic mitral and aortic valves and arch hypoplasia. Both phenotypes may be counseled for possible single-ventricle palliation. We aimed to compare the rates of left-sided cardiac structure growth and Z-score change over gestation and to describe the postnatal outcomes associated with these two phenotypes. We hypothesized that the left-sided structures would grow faster in fetuses with LHH compared to those with AS, and that those with LHH would be more likely to achieve biventricular circulation.
This was a retrospective cohort study using data collected in an institutional cardiology database between April 2001 and April 2018. We included fetuses with severe AS or severe LHH, and with at least two fetal echocardiograms. Inclusion criteria for the AS group included: aortic-annulus Z-score < -2.0, severe AS, depressed LV function, retrograde systolic flow in the aortic arch and endocardial fibroelastosis. Inclusion criteria for the LHH group included: aortic-annulus Z-score < -2.0, hypoplastic but apex-forming LV, normal LV function and retrograde systolic flow in the aortic arch. Exclusion criteria were: abnormal cardiac connections, other forms of structural congenital heart disease, cardiomyopathy, history of fetal aortic valvuloplasty and participation in a maternal hyperoxygenation study. Measurements and respective Z-scores for the aortic-valve annulus, mitral-valve annulus, LV long- and short-axis dimensions, along with aortic-arch measurements, were collected longitudinally for each fetus and plotted over time for both cohorts. Mean slopes of change in dimension and Z-scores over gestation were calculated and compared between the two groups using mixed generalized linear regression accounting for repeated measures. A subanalysis was performed, matching six fetuses from each group for initial aortic-annulus Z-score and gestational age, due to the significant differences in these two variables between the original cohorts.
In total, 53 fetuses with 158 echocardiograms were included. In the AS cohort, there were 20 (38%) fetuses with 65 echocardiograms, and in the LHH cohort there were 33 (62%) fetuses with 93 echocardiograms. On the first echocardiogram, LHH fetuses had a later gestational age and a larger aortic-annulus diameter. The rate of aortic-annulus growth was greater in the LHH group compared with the AS group (mean ± SD, 0.15 ± 0.01 mm/week for LHH vs 0.07 ± 0.01 mm/week for AS (P < 0.001)). While the LHH group had a decrease in aortic-annulus Z-score over time, this was at a slower rate than the decrease in the AS group (mean ± SD, -0.04 ± 0.02/week for LHH vs -0.13 ± 0.02/week for AS (P < 0.001)). A similar pattern was seen for the mitral-valve and LV short-axis-dimension Z-scores. Subanalysis of six fetuses from each group matched for initial aortic-annulus Z-score and gestational age demonstrated similar findings, with the LHH group Z-scores decreasing at a slower rate than those in the AS group. Fifty-two of the 53 fetuses were liveborn, one LHH fetus dying in utero. Of the 20 liveborn in the AS cohort, 15 (75%) infants underwent single-ventricle palliation, two (10%) underwent biventricular repair and three (15%) died prior to intervention. Of the 32 liveborn in the LHH cohort, three (9.4%) underwent single-ventricle palliation, 28 (87.5%) achieved biventricular circulation, of which six required no surgery, and one (3.1%) died prior to intervention.
The left-sided cardiac structures grow at a faster rate in fetuses with severe LHH than they do in fetuses with severe AS, and the Z-scores decrease at a slower rate in fetuses with severe LHH than they do in those with severe AS. The majority of infants in the LHH group did not undergo single-ventricle palliation. This information can be useful in counseling families on the expected growth potential of the fetus's aortic valve, mitral valve and LV, depending on the cardiac phenotype. © 2022 International Society of Ultrasound in Obstetrics and Gynecology.
胎儿存在两种临界左心表型:(1)严重主动脉瓣狭窄(AS),与“短而胖”的球形左心室(LV)、左心室收缩功能障碍和左心室生长停滞相关;(2)严重左心发育不全(LHH),与“长而瘦”的左心室、通过发育不全的二尖瓣和主动脉瓣的层流以及主动脉弓发育不全相关。这两种表型的胎儿都可能接受单心室姑息治疗的咨询。我们旨在比较妊娠期间左侧心脏结构的生长速率和Z评分变化,并描述与这两种表型相关的产后结局。我们假设与AS胎儿相比,LHH胎儿的左侧结构生长更快,且LHH胎儿更有可能实现双心室循环。
这是一项回顾性队列研究,使用2001年4月至2018年4月在机构心脏病数据库中收集的数据。我们纳入了患有严重AS或严重LHH且至少有两次胎儿超声心动图检查的胎儿。AS组的纳入标准包括:主动脉瓣环Z评分<-2.0、严重AS、左心室功能降低、主动脉弓收缩期逆向血流和心内膜弹力纤维增生症。LHH组的纳入标准包括:主动脉瓣环Z评分<-2.0、发育不全但有尖的左心室、左心室功能正常和主动脉弓收缩期逆向血流。排除标准为:心脏连接异常、其他形式的结构性先天性心脏病、心肌病、胎儿主动脉瓣成形术史以及参与母体高氧研究。纵向收集每个胎儿的主动脉瓣环、二尖瓣环、左心室长轴和短轴尺寸的测量值及相应的Z评分,以及主动脉弓测量值,并为两个队列绘制随时间变化的图表。计算妊娠期间尺寸和Z评分变化的平均斜率,并使用考虑重复测量的混合广义线性回归在两组之间进行比较。由于原始队列在这两个变量上存在显著差异,因此进行了一项亚分析,将每组的六个胎儿按初始主动脉瓣环Z评分和胎龄进行匹配。
总共纳入了53例胎儿的158次超声心动图检查。在AS队列中,有20例(38%)胎儿接受了65次超声心动图检查,在LHH队列中,有33例(62%)胎儿接受了93次超声心动图检查。在首次超声心动图检查时,LHH胎儿的胎龄较大,主动脉瓣环直径也较大。与AS组相比,LHH组主动脉瓣环的生长速率更高(平均值±标准差,LHH组为0.15±0.01mm/周,AS组为0.07±0.01mm/周(P<0.001))。虽然LHH组主动脉瓣环Z评分随时间下降,但下降速度比AS组慢(平均值±标准差,LHH组为-0.04±0.02/周,AS组为-0.13±0.02/周(P<0.001))。二尖瓣和左心室短轴尺寸Z评分也呈现类似模式。对每组六个按初始主动脉瓣环Z评分和胎龄匹配的胎儿进行亚分析,结果显示了类似的发现,LHH组Z评分下降速度比AS组慢。53例胎儿中有52例活产,1例LHH胎儿在子宫内死亡。在AS队列的20例活产儿中,15例(75%)婴儿接受了单心室姑息治疗,2例(10%)接受了双心室修复,3例(15%)在干预前死亡。在LHH队列的32例活产儿中,3例(9.4%)接受了单心室姑息治疗,28例(87.5%)实现了双心室循环,其中6例无需手术,1例(3.1%)在干预前死亡。
与严重AS胎儿相比,严重LHH胎儿的左侧心脏结构生长速率更快,且严重LHH胎儿的Z评分下降速度比严重AS胎儿慢。LHH组的大多数婴儿未接受单心室姑息治疗。这些信息有助于为家庭提供咨询,根据心脏表型了解胎儿主动脉瓣、二尖瓣和左心室的预期生长潜力。©2022国际妇产科超声学会。
