Fetal ultrasound findings
As shown in Table 1, CFMs, including cranial malformations (41, 34.7%), orofacial clefts (44, 37.3%), ocular and orbital malformations (6, 5.1%), nasal deformities (5, 4.2%), ear abnormalities (3, 2.5%), macroglossia (1, 0.8%), micrognathia (1, 0.8%), and complex CFMs (17, 14.4%) were observed in 118 fetuses. Complex CFMs refer to abnormalities involving two or more different cranial or facial features. Of these 118 cases, 47 (39.8%) were isolated CFMs while 71 (60.2%) were non-isolated CFMs.
TABLE 1 Phenotypic characteristics of 118 fetuses with CFMs
Abnormalities
|
Isolated CFM (N)
|
Non-isolated CFM (N)
|
Referred cases (N)
|
Cranial malformations
|
|
|
41(34.7%)
|
Microcephaly
|
5
|
4
|
9
|
Macrocephaly
|
1
|
5
|
6
|
Defect in the skull bone
|
0
|
13
|
13
|
Abnormal skull shape
|
3
|
10
|
13
|
Orofacial clefts
|
|
|
44(37.3%)
|
cleft lip
|
6
|
4
|
10
|
cleft palate
|
0
|
1
|
1
|
cleft lip and palate
|
19
|
14
|
33
|
Ocular and orbital malformations
|
|
|
6(5.1%)
|
Hypertelorism
|
0
|
3
|
3
|
Hypotelorism
|
0
|
2
|
2
|
Microphthalmia,Cataract
|
0
|
1
|
1
|
Nasal deformity
|
5
|
0
|
5(4.2%)
|
Ear abnormality
|
2
|
1
|
3(2.5%)
|
Macroglossia
|
0
|
1
|
1(0.8%)
|
Micrognathia
|
1
|
0
|
1( 0.8%)
|
Complex CFMs
|
5
|
12
|
17(14.4%)
|
Total
|
47(39.8%)
|
71(60.2%)
|
118(100%)
|
CFM, craniofacial malformation.
Conventional G-banded cytogenetic analysis findings
Samples for karyotype analysis were obtained from 104 fetuses (40 samples from amniocentesis and 64 samples from cordocentesis); another 14 samples obtained from aborted fetuses were excluded. Successful karyotyping results indicated that 16 (16/104; 15.4%) fetuses had chromosomal abnormalities; 11 cases showed aneuploidy including trisomy 13 (n = 5), trisomy 18 (n = 4), trisomy 21 (n = 1), and mosaicism 45,X[32]/46,XY[3] (n = 1). Another 5 cases showed chromosomal structural aberrations: 46,XN,der(13)t(4;13)(q35;q31), 46,XN,der(13)t(13;16)(q32;q23), 46,XN,del(7)(q34), 46,XN,rec(6)dup(6q)inv(6)(p25q22), and 45,XN,der(14)t(14;20)(p13;p11.2),-20[17]/46,XN[17].
CMA findings
An interpretable CMA profile was obtained for all 118 tested genomic DNA samples. Clinically significant results were found in 33 cases (33/118; 28.0%), including 14 cases (14/118; 11.9%) with chromosomal aneuploidies and 19 cases (19/118; 16.1%) with Pathogenic (P) or Likely Pathogenic (LP) CNVs.
In the 14 cases with CMA results indicating chromosomal aneuploidies, 6 fetuses had trisomy 13, 5 fetuses had trisomy 18, one fetus had trisomy 21, one fetus had monosomy X, and one fetus had mosaic copy gain of the X chromosome in approximately 20% of cells (Table 2). Of the 19 cases with P/LP CNVs, we identified 9 fetuses (9/118; 7.6%) with CNVs related to known microdeletion or microduplication syndromes (MMSs). These included 22q11 deletion syndrome (n = 3), 22q11 duplication syndrome (n = 1), 7q11.23 duplication syndrome (n = 1), 3q29 microdeletion syndrome (n = 1), 16p11.2 microduplication syndrome (n = 1), renal cysts and diabetes syndrome (n = 1), and 8p23.1 duplication syndrome (n = 1). In addition to MMSs, we identified a further 20 pathogenic CNVs from 11 fetuses. These CNVs involved deletions of 1q21, 4q32q35, 6p25p25, 7q34q36, 11q24q25, 13q31q34, 20p13p11, and Xq26q28, and duplications of 4q32q35, 4q35, 6q22q25, 6q25q27, 7p22p21, 8p23p23, 8p23, 16q23q24, and 16p13p13 (Table 3 and Figure 1). Among these cases, fetus 23 was found to have 8p23.1 duplication syndrome combined with another 4 pathogenic CNVs.
All 33 fetuses identified to have P/LP CNVs were terminated in pregnancy or died in utero. Additionally, we found that 9 (9/118; 7.6%) fetuses that had variant of unknown significance CNVs. The remaining 76 cases (76/118; 64.4%) had no CMA abnormalities or only likely benign/benign CNVs.
TABLE 2 CFMs fetuses with chromosomal aneuploidy abnormalities identified by CMA and karyotype analysis
Case
|
Karyotype
|
CMA results
|
Craniofacial malformations
|
Other malformations
|
1
|
47,XN,+13
|
arr(13)×3
|
CLP
|
Gallbladder enlargement; ES; Hyperechogenic kidneys; Strephenopodia; Small stomach bubble
|
2
|
47,XN,+13
|
arr(13)×3
|
Microphthalmia,CLP
|
Gallbladder enlargement; DW; Hyperechogenic kidneys
|
3
|
47,XN,+13
|
arr(13)×3
|
Abnormal skull shape, CLP
|
HPE, DK, TOF
|
4
|
47,XN,+13
|
arr(13)×3
|
Lemon-shaped skull
|
Bilateral cerebral ventriculomegaly; SB
|
5
|
47,XN,+13
|
arr(13)×3
|
CLP
|
—
|
6
|
NA
|
arr(13)×3
|
Skull defect
|
Encephalocele
|
7
|
47,XN,+18
|
arr(18)×3
|
Abnormal skull shape
|
HPE; absent radius; VSD; SUA
|
8
|
47,XN,+18
|
arr(18)×3
|
Microtia, Abnormal pinna
|
CHD, CH, abnormal hand posture, SUA, polyhydramnios
|
9
|
NA
|
arr(18)×3
|
Midface depression
|
Limb body wall complex
|
10
|
47,XN,+18
|
arr(18)×3
|
CLP
|
CPC; VSD
|
11
|
47,XN,+18
|
arr(18)×3
|
Strawberry-shaped skull
|
Overlapping hands,CPC,LPCM,SUA
|
12
|
47,XN,+21
|
arr(21)×3
|
Abnormal skull shape
|
—
|
13
|
45,X[32]/46,XY[3]
|
arr(X)×1
|
CL
|
—
|
14
|
NA
|
arr(X) ×1~2, (Y) ×1
|
Skull defect
|
Anencephaly; Enlarged bladder
|
CFM, craniofacial malformation; CH, cerebral hernia; CHD, complex congenital heart disease; CLP, cleft lip and palate; CL, cleft lip; CMA, chromosomal microarray analysis; CPC, choroid plexus cysts; DK, duplex kidney; DWM, Dandy-Walker malformation; ES, esophageal stenosis; HPE, Holoprosencephaly; LPCM, low placed conus medullaris; SB, Spina bifida; SUA, single umbilical artery; TOF, tetralogy of Fallot; VSD, ventricular septal defect; XN, XX or XY.
TABLE 3 CFMs fetuses with microdeletion/microduplication syndromes and other pCNVs
Case
|
Craniofacial malformations
|
Other findings
|
Karyotype
|
Candidate Gene
|
Clinical significance
|
CMA results
|
Size (Mb)
|
Inheritance
|
15
|
CLP
|
—
|
46,XN
|
TBX1
|
P (22q11 proximal deletion syndrome)
|
22q11.21(18895227_21460220)×1
|
2.56
|
NA
|
16
|
CLP
|
CHD
|
46,XN
|
TBX1
|
P (22q11 proximal deletion syndrome)
|
22q11.21(18895227_21445064)×1
|
2.55
|
De novo
|
17
|
CL
|
RVE, RAE, APVD
|
46,XN
|
MAKP1
|
P (22q11.2 distal deletion syndrome)
|
22q11.2(21798907_22762651)×1
|
0.96
|
De novo
|
18
|
CLP
|
—
|
NA
|
TBX1
|
P (22q11 duplication syndrome)
|
22q11.2(18648855_21800471)×3
|
3.15
|
Maternal
|
19
|
Skull defect
|
Anencephaly
|
NA
|
_
|
P (7q11.23 duplication syndrome)
|
7q11.23(72722981_74494207)×3
|
1.77
|
NA
|
VOUS
|
14q12(25333115_26945366)×3
|
1.61
|
NA
|
20
|
CLP
|
—
|
46,XN
|
PCYT1A, DLG1
|
P (3q29 microdeletion syndrome)
|
3q29(195678474_197340833)×1
|
1.66
|
NA
|
21
|
Macrocephaly
|
Hydronephrosis
|
46,XN
|
LHX1
|
P (Rrenal cysts and diabetes syndrome)
|
17q12(34462281_36249565)×1
|
1.78
|
De novo
|
22
|
CLP
|
IUGR
|
46,XN
|
_
|
VOUS
|
14q32.33(104871320_106251148)×1
|
1.38
|
Maternal
|
LP (16p11.2 microduplication syndrome)
|
16p11.2(29681582_30190029)×3
|
0.51
|
De novo
|
23
|
Abnormal skull shape
|
Absent gallbladder, RD, PE, IUGR, HPE
|
NA
|
ZIC2
|
P
|
4q32.2q35.2(163980423_190880409)×3
|
26.89
|
De novo
|
P
|
8p23.3p23.1(176818_6974050)×3
|
6.80
|
De novo
|
P(8p23.1 duplication syndrome)
|
8p23.1(8101641_11394233)×3
|
3.29
|
De novo
|
P
|
13q31.3q34(92884370_115106996)×1
|
22.22
|
De novo
|
P
|
Xq26.2q28(130488944_154929412)×1
|
24.40
|
De novo
|
24
|
Abnormal skull shape
|
HPE
|
46,XN,der(13)t(4;13)(q35;q31)
|
ZIC2
|
P
|
4q35.1q35.2(183907715_190880409)×3
|
6.97
|
Paternal balanced translocation
|
P
|
13q31.3q34(94514343_115106996)×1
|
20.59
|
25
|
CLP
|
VWT
|
46,XN,der(13)t(13;16)(q32;q23)
|
ZIC2
|
P
|
13q32.1q34(96311577_115106996)×1
|
18.8
|
Maternal balanced translocation
|
P
|
16q23.2q24.3(81148438_90148796)×3
|
9.00
|
26
|
CL
|
DWM
|
46,XN
|
SHH
|
P
|
7p22.3p21.2(43376_15044564)×3
|
15.00
|
NA
|
P
|
7q34q36.3(142326472_159119707)×1
|
16.79
|
27
|
Abnormal skull shape, Hypotelorism, beaked nose
|
HPE, absent radius
|
46,XN,del(7)(q34)
|
SHH
|
P
|
7q34q36.3(138831707_159119486)×1
|
20.28
|
De novo
|
28
|
Midfacial hypoplasia
|
BPC,Hyperechogenic kidneys, LM, LPCM
|
46,XN,rec(6)dup(6q)inv(6)(p25q22)
|
FOXC1
|
P
|
6p25.3p25.1(156974_5395099)×1
|
5.24
|
Maternal inversion
|
P
|
6q22.32q25.3(126253838_170914297)×3
|
44.66
|
29
|
Microcephaly
|
RAA,Persistent LSVC
|
45,XN,der(14)t(14;20)(p13;p11.2),-20[17]/46,XN[17]
|
SNRPB, CSNK2A1
|
P
|
20p13p11.21(61661_21268329)×1[0.4]
|
21.21
|
De novo
|
30
|
CP
|
PFL, NT thickening, Omphalocele
|
NA
|
HPGD (AR)
|
P
|
4q32.3q35.2(169998230_190880409)×1
|
20.88
|
Maternal balanced translocation
|
P
|
6q25.3q27(158387117_170898549)×3
|
12.51
|
31
|
Midfacial hypoplasia, flat nose, prominent maxilla
|
MCDK,VSD,Persistent LSVC,SUA
|
46,XN
|
CREBBP
|
P
|
11q24.1q25(122446233_134944006)×1
|
12.49
|
De novo
|
P
|
16p13.3p13.12(105320_12986742)×3
|
12.88
|
De novo
|
32
|
Hypertelorism
|
ICL,Arachnoid cyst
|
46,XN
|
FOXC1
|
P
|
6p25.3p25.2(1482077_2681511)×1
|
1.20
|
De novo
|
33
|
Micrognathia
|
—
|
46,XN
|
SF3B4
|
P
|
1q21.2(149815079_150260948)×1
|
0.44
|
De novo
|
APVD, anomalous pulmonary venous drainage; BPC, blake's pouch cyst; CFM, craniofacial malformation; CHD, complex heart disease; CL, cleft lip; CLP, cleft lip and palate; CMA, chromosomal microarray analysis; CNV, copy number variant; CP, cleft palate; DWM, Dandy-Walker malformation; HPE, Holoprosencephaly; ICL, intracranial cystic lesions; IUGR, intrauterine growth retardation; LM, Limb Malformations; LP, likely pathogenic; LPCM, low placed conus medullaris; LSVC, left superior vena cava; MCDK, multicystic dysplastic kidney; NA, not available;NT, nuchal translucency; P, pathogenic; PE, pericardial effusion; PFL, posterior Fossa Lesions; RAE, right atrial enlargement; RAA, right aortic arch; RD, Renal dysplasia; RVE, right ventricular enlargement; SUA, single umbilical artery; VOUS, variant of unknown significance; VWT, ventricular wall thickening; VSD, ventricular septal defect; XN,
Identification of CFM-associated CNVs and genes
We further analyzed the associations between CFMs and these CNVs and identified the potential candidate genes within these regions. We screened several dosage-sensitive or suspected dosage-sensitive genes, including genes TBX1 (22q11.21), MAPK1 (22q11.22), PCYT1A (3q29), and DLG1 (3q29) related to cleft lip/palate, LHX1 (17q12) related to macrocephaly, SF3B4 (1q21.2) related to micrognathia, FOXC1 (6p25.3) related to ocular hypertelorism and midfacial hypoplasia, ZIC2 (13q32.3) related to cleft lip/palate and abnormal skull shape, SHH (7q36.3) related to multiple CFMs, CREBBP (16p13.3) related to complex CFMs, and SNRPB or CSNK2A1 (20p13) related to microcephaly.
Comparison of chromosomal abnormality detection rates
Overall, as shown in Table 4, the detection rate of chromosomal abnormalities in non-isolated CFM fetuses was significantly higher than in isolated CFM fetuses (26/71 vs. 7/47; p = 0.01). However, there was no significant difference in the chromosomal abnormality detection rate of complex CFMs compared to simple CFMs (6/17 vs. 27/101; p > 0.05).
TABLE 4 Detection rate of clinically significant chromosomal aberrations in fetuses with various CFMs
Malformation
|
Simple CFMs
|
Complex CFMs (n/N)
|
Referred cases (n/N,%)
|
Cranial malformation (n/N)
|
Orofacial cleft (n/N)
|
Nasal deformity (n/N)
|
Ocular malformation (n/N)
|
Ear abnormality (n/N)
|
Macroglossia (n/N)
|
Micrognathia (n/N)
|
Isolated CFMs
|
1/9
|
5/25
|
0/5
|
0/0
|
0/2
|
0/0
|
1/1
|
0/5
|
7/47, 14.9%
|
Non-isolated CFMs
|
10/32
|
8/19
|
0/0
|
1/6
|
1/1
|
0/1
|
0/0
|
6/12
|
26/71, 36.6%
|
Total
|
11/41
|
13/44
|
0/5
|
1/6
|
1/3
|
0/1
|
1/1
|
6/17
|
33/118, 28.0%
|
CFM, craniofacial malformation.