Ullrich-Turner phenotype with unusual manifestation in a patient with mosaicism 45,X/47,XX,+18

We report on a girl with Ullrich-Turner phenotype and 45,X/47,XX,+18 chromosomal mosaicism. Only two other patients with similar mosaicism have been reported, both girls with XY sex chromosome constitution. The face of the patient was highly asymmetric, the right side being almost normal, the left showing a typical Ullrich-Turner syndrome appearance. This clinical impression was strengthened by photographic doubling of both hemifaces. The patient had normal intelligence and did not show any stigmata of trisomy 18. © 1996 Wiley-Liss, Inc.     

A mildly retarded woman with 46,XX/47,XX,+18 mosaicism

We describe a mildly retarded woman with trisomy 18 mosaicism. The phenotype did not suggest trisomy 18, but the mild mental retardation, asymmetric face with bushy eyebrows and thick lips, short stature, and older maternal age raised the suspicion of a chromosomal cause for her condition.     

Turner Phenotype: Mosaic 45,X/47,XY,+18

A 14-year-old girl with Turner phenotype is described, whose lymphocyte and skin fibroblast cultures both revealed a 45,X/47,XY,+18 chromosomal mosaicism. In blood cultures one third and in fibroblasts 7% of the cells had 47 chromosomes. The identity of the Y and the supernumerary 18 were determined by fluorescence and Giemsa banding patterns. The patient is of normal intelligence and does not exhibit any signs of masculinization or stigmata of trisomy 18.     

Three cell line mosaicism involving structural and numerical abnormalities of chromosome 18 in a 3.5-year-old girl: 47,XX,+18/47,XX,+del(18)(q22)/46,XX

We report on a 3.5-year-old girl with a mosaic karyotype including full trisomy 18, normal cells and a majority of cells with partial trisomy involving an extra chromosome 18 deleted at band q22. She had cardiac and CNS anomalies, dysmorphic facial features failure to thrive and developmental delay. A gastrostomy tube was placed at 2 years of age. The combination of improved nutrition and optimal developmental therapy has led to her sitting supported, attempting to stand and enhancement of her cognitive and non-verbal communication abilities. Molecular investigation of the patient and her parents using microsatellite analysis has led to the conclusion that, as expected, the additional copy of chromosome 18 constituting the full trisomic cell line is maternal meiosis I in origin. The data, however, indicate that in the trisomic cell line containing the deleted chromosome 18q, the structurally abnormal 18 was of paternal origin. We think this case is the first described with both structural and numerical trisomic mosaicism involving chromosome 18 in a liveborn infant. We propose a mechanism of origin and review the literature, comparing the clinical presentation of this case with individuals having full or partial trisomy 18.     

Pigmentary mosaicism following the lines of Blaschko in a girl with a double aneuploidy mosaicism: (47,XX,+7/45,X)

We report on a 6-year-old girl with linear streaks of apparent hypopigmentation and hyperpigmentation following the Blaschko lines, growth retardation, bupthalmos of the left eye, and mild mental retardation. She had a 45,X karyotype in lymphocytes. In cultured fibroblasts a double aneuploidy mosaicism was detected, consisting of a cell line with trisomy for chromosome 7 and a cell line with monosomy for the X-chromosome and no cell line with a normal karyotype. Cutis tricolor or three levels of pigmentation in different skin areas suggested presence of a third, probably normal cell line. Double aneuploidy mosaicism of a cell line with monosomy X and a cell line with trisomy of an autosome is a rare finding. The combination of monosomy X with trisomy of chromosomes 8, 10, 13, 18, and 21 has been reported, but not the combination with trisomy 7. In the 45,X cell line, microsatellite analysis showed loss of the maternal X-chromosome, and presence of a maternal and paternal chromosome 7. The 47,XX,+7 cell line showed a paternal and a maternal X-chromosome, and a paternal and two identical maternal chromosomes 7. Mechanisms that might explain this double aneuploidy mosaicism are discussed.     

Hypoplastic left heart in a patient with 45,X/46,XX/47,XXX mosaicism

Recurrence risks for primary congenital heart lesions are well defined. An infant with hypoplastic left heart syndrome is observed to have a short neck with a full skin fold on the right side, unilateral single palmar crease, and whorls on all ten fingers. She was found to have the Ullrich-Turner syndrome with mosaicism 45,X/46,XX/47,XXX. We believe the cardiac malformation was secondary to her aneuploidy. This could have important implications for prediction of recurrence risks to the parents. Chromosomal tests may be indicated for infants were severe congenital cardiac lesions, based on subtle clinical findings.     

Triple mosaicism 45,XY,--18/46, XY/47,XY,+18.

A patient with symptoms clinically resembling Edwards's syndrome is presented. Cranial asymmetry, thoracic and lumbar hemivertebrae, and an additional rib were the unusual features. The cytogenetic studies revealed the coexistence of three separate cell lines with 45,XY,--18/46,XY/47,XY,+18 complement.     

Origin and mechanism of formation of 45,X/47,XX,+21 mosaicism in a fetus

Chromosome analysis of amniotic fluid cells from a 17-week-old fetus with a nuchal cystic hygroma showed a 45,X/47,XX,+21 karyotype. Analyses of cord blood lymphocytes, skin fibroblasts, amniotic membrane, and chorionic villi demonstrated both cell lines in various proportions. We studied the origin and mechanism of formation of the double mosaic aneuploid using Q-banded chromosomal heteromorphisms, and one RFLP, two VNTRs, one tetranucleotide repeat, 28 CA repeat markers, mapped to every member of chromosomes. The heteromorphic markers examined showed no discordant patterns in parent-to-child transmission or between the two cell lines except for those in chromosomes 21 and X. Fetal DNA was extracted from its established monoclonal fibroblast cell lines with 45,X or 47,XX,+21 karyotypes. Genotyping with the DNA markers showed that each cell line was identical at every locus, except for chromosome 21 or X loci, indicating that the fetus was not a chimera but a mosaic. The 21-trisomic cells had one paternal allele and two maternal heterozygous alleles at the D21S270 locus, and the 45,X (21-disomic) cells had two biparental alleles. Alleles at two X chromosomal loci, DXS991 and DXS8057, were biparental in the 47,XX,+21 cells, whereas only the paternal allele was retained in the 45,X cells. Based on these findings, we concluded that the fetus started as a 47,XX,+21 zygote that had resulted from nondisjunction at the maternal first meiotic division and that one each of the maternally derived chromosomes 21 and X was lost during an early mitotic division, leading to the mosaicism. Am. J. Med. Genet. 75:432-437, 1998. © 1998 Wiley-Liss, Inc.     

Hypoplastic left heart in a patient with 45,X/46,XX/47,XXX mosaicism.

Recurrence risks for primary congenital heart lesions are well defined. An infant with hypoplastic left heart syndrome is observed to have a short neck with a full skin fold on the right side, unilateral single palmar crease, and whorls on all ten fingers. She was found to have the Ullrich-Turner syndrome with mosaicism 45,X/46,XX/47,XXX. We believe the cardiac malformation was secondary to her aneuploidy. This could have important implications for prediction of recurrence risks to the parents. Chromosomal tests may be indicated for infants were severe congenital cardiac lesions, based on subtle clinical findings.     

Three cell line mosaicism involving structural and numerical abnormalities of chromosome 18 in a 3.5‐Year‐old girl: 47,XX,+18/47,XX,+del(18)(q22)/46,XX

We report on a 3.5‐year‐old girl with a mosaic karyotype including full trisomy 18, normal cells and a majority of cells with partial trisomy involving an extra chromosome 18 deleted at band q22. She had cardiac and CNS anomalies, dysmorphic facial features failure to thrive and developmental delay. A gastrostomy tube was placed at 2 years of age. The combination of improved nutrition and optimal developmental therapy has led to her sitting supported, attempting to stand and enhancement of her cognitive and non‐verbal communication abilities. Molecular investigation of the patient and her parents using microsatellite analysis has led to the conclusion that, as expected, the additional copy of chromosome 18 constituting the full trisomic cell line is maternal meiosis I in origin. The data, however, indicate that in the trisomic cell line containing the deleted chromosome 18q, the structurally abnormal 18 was of paternal origin. We think this case is the first described with both structural and numerical trisomic mosaicism involving chromosome 18 in a liveborn infant. We propose a mechanism of origin and review the literature, comparing the clinical presentation of this case with individuals having full or partial trisomy 18. © 2001 Wiley‐Liss, Inc.     

Duchenne muscular dystrophy in a girl with a 45, X/46, XX/47, XXX chromosome constitution

We report on a 4-year-old girl with Duchenne muscular dystrophy (DMD). One of her sisters had grossly elevated serum creatine-kinase and pyruvate-kinase levels, and one of her maternal great uncles was presumptively affected by DMD. Cytogenetic analysis showed a 45,X/46,XX/47,XXX chromosome constitution. The maternally inherited DMD gene is presumed to be present on the single X of the 45,X cell line.     

Duchenne muscular dystrophy in a girl with a 45,X/46,XX/47,XXX chromosome constitution

We report on a 4-year-old girl with Duchenne muscular dystrophy (DMD). One of her sisters had grossly elevated serum creatine-kinase and pyruvate-kinase levels, and one of her maternal great uncles was presumptively affected by DMD. Cytogenetic analysis showed a 45,X/46,XX/47,XXX chromosome constitution. The maternally inherited DMD gene is presumed to be present on the single X of the 45,X cell line.     

A mildly retarded woman with 46,XX/47,XX, + 18 mosaicism

We describe a mildly retarded woman with trisomy 18 mosaicism. The phenotype did not suggest trisomy 18, but the mild mental retardation, asymmetric face with bushy eyebrows and thick lips, short stature, and older maternal age raised the suspicion of a chromosomal cause for her condition.     

Clinical,cytogenetic, and molecular findings in 45,X/47,XX,+18 mosaicism: Clinical report and review of the literature

We report cytogenetic and molecular findings performed in a patient with double mosaic aneuploidy. Chromosome analysis of amniotic fluid cells from a 17‐week‐old fetus was performed because of advanced maternal age. Two karyotypes were detected: 45,X and 47,XX,+18 (50:50%). The same cell lines were determined in uncultured and cultured amniocytes of a second amniotic fluid sample, in fetal lymphocytes, and in uncultured and cultured cells of achilles tendon by conventional cytogenetics and fluorescence in situ hybridization (FISH). In the different investigated tissues, the percentage of cells with 45,X karyotype ranged from 20–99% and the percentage of cells with 47,XX,+18 ranged from 1–80%. The pregnancy was terminated at 22 + 0 weeks because of a severe cardiac malformation. Pathologic examination showed a fetus with aspects typical for manifestation of trisomy 18 and monosomy X, especially in the internal organs. The parent and cell stage of origin was determined by short tandem repeat typing and revealed a maternal meiotic division error that led to trisomy 18, as well as a somatic loss of a paternal sex chromosome. Only two other patients with the same mosaicism have been reported so far. Genetic counseling and prognosis remains challenging. © 2002 Wiley‐Liss, Inc.     

Clinical,cytogenetic, and molecular findings in 45,X/47,XX,+18 mosaicism: clinical report and review of the literature

We report cytogenetic and molecular findings performed in a patient with double mosaic aneuploidy. Chromosome analysis of amniotic fluid cells from a 17-week-old fetus was performed because of advanced maternal age. Two karyotypes were detected: 45,X and 47,XX,+18 (50:50%). The same cell lines were determined in uncultured and cultured amniocytes of a second amniotic fluid sample, in fetal lymphocytes, and in uncultured and cultured cells of achilles tendon by conventional cytogenetics and fluorescence in situ hybridization (FISH). In the different investigated tissues, the percentage of cells with 45,X karyotype ranged from 20-99% and the percentage of cells with 47,XX,+18 ranged from 1-80%. The pregnancy was terminated at 22 + 0 weeks because of a severe cardiac malformation. Pathologic examination showed a fetus with aspects typical for manifestation of trisomy 18 and monosomy X, especially in the internal organs. The parent and cell stage of origin was determined by short tandem repeat typing and revealed a maternal meiotic division error that led to trisomy 18, as well as a somatic loss of a paternal sex chromosome. Only two other patients with the same mosaicism have been reported so far. Genetic counseling and prognosis remains challenging.     

Down''s Syndrome with 47,XX,+21/47,XX,+mar Mosaicism

A four-year-old girl with typical Down's syndrome is described. She has 47,XX,+21 karyotype in skin and lymphocytes and 47,XX,+mar karyotype in some lymphocytes. Autoradiography and fluorescent analyses have failed to identify the +mar chromosome which has the appearance of a `D' chromosome but which may involve a translocation to a chromosome No. 21. However, the mechanisms of its formation and its significance are not certain.     

Retrieval of aneuploidy by fish-technique in a case with 46,XX/47,XXX/47,XX,+8

Summary We report on a 46 year old female with a new chromosomal finding [46,XX/47,XXX/47,XX,+8] who was referred for ovarian failure. The clinical presentation was highly unusual and the patient does not exhibit the characteristic phenotype of trisomy 8 syndrome. Interphase cytogenetics using FISH-technique revealed discrepancies with a different population of cells when compared with its metaphase index. Therefore, it is advised that patients with mosaic karyotypes should be evaluated by analyzing metaphase as well as interphase nuclei labeled with chromosome specific molecular tags, especially in the situations where the incidence of a mosaic cell line is very low. Nevertheless, in a cost-conscious environment, we must exercise caution prior to making universal recommendations concerning the usefulness of medical devices which are increasing at a logarithmic rate.     

46,XX/47XX, + 14 mosaicism in a liveborn infant.

A liveborn infant with the complement 46,XX/47,XX, + 14 shared certain features in common with the following previously reported cases: (1) the one previously reported possible case of trisomy 14, (2) cases in which individuals had at least some portion of chromosome No. 14 in triplicate, and (3) cases of atypical D trisomy (Snodgrass category II). The common features include developmental retardation, wide flat nose with bulbous or wide tip, large mouth with turned down corners (some with protruding lips), short neck (some with redundant skin folds), low-set ears, retrognathia, digital anomalies (usually contractions and deviations), palatal anomalies, and cryptorchidism.