Molecular genetic characterization of a prenatally detected de novo interstitial deletion of chromosome 2q (2q31.1-q32.1) encompassing HOXD13, ZNF385B and ZNF804A associated with syndactyly and increased first-trimester nuchal translucency

Objective

We present prenatal diagnosis and molecular genetic characterization of a de novo interstitial deletion of 2q (2q31.1-q32.1) and discuss the genotype–phenotype correlation.

Trisomy 2 due to a 3:1 segregation in an abortion studied by QF-PCR and CGH

Balanced reciprocal translocation is one of the known causes of recurrent spontaneous abortions. Cytogenetic studies of unbalanced miscarriages are difficult due to the growth failure of early loss and usually macerated abortions. We present a molecular study of an abortion in which the father carries a balanced reciprocal translocation t(2;17)(q32.1;q24.3) using QF-PCR and CGH techniques. DNA analysis showed the presence of a trisomy 2 due to a 3:1 interchange segregation. Recombinant events could also be investigated by comparing DNA samples from the family. We propose QF-PCR in addition to CGH as an efficient diagnostic method to improve our knowledge of unbalanced offspring in balanced translocation carriers.     

Prenatal diagnosis of holoprosencephaly in two fetuses with der (7)t(1;7)(q32;q32)pat inherited from the father with double translocations

The presence of two independent translocations in one person is rare. Herein, we report the prenatal diagnosis of two sibling fetuses with holoprosencephaly, whose father is a carrier of double translocations. The karyotype of the father is 46,XY, t(1;7) (q32;q32), t(14,15) (q32.1;q26.3). The two fetuses had variable facial dysmorphisms and identical cytogenetic abnormality-a derivative (7) t(1;7) (q32;q32) inherited from the father. The proband 1 showed a small mouth, a single median eye and a proboscis above the eye, while the proband 2 showed hypotelorism, a flat nose, cleft lip and cleft palate. Both fetuses also had alobar holoprosencephaly. Haploinsufficiency of the sonic hedgehog gene at 7q36 does account for the occurrence of holoprosencephaly in the two fetuses with a deletion of distal 7q (7q32 --> qter).     

Fetus with unbalanced translocation involving chromosomes 2 and 11.

We report a fetus with an unbalanced translocation between chromosomes 2 and 11, the product of a paternal balanced reciprocal translocation, fetal karyotype 46, XX, -11, +der(11)t(2;11) (q35;q24.1)pat. The fetus had unusual facial features. The relevance of this case to mapping of the type I Waardenburg syndrome gene is discussed.     

Early and rapid prenatal diagnosis of monosomy 2q36.1 in trophoblast cells

OBJECTIVES: CVS is the earliest procedure for cytogenetic analysis but the quality of metaphases obtained does not allow the characterization of subtle chromosomal anomalies. We report the application interphase fluorescence in situ hybridization for the rapid prenatal diagnosis of a subtle structural chromosome anomaly in trophoblast cells. METHODS AND RESULTS: The foetus was karyotyped because of a paternal complex chromosomal anomaly 46,XY,inv(2)(q14.3q35),ins(10;2)(q25;q36.1q36.1). Fluorescence in situ hybridization analyses were performed on interphase nuclei and metaphase chromosomes from uncultured chorionic villi using bacterial artificial chromosomes specific for the 2q chromosomal region. Direct conventional cytogenetics showed an apparently normal male karyotype, whereas fluorescence in situ hybridization analysis showed a deletion of the chromosomal region 2q36.1 and a paracentric inversion of the chromosome 2q leading to a partial monosomy 2q36.1. CONCLUSION: This strategy allowed us to offer an early and rapid chromosomal analysis for this couple leading to a better management of the pregnancy. This report demonstrates that interphase fluorescence in situ hybridization can be used in direct CVS for a rapid and early prenatal diagnosis of complex chromosomal rearrangements.     

Prenatal diagnosis of a 15q11.2-q14 deletion of paternal origin associated with increased nuchal translucency,mosaicism for de novo multiple unbalanced translocations involving 15q11-q14, 5qter, 15qter, 17pter and 3qter and Prader–Willi syndrome

ObjectiveWe present prenatal diagnosis of a 15q11.2-q14 deletion of paternal origin associated with increased nuchal translucency (NT), mosaicism for de novo multiple unbalanced translocations involving 15q11-q14, 5qter, 15qter, 17pter and 3qter, and Prader–Willi syndrome (PWS).Case reportA 32-year-old, primigravid woman underwent amniocentesis at 18 weeks of gestation because of an increased NT thickness of 5.6 mm and abnormal maternal serum screening results in the first trimester. The pregnancy was conceived by in vitro fertilization and embryo transfer. Amniocentesis revealed a karyotype of 45,XX,der(5)t(5;15)(q35;q14),-15 [16]/45,XX,-15,der(17)t(15;17)(q14;p13)[3]/45,XX,der(15)t(15;15)(q35;q14),-15[2]. The parental karyotypes were normal. Prenatal ultrasound findings were unremarkable. Array comparative genomic hybridization (aCGH) analysis on the DNA extracted from cultured amniocytes revealed the result of arr 15q11.2q14 (22,765,628–38,651,755) × 1.0 [GRCh37 (hg19)] with a 15.886-Mb 15q11.2-q14 deletion encompassing TUBGCP5, CYFIP1, NIPA2, NIPA1, SNRPN, SNURF, SNORD116-1, IPW, UBE3A, ACTC1 and MEIS2. The pregnancy was subsequently terminated, and a malformed fetus with facial dysmorphism was delivered. The cord blood had a karyotype of 45,XX,der(5)t(5;15)(q35;q14),-15[46]/45,XX,der(3)t(3;15) (q29;q14),-15[2]/45,XX,-15,der(17)t(15;17)(q14;p13)[2]. The placenta had a karyotype of 45,XX,der(5) t(5;15)(q35;q14),-15. Polymorphic DNA marker analysis confirmed a paternal origin of the proximal 15q deletion.ConclusionIncreased NT and abnormal maternal serum screening results may prenatally be associated with PWS. Chromosome 15 rearrangements in PWS include mosaicism for de novo multiple unbalanced translocations.     

Duplication dup(1)(q32q44) detected by comparative genomic hybridization (CGH): further delineation of trisomies 1q

Partial trisomy 1q is rare and mostly the result of an abnormal segregation of parental translocation chromosomes and their homologues. Only 31 cases have been described with pure partial trisomy 1q. In the fetus presented, chromosome analysis after amniocentesis had shown an unbalanced male karyotype with an aberrant chromosome 1. A de novo terminal duplication of the long arm was suspected but could not be verified by FISH in 1994. Five years after fetal death, retrospective identification of the additional material in 1q could finally be achieved by comparative genomic hybridization (CGH) using DNA extracted from formalin-fixed and paraffin-embedded fetal tissues. A direct duplication dir dup (1)(pter-->q44::q32.1-->qter) was found. Only 6 other individuals with duplication of this segment have been described so far. Comparative delineation of a dup1q phenotype with regard to size and origin of the dup (1q) segment evidenced that large duplications as well as proximal and interstitial duplications coincide with more severe visceral malformations, severe mental retar- dation and a short life span. Terminal duplications (1q32-->qter) concur with less severe malformations and longer periods of survival, but marked mental retardation. With small terminal duplications (1q42-->qter) dysmorphisms are usually mild and intellectual performance is mostly in the normal range.     

Prenatal diagnosis and molecular cytogenetic characterization of a de novo interstitial duplication of 14q (14q31.3→q32.12) associated with abnormal maternal serum biochemistry

ObjectiveTo present prenatal diagnosis and molecular cytogenetic characterization of a de novo interstitial duplication of 14q (14q31.3→q32.12) in a pregnancy associated with abnormal maternal serum biochemistry.Case ReportA 19-year-old woman underwent amniocentesis in the second trimester because of abnormal maternal serum biochemistry. Her husband was 33 years old. At 16 weeks of gestation, the levels of α-fetoprotein, unconjugated estriol, total β-human chorionic gonadotropin, and inhibin A were 0.8 multiples of median (MoM), 0.84 MoM, 3.06 MoM, and 1.14 MoM, respectively, consistent with a positive trisomy 21 risk of 1/269. Results of an amniocentesis revealed a small de novo interstitial duplication of 14q encompassing 14q31-q32.1. An array comparative genomic hybridization analysis detected a 6.6-Mb duplication at chromosome 14q31.3-q32.12. Results of a fluorescence in situ hybridization analysis showed a direct duplication of interstitial 14q. The karyotype was 46,XY,dup(14) (q31.3q32.12). Level II ultrasound was unremarkable. The parents decided to continue the pregnancy. A 3805-g healthy male baby was delivered at 39 weeks of gestation. When examined at 6 months of age, the neonate was normal in growth and psychomotor development with no apparent phenotypic abnormalities, although long-term follow-ups are required.ConclusionAbnormal maternal serum biochemistry in the second trimester may be a distinctive prenatal feature in pregnancy associated with fetal chromosome 14q duplication.     

Prenatal diagnosis and molecular cytogenetic characterization of a de novo 3.19-Mb chromosome 14q32.13-q32.2 deletion of paternal origin

ObjectiveWe present prenatal diagnosis and molecular cytogenetic characterization of a de novo 3.19-Mb chromosome 14q32.13-q32.2 deletion of paternal origin.Case reportA 36-year-old woman underwent amniocentesis at 20 weeks of gestation because of an advanced maternal age. Her husband was 36 years old. Amniocentesis revealed a karyotype of 46,XY,del(14)(q32.1q32.2). Simultaneous array comparative genomic hybridization (aCGH) analysis showed the result of a 14q32.13-q32.2 deletion. Prenatal ultrasound was unremarkable. The parental karyotypes were normal and did not have such a deletion. The pregnancy was subsequently terminated, and a malformed fetus was delivered with facial dysmorphism. aCGH was applied on the DNA extracted from cord blood. Polymorphic DNA marker analysis was applied on the DNAs extracted from placenta and parental bloods. aCGH confirmed a 3.19-Mb 14q32.13-q32.2 deletion or arr 14q32.13q32.2 (96,151,751–99,341,476) × 1.0 [GRCh37 (hg19)] encompassing 10 Online Mendelian Inheritance in Man (OMIM) genes of TCL1B, TCL1A, TUNAR, BDKRB2, BDKRB1, ATG2B, GSKIP, AK7, PAPOLA and VRK1. Polymorphic DNA marker analysis confirmed a paternal origin of a de novo interstitial distal 14q deletion.ConclusionDetermination of the paternal origin of a prenatally detected de novo interstitial distal 14q deletion by polymorphic DNA marker analysis in this case is significant, and the information acquired is useful for genetic counseling, especially when amniocentesis is performed because of an advanced maternal age.     

Candidate epigenetic biomarkers for non-invasive prenatal diagnosis of Down syndrome

This report describes the first identification and characterization of three chromosome-21-specific DNA sequences (and reference sequences from other chromosomes) that are differentially methylated between peripheral blood and placental tissue, with the aim of providing epigenetic biomarkers for quantifying cell-free fetal DNA in maternal plasma. To select sequences to be screened for differential methylation, three strategies were adopted: (i) investigating promoters of highly differentially expressed genes; (ii) choosing 'random' promoter regions; and (iii) choosing 'random' non-promoter regions. Over 200 pre-selected DNA sequences were screened using a methylation-specific restriction enzyme assay. Differentially methylated sequences located at 21q22.3 (AIRE, SIM2 and ERG genes), 1q32.1 (CD48 gene and FAIM3 gene), 2p14 (ARHGAP25 gene) and 12q24 (SELPLG gene) were identified. Bisulphite conversion confirmed that CpG sites within the AIRE promoter region are highly differentially methylated, and optimized methylation-specific primers for this region that are highly specific for placental DNA were devised. Next, it was shown that the methylation status of chorionic villus sample DNA from first trimester pregnancies matched the hypermethylated state of term placenta. Thus there is no indication of a difference in methylation status between early and term pregnancy for the sequences tested. The identified sequences constitute candidate biomarkers for non-invasive prenatal diagnosis of Down syndrome.     

Multicolor chromosomal bar coding characterizes a de novo interstitial deletion (5)(q33.3q35.2) in a child with multiple congenital malformations

We describe a boy with multiple congenital anomalies including a complex heart defect, club feet, adducted thumbs, and facial dysmorphic features. He died at the age of 2 months following cardiac surgery. G-banding analysis identified an abnormal chromosome 5q suspected to be an interstitial deletion (5)(q33q35). Breakpoints of the deleted segment were confirmed as del(5)(q33.3q35) by multicolor fluorescence in situ hybridization (FISH) using two sets of combinatorially labeled band specific YAC clones. Findings are discussed in view of previously published cases.     

Prenatal diagnosis and molecular cytogenetic characterization of mosaicism for a small supernumerary marker chromosome derived from ring chromosome 2

ObjectiveTo present prenatal diagnosis and molecular cytogenetic characterization of mosaicism for a small supernumerary marker chromosome (sSMC) derived from ring chromosome 2 [r(2)].Methods and ResultsA 35-year-old woman underwent amniocentesis at 17 weeks of gestation, because of advanced maternal age. Amniocentesis revealed a de novo ring-shaped sSMC in 11 of 23 colonies of cultured amniocytes. Repeated amniocenteses were made. The sSMC was characterized by array comparative genomic hybridization (aCGH), interphase fluorescence in situ hybridization (FISH) and quantitative fluorescent polymerase chain reaction (QF-PCR) on uncultured amniocytes. In uncultured amniocytes, aCGH showed a 39.49-Mb genomic gain in chromosome 2 encompassing 2q11.2→q21.2, interphase FISH revealed a mosaic level of 52% (52/100 cells), and QF-PCR manifested a diallelic pattern for chromosome 2, with gene dosage increase in the paternal allele of proximal 2q-specific DNA markers. In cultured amniocytes, the sSMC was characterized by metaphase FISH, spectral karyotyping (SKY) and multicolor banding (MCB) to contain the centromere and proximal 2q, and the karyotype was 47,XX,+r(2)(p11.1q21.2)[14]/46,XX[11]. The pregnancy was terminated. The fetus postnatally manifested facial dysmorphisms. Postnatal cytogenetic analyses revealed the karyotypes of 47,XX,+r(2)[12]/46,XX[28] in cord blood, 47,XX,+r(2)[7]/46,XX[33] in umbilical cord, 47,XX,+r(2)[13]/47,XX,+idic r(2)[3]/46,XX[24] in placenta and 47,XX,+r(2)[8]/47,XX,+idic r(2)[1]/46,XX[31] in amnion.ConclusionMolecular cytogenetic techniques such as aCGH, interphase FISH and QF-PCR on uncultured amniocytes, and SKY, MCB and metaphase FISH on cultured amniocytes are useful for characterization of the nature of a prenatally detected sSMC.     

A female infant with duplication of chromosome 2q33 to 2q37.3

We report a 13-month-old female child with a de-novo inverted duplication of chromosome 2q extending from 2q33 to 2q37.3. She had microcephaly and craniofacial dysmorphism compatible with previously reported cases with overlapping duplications of chromosome 2q. Although a facial phenotype for pure partial trisomy 2q3 has been described, some controversy still exists regarding possible band specificity for the facial findings. We consider this child provides further evidence for a recognizable facial appearance associated with duplication of chromosome band 2q33 to 2q37.3. Other clinical features found with duplication for chromosome 2q3 have been variable and we provide a summary of the findings in previously reported cases.     

Application of array comparative genomic hybridization (aCGH) for identification of chromosomal aberrations in the recurrent pregnancy loss

Spontaneous abortion occurs in 8–20% of recognized pregnancies and usually takes place in the first trimester (7–11 weeks). There are many causes of pregnancy loss, but the most important (about 75%) is the presence of chromosomal aberrations. We present the results of oligonucleotide array application in a cohort of 62 miscarriage cases. The inclusion criteria for the study were the loss after 8th week of pregnancy and the appearance of recurrent miscarriages. DNA was extracted from trophoblast or fetal skin fibroblasts. In the 62 tested materials from recurrent miscarriages, the detection rate was 56.5% (35/62). The most commonly found were aneuploidies (65%) (chromosomal trisomy 14, 16, 18, 21, and 22), Turner syndrome, and triploidy (17.1%). Other chromosomal abnormalities included pathogenic and likely pathogenic structural aberrations: 1) pathogenic: deletion 7p22.3p12.3 and duplication 9p24.3p13.2 inherited from the normal father, deletion 3q13.31q22.2 and deletion 3q22.3q23 of unknown inheritance and duplication of 17p12 inherited from father with foot malformation; 2) likely pathogenic variants: deletion 17p13.1 inherited from normal mother, deletion 5q14.3 of unknown inheritance and de novo deletion 1q21.1q21.2. Among these aberrations, six CNVs (copy number variants) were responsible for the miscarriage: deletion 7p22.3p12.3 and duplication 9p24.3p13.2, deletion 3q13.31q22.2 and deletion 3q22.3q23, and deletion 17p13.1 and deletion 1q21.1q21.2. Other two findings were classified as incidental findings (deletion 5q14.3 and 17p12 duplication). Our research shows that 17% of the aberrations (6/35 abnormal results) that cannot be identified by the routine kariotype analysis are structural aberrations containing genes important for fetal development, the mutations of which may cause spontaneous abortion.     

Prenatal diagnoses in a family with pericentric inversion of chromosome no. 5

A hereditary pericentric inversion of chromosome 5(p13 leads to q35) was detected in a family after the birth of a child with Cri-du-Chat-syndrome [46,XY,del(5)(p13)]. Prenatal diagnoses were carried out in three pregnancies in this family. The following results were found in the amniotic fluid cells: first pregnancy 46,XX; second 46,XY, inv(5)(p13 leads to q35) and the third 46,XX,der (5)(pter leads to q35::p13 leads to pter). The first two pregnancies ended with the birth of phenotypically normal children; the third one however was interrupted. Fetal kidney tissue cultures confirmed the result of the amniotic fluid cell culture.     

Prenatal diagnosis of a 9q34.3 microdeletion by array-CGH in a fetus with an apparently balanced translocation

OBJECTIVES: Use high-resolution genome analysis to clarify the genomic integrity in a fetus with a cytogenetically balanced translocation t(2;9)(q11.2;q34.3). METHODS: High resolution molecular cytogenetic analyses including G-banded chromosome analysis, fluorescence in situ hybridization (FISH), and array-comparative genomic hybridization (CGH) were performed on cultured cells, and DNA extracted from chorionic villus sample (CVS), amniotic fluid cells and fetal tissue. In addition, a custom fosmid-based tiling path 9q34.3 microarray with a resolution of 35-40 kb was used for array-CGH. RESULTS: GTG-banding analysis showed an apparently balanced de novo translocation between the long arms of chromosomes 2 and 9; t(2;9)(q11.2;q34.3). Array-CGH using a targeted chromosomal microarray analysis (CMA) uncovered a submicroscopic deletion of the subtelomeric region of 9q34.3 revealing the unbalanced nature of the rearrangement. These results were confirmed independently by FISH. The deletion was delimited to 2.7 Mb in size using the 9q34.3 fosmid-based tiling path array-CGH. CONCLUSION: Array-CGH is a powerful tool for rapid detection of genomic imbalances associated with microdeletion/duplication syndromes and for the evaluation of de novo apparently balanced translocation to enable high-resolution genomic analysis at the breakpoints. Prenatal diagnosis of chromosomal rearrangements involving dosage-sensitive genomic regions is an important adjuvant to prenatal care and provides more accurate information for counseling and informed decision making.     

Genetic risk of families with t(1;2)(q42;q33) GTG, RHG, QFQ, FISH

OBJECTIVES: A central concept in genetic counseling is the estimation of the probability of recurrence of unfavourable pregnancy outcomes (abortion, stillbirth and birth at malformed child). In case of chromosomal changes estimates are made on basis of segregation analyses in actual pedigree. If we have a few of pedigree members than risk estimate should be performed on basis combined our data and empiric data from literature. We present individual genetic risk for carriers of unique reciprocal translocation t(1;2)(q42;q33) detected through karyotyping of the patient with miscarriage. MATERIAL AND METHODS: The pedigree consisted 5 families of t(1;2)(q42;q33) carriers with 15 members of progeny was evaluated according to Stene and Stengel-Rutkowski. Cytogenetic analysis of persons of these families (7 persons) was performed on blood samples using GTG, RHG, QFQ and FISH techniques. Additional RCT pedigree analysis of Stengel-Rutkowski et at Collection, Polish Collection, Lituanian Collection, Bielorussian Collection and an available literature cases were performed. RESULTS: The translocation was classified as translocation at risk for double segment imbalances for trisomy 1q42-->qter together with monosomy 2q33-->qter or monosomy 1q42-->qter together with trisomy 2q33-->qter after 2:2 disjunction after adjacent-1 segregation of the meiotic chromosomes. Two improved risk values for RCT with segments 1q42-->qter, 2q33-->qter were obtained i.e. 6/44 (13.6% +/- 5.2%) and 4/20 (20% +/- 8.9%). The probability of occurrence for this translocation carriers was estimated as 7% (medium risk). On basis of direct analysis at presented pedigree a risk for miscarriage was estimated as 2/9. CONCLUSIONS: 1. Carrierships of t(1;2)(q42;q33) increased population risk value for unbalanced progeny at birth by 7% (medium risk) and for miscarriage 2/9. 2. Causative relation between presence of t(1;2)(q42;q33) and miscarriages is suggested. 3. Updated, new genetic risk values for RCT at risk for single segment 1q42-->qter imbalance is 6/44 (13.6% +/- 5.2%) at birth and for single segment 2q33-->qter imbalance is 4/20 (20% +/- 8.9%).     

Congenital cervical rhabdomyosarcoma arising in one fetus of a twin pregnancy

OBJECTIVE: To describe a huge congenital cervical rhabdomyosarcoma. METHODS: We were recently confronted with a case of fetal solid neck mass arising in one fetus of a twin pregnancy. Prenatally, the cervical tumor was consistent with teratoma, but it was diagnosed histologically as a rhabdomyosarcoma. Genetic amniocentesis showed a mosaic pattern consisting of 46,XY/46,XY,t(2;8)(q35;q21.2). Results: EXIT procedure was proposed to the parents but declined. The twin with huge cervical tumor died in utero at 35 weeks' gestation due to hydrops fetalis. CONCLUSION: Fetal cervical rhabdomyosarcoma is an extremely rare condition that has not been previously reported, but should be considered in the presentation of fetal solid neck mass.     

Mosaic 46,XY,der(15)t(6;15)(q25.1;p12)/46,XY at amniocentesis in a pregnancy associated with a favorable fetal outcome and postnatal decrease of the aneuploid cell line with the unbalanced translocation

ObjectiveWe present mosaic 46,XY,der(15)t(6;15)(q25.1;p12)/46,XY at amniocentesis in a pregnancy associated with a favorable fetal outcome and postnatal decrease of the aneuploid cell line with the unbalanced translocation.Case reportA 34-year-old primigravid woman underwent amniocentesis at 17 weeks of gestation because of advanced maternal age. Amniocentesis revealed a karyotype of 46,XY,add(15)(p12)[17]/46,XY[5]. A second amniocentesis at 19 weeks of gestation revealed a karyotype of 46,XY,der(15)t(6;15)(q25.1;p12)[12]/46,XY[8], and array comparative genomic hybridization (aCGH) analysis on the DNA extracted from uncultured amniocytes revealed arr arr 6q25.1q27×2-3 with 40% mosaic level. She was referred for genetic counseling. Prenatal ultrasound and the parental karyotypes were normal. A third amniocentesis at 24 weeks of gestation revealed a karyotype of 46,XY,der(15)t(6;15)(q25.1;p12)[23]/46,XY[1], and in uncultured amniocytes, aCGH analysis revealed arr 6q25.1q27×2.5, interphase fluorescence in situ hybridization (FISH) revealed 51% mosaicism (51/100 cells) for partial trisomy 6q and quantitative fluorescence polymerase chain reaction (QF-PCR) analysis determined maternal origin of the aberrant chromosome and excluded uniparental disomy (UPD) 15 and UPD 6. A fourth amniocentesis at 27 weeks of gestation revealed a karyotype of 46,XY,der(15)t(6;15)(q25.1;p12)[21]/46,XY[5], and in uncultured amniocytes, aCGH analysis revealed arr 6q25.1q27×2.46, and interphase FISH revealed 35% mosaicism (35/100 cells) for partial trisomy 6q. At 39 weeks of gestation, a healthy 3028-g male baby was delivered without any phenotypic abnormality. The karyotypes of cord blood, umbilical cord and placenta were 46,XY,der(15)t(6;15)(q25.1;p12)[2]/46,XY,der(15)t(6;15)(q25.1;p12)[29]/46,XY[11] and 46,XY, respectively. When follow-up at age one month, the neonate was phenotypically normal, the peripheral blood had a karyotype of 46,XY (40/40 cells), and FISH analysis on 105 buccal mucosal cells detected five cells with partial trisomy 6q compared with 2% mosaicism (2/100 cells) in the normal control.ConclusionMosaicism for an unbalanced translocation with a normal cell line without UPD at amniocentesis can be a transient and benign condition, and can be associated with a favorable fetal outcome and postnatal decrease of the aneuploid cell line.