Incomplete trisomy 22

Summary Two brothers with duplication of the distal segment of 22q inherited from a t(6;22)(q27;13) translocation carrier mother presented with intraurine growth retardation, congenital hydrocephalus, cleft palate, genital hypoplasia with cryptorchidism and hypospadias, and similar facial features including mongoloid position of eyeaxes, hypertelorism, small nose with prominent bridge, prominent upper lip, and small mandible. In addition the second sib revealed renal hypoplasia, arrhinencephaly and pentalogy of Fallot. The patients died at ages eight days and one day, respectively. The two brothers appear to be the first instances of familial trisomy 22q13qter.     

Molecular karyotyping of an isolated partial trisomy 11q patient with additional findings

Isolated partial duplication of the long arm of chromosome 11 is very rare. The main features are dysmorphic facial features, pre/postnatal growth retardation, speech delay, mental retardation, hypotonia, microcephaly, and cardiac, vertebral, limb and genital anomalies. In this case, we report a patient with partial trisomy of 11q13.5 → qter due to a de novo rearrangement consisting of the whole X chromosome and part of chromosome 11; 46,X,der(X)(Xqter → Xp22.33::11q13.5 → 11qter). Additional findings were a separated clavicle, lacrimal duct stenosis and prenatally detected renal hypoplasia. SNP array results revealed a duplication between 11q13.5 and 11qter, measuring 58 Mb, from nucleotide 76,601,607 to 134,926,021. As a result, molecular karyotyping could be performed in such cases in order to establish a definite phenotype–genotype correlation using conventional or molecular cytogenetics techniques.     

Submicroscopic terminal deletions and duplications in retarded patients with unclassified malformation syndromes

Unbalanced submicroscopic subtelomeric chromosomal rearrangements represent a significant cause of unexplained moderate to severe mental retardation with and without phenotypic abnormalities. We investigated 254 patients (102 from Zürich, 152 from Liège) for unbalanced subtelomeric rearrangements by using fluorescence in situ hybridisation with probes mapping to 41 subtelomeric regions. Mental retardation combined with a pattern of dysmorphic features, with or without major malformations, and growth retardation and a normal karyotype by conventional G-banding were the criteria of inclusion. Selection criteria were more restrictive for the Zürich series in terms of clinical and cytogenetic pre-investigation. We found 13 unbalanced rearrangements and two further aberrations, which, following the investigation of other family members, had to be considered as variants without influence on the phenotype. The significant aberrations included three de novo deletions (two of 1pter, one of 5pter), three de novo duplications (8pter, 9pter, Xpter), one de novo deletion 13qter-duplication 4qter, and five familial submicroscopic translocations [(1q;18p), (2q;4p), (2p;7q), (3p;22q), (4q;10q), (12p;22q)], most of them with several unbalanced offspring with deletion-duplication. Although the incidence of abnormal results was higher (10/152) in the Liège versus the Zürich series (3/102), similar selection criteria in Zürich as in Liège would have resulted in an incidence of 7/106 and thus similar figures. In our series, submicroscopic unbalanced rearrangements explain the phenotype in 13/254 study probands. The most important selection criterion seems to be the presence of more than one affected member in a family. An examination of subtelomeric segments should be included in the diagnostic work-up of patients with unexplained mental retardation combined with physical abnormalities, when a careful conventional examination of banded chromosomes has yielded a normal result and a thorough clinical examination does not lead to another classification. The proportion of abnormal findings depends strongly on selection criteria: more stringent selection can eliminate some examinations but necessitates a high workload for experienced clinical geneticists. Once the costs and workload of screening are reduced, less selective approaches might finally be more cost-effective.     

18q deletion syndrome in a child with steroid-17,20-lyase deficiency

The del (18q) syndrome is characterised by poor growth, variable mental retardation, facial dysmorphism, and abnormalities of the genitalia. In genetic males, genital abnormalities vary from testicular ectopia, and microphallus to severe hypospadias. Genetic females frequently have hypoplasia of the labia minora. We describe a child with del (18q) syndrome and severe ambiguous genitalia. Serum testosterone after 4 doses of hCG (5000 IU/m2/dose) was only 50 ng/dL (expected greater than 300 ng/dL). When testicular tissue was incubated with [1,2-3H]progesterone and 17-hydroxy-[4-14C]progesterone, there was synthesis of 17-hydroxy-[1,2-3H]progesterone but no further metabolism of 17-hydroxyprogesterone to androgens. These data suggested the presence of steroid-17,20-lyase deficiency. In order to determine if steroid-17,20-lyase deficiency was a common feature in del (18q) syndrome we examined 6 other patients (3 girls; 3 boys) with a deletion of the long arm of chromosome 18 distal to band q21. All 6 had dehydroepiandrosterone sulfate (DHEA-S) levels which were lower than those of age-matched controls. Four had delayed puberty. Serum testosterone levels were also low in 2 of the 3 affected boys. These results together with the findings in the index case suggest that a structural or regulatory gene for steroid-17,20-lyase may be located on the long arm of chromosome 18, distal to band q21.     

A family with segregation of an unbalanced translocation (7;13) (q36;q32) in three patients with severe mental retardation, microcephaly and dysmorphic features, detected by subtelomere FISH: genetic counselling and prenatal diagnosis

We report a Sardinian family in which three members showed a mental-retardation-microcephaly-multiple malformations syndrome resulting from an unbalanced translocation (7;13)(q36;q32) which led to subtelomeric trisomy 7q36qter and partial monosomy 13q32qter. The unbalanced translocation was transmitted by alternate segregation from a female and a male carriers of the balanced translocation. The three patients had severe mental retardation, microcephaly and multiple minor facial and fingers anomalies. Neuroimages showed brain atrophy, associated in two patients with partial agenesis of the corpus callosum. FISH with chromosome 13 and 7 specific painting probes and subtelomere specific probes was instrumental for defining and characterizing the chromosomal translocation. Extensive genetic counseling and prenatal diagnosis has been offered to all the members of the family.     

De novo 18q deletion with mitral valve insufficiency

We report an 18-year-old Turkish girl with an 18q- deletion and abnormalities of face, mental and growth retardation, mitral deficiency and hypothyroidism. Mitral deficiency has not been reported in 18q deletion syndrome cases previously. We performed cytogenetic and molecular cytogenetic analysis, and brain MRI. Her karyotype was 46,XX,del(18)(q21.2-->qter). This report compares the symptoms and features of the present patient with previously reported cases with 18q syndrome.     

7 cases of trisomy 2q34 leads to 2qter resulting from a familial t(2;8)(q34;23)]

Seven patients from two different families are trisomic 2q34 leads to 2qter due to segregation of a familial t(2;8)(q34;p23). The clinical features are characteristic: microcephaly, a narrow forehead with bossing and temporal retraction, hypertelorism, palpebral fissures slanted downwards, large irides, and a very concave margin of the lower eyelid. Mental retardation is severe with a mean IQ of 50.     

Partial trisomy (11;22) syndrome with manifestations of Goldenhar sequence due to maternal balanced t(11;22)

Here we report a 15-year-old girl patient who had severe mental and growth retardation, cleft palate, hemifacial microsomia, skin tags, hypoplasia of the external auditory canal, scoliosis and renal agenesis. Our patient was the fourth child of nonconsanguineous marriage. Peripheral blood chromosomal analysis of the patient revealed 47,XX,+der(22)t(11;22)(q23;q11). The maternal karyotype was reported as 46,XX,t(11;22)(q23;q11). Maternal balanced translocation t(11;22)(q23;q11) causing Goldenhar syndrome with 47,XX,+der(22) has not been reported previously. The presented case clearly indicates that in every case with Goldenhar syndrome, chromosome analysis should be done for the possibility of unbalanced translocations.     

The 22q distal trisomy syndrome in a recombinant child

A 4-month-old male infant with 22q distal trisomy and karyotype 46,XY,rec(22), dup q,inv(22)(q13q12)mat is reported. This and six previous similar instances are compared, and a distinct syndrome is delineated as follows: growth and psychomotor retardation, microcephaly or hydrocephaly, brain malformation, defective skull ossification, hypertelorism, narrow palpebral fissures, short broad nose, cleft palate with or without lip involvement, short neck, cardiac defect, renal and genital hypoplasia, osteoarticular abnormalities (mostly clubfoot), and poor survival. In addition, this syndrome is distinct from other duplications of chromosome 22, namely the complete trisomy, the proximal trisomy, and the cat-eye phenotype.     

A submicroscopic unbalanced subtelomeric translocation t(2p;10q) identified by fluorescence in situ hybridization: fetus with increased nuchal translucency and normal standard karyotype with later growth and developmental delay, rhombencephalosynapsis (RES)

Reaching an accurate diagnosis in children with mental retardation associated or not with dysmorphic signs is important to make precise diagnosis of a syndrome and for genetic counseling. A female case with severe growth and development delay, dysmorphic features and feeding disorder is presented. Antenataly, the fetus was observed to have increased nuchal translucency and a slight hypoplastic cerebellum. A standard karyotype was normal. RES and a submicroscopic unbalanced subtelomeric translocation t(2p; 10q) were demonstrated after birth. We show that within the framework of a collaborative approach, a concerted research of submicroscopic subtelomeric rearrangements should be performed in case of mental retardation associated with facial dysmorphic features, and when other etiologies or non-genetic factors (iatrogenic, toxic, infectious, metabolic...) have been ruled out.     

Six cases of cryptic subtelomeric translocations in four families: the use of subtelomeric FISH probes as a diagnostic tool

Finding the diagnosis in children with mental retardation and a normal karyotype, whether or not associated with dysmorphic features, is important for defining an eventual syndrome and for genetic counselling of the families. Telomeric re-arrangements may be a common and underestimated-to-date cause of non-syndromic mental retardation. Using a FISH-based approach combining subtelomeric probes, we report the detection of 4 cases of cryptic translocations t(2;10)(p25.3;q26.3), t(4;17)(p16.2;q25), t(4;20)(p16.2;q13) and t(5;7)(p15.3;q36) associated with MR and dysmorphic features. We discuss the usefulness of subtelomeric FISH in children with unexplained delayed psychomotor development, when the genetic cause remains unknown and the karyotype is normal.     

Trisomy 6q25→6qter in a severely retarded 7-year-old boy with turricephaly,bow-shaped mouth,hypogenitalism and club feet

Summary Trisomy for a small terminal segment of chromosome 6q produces a characteristic syndrome of malformations and dysmorphic signs which, on the basis of comparison with a previously published case, may be suspected on clinical grounds. The present case concerns a 7-year-old boy, the son of a carrier mother t(6;14)(q25;qter). The main symptoms are: very severe physical and mental retardation, turricephaly, Cupid's bow mouth with narrow lips, almond-shaped eyes with narrow palpebral fissures and ptosis, micropenis with absence of scrotum, club feet, hammer toes, and extension contractures. In addition, there are a great many minor dysmorphic features.     

Prader-Willi syndrome with an unusually large 15q deletion due to an unbalanced translocation t(4;15)

Prader-Willi syndrome (PWS) is a neurobehavioral disorder caused by deletions in the 15q11-q13 region, by maternal uniparental disomy of chromosome 15 or by imprinting defects. Structural rearrangements of chromosome 15 have been described in about 5% of the patients with typical or atypical PWS phenotype. An 8-year-old boy with a clinical diagnosis of PWS, severe neurodevelopmental delay, absence of speech and mental retardation was studied by cytogenetic and molecular techniques, and an unbalanced de novo karyotype 45,XY,der(4)t(4;15)(q35;q14),-15 was detected after GTG-banding. The patient was diagnosed by SNURF-SNRPN exon 1 methylation assay, and the extent of the deletions on chromosomes 4 and 15 was investigated by microsatellite analysis of markers located in 4qter and 15q13-q14 regions. The deletion of chromosome 4q was distal to D4S1652, and that of chromosome 15 was located between D15S1043 and D15S1010. Our patient's severely affected phenotype could be due to the extent of the deletion, larger than usually seen in PWS patients, although the unbalance of the derivative chromosome 4 cannot be ruled out as another possible cause. The breakpoint was located in the subtelomeric region, very close to the telomere, a region that has been described as having the lowest gene concentrations in the human genome.     

Partial trisomy 10p12.33 and partial monosomy 13q32.1: case report and a literature review

We report on a preterm neonate with a deletion of the distal long arm of chromosome 13q32.1 and partial trisomy of the short arm of chromosome 10p12.33. The patient has intrauterine growth retardation, microphthalmia, macrocephaly, holoprosencephaly, patent ductus arteriosus, aortic isthmus hypoplasia, right renal agenesis, imperforate anus, ambiguous genitalia, pleural effusion and vertebral anomaly. Analysis using an oligonucleotide microarray (U-array Cyto6000 array platform (Human Genome build: hg 18) indicated that there was a partial trisomy of chromosome 10(19.5 Mb gain) involving 298 oligonucleotides from 10pter to 10p12.33, and a partial monosomy of chromosome 13(18.3 Mb deleted) involving 313 oligonucleotides from 13q32.1 to 13qter. This is the first report of a patient with partial trisomy 10p12.33 and partial monosomy 13q32.1.     

Two independent chromosomal rearrangements, a very small (550 kb) duplication of the 7q subtelomeric region and an atypical 17q11.2 (NF1) microdeletion, in a girl with neurofibromatosis

Most patients with neurofibromatosis (NF1) are endowed with heterozygous mutations in the NF1 gene. Approximately 5% show an interstitial deletion of chromosome 17q11.2 (including NF1) and in most cases also a more severe phenotype. Here we report on a 7-year-old girl with classical NF1 signs, and in addition mild overgrowth (97th percentile), relatively low OFC (10th-25th percentile), facial dysmorphy, hoarse voice, and developmental delay. FISH analysis revealed a 17q11.2 microdeletion as well as an unbalanced 7p;13q translocation leading to trisomy of the 7q36.3 subtelomeric region. The patient's mother and grandmother who were phenotypically normal carried the same unbalanced translocation. The 17q11.2 microdeletion had arisen de novo. Array comparative genomic hybridization (CGH) demonstrated gain of a 550-kb segment from 7qter and loss of 2.5 Mb from 17q11.2 (an atypical NF1 microdeletion). We conclude that the patient's phenotype is caused by the atypical NF1 deletion, whereas 7q36.3 trisomy represents a subtelomeric copy number variation without phenotypic consequences. To our knowledge this is the first report that a duplication of the subtelomeric region of chromosome 7q containing functional genes (FAM62B, WDR60, and VIPR2) can be tolerated without phenotypic consequences. The 17q11.2 microdeletion (containing nine more genes than the common NF1 microdeletions) and the 7qter duplication were not accompanied by unexpected clinical features. Most likely the 7qter trisomy and the 17q11.2 microdeletion coincide by chance in our patient.     

Supernumerary chromosome der(22)t(11;22): Emanuel syndrome associates with novel features

Emanuel syndrome results from +der(22)t(11q23;22q11). Cleft palate, ear anomalies, heart defects, genital anomalies, hypotonia, and mental retardation are the main features of the syndrome. We report a nine-year-old boy with the t(11;22)(q23;q11) chromosome, transmitted in an unbalanced fashion from his mother, and originated in the maternal grandmother's meiosis. In addition to mental retardation, hypotonia, craniofacial anomalies, and cryptorchidism, he has novel findings such as, joint hyperextensibility, left liver lobe agenesis, left sided malposition of the gallbladder and pancreas hypoplasia. This is the first report associating these features with Emanuel syndrome.     

Monosomy 10 qter

Summary An 11-year-old girl with 10q26qter deletion is described and compared with another patient reported in the literature. The most characteristic features of monosomy 10qter seem to be: severe mental retardation; growth retardation; microcephaly; and facial dysmorphism with a long and triangular facies, a broad and prominent nasal bridge, a poorly developed tip of the nose, a short philtrum, and flattened angles of the mandible. Several of these features are opposed in type and countertype to features of trisomy 10qter.Chargé de Recherche C.N.R.S.     

Partial trisomy 7q and monosomy 13q in a child with disorder of sex development: Phenotypic and genotypic findings

Terminal 7q duplication and terminal 13q deletion are two conditions with variable phenotypes including microcephaly, thumb a-/hypoplasia, cortical dysplasia, microphtalmia, intellectual disability and dysmorphic features. We describe a boy born to a mother with a reciprocal t (7;13) who combines both a terminal 7q33-qter duplication and terminal 13q33-qter deletion through the inheritance of a derivative chromosome 13 (der (13)). The patient presented with developmental delay, facial and non-facial dysmorphic features, hypertonia, genital abnormality and skeletal malformation but no thumb a-/hypoplasia or microphtalmia. Knowing the exact breakpoints of his chromosomal aberrations using high resolution array CGH (aCGH) and comparison of his phenotypes with those of 24 and 59 previously published cases of 7q duplication and 13q deletion, respectively, allow us to further narrow the size of the proposed critical regions for microcephaly, thumb a-/hypoplasia and hypo/hypertonia on chromosome 13.     

Two familial cases with trisomy 15q dist due to a rcp(5;15)(p14;q21)

Summary A trisomy of the distal long arm of chromosome 15 (q21qter) resulting in similar phenotypic and developmental abnormalities in two related children (a boy and a girl) is described. The chromosome defect was due to malsegregation of a balanced translocation (5;15)(p14;q21) in one of the parents. It was inherited in four generations and accompanied by recurrent miscarriages. Comparison of these patients with four previously published cases of trisomy 15q dist reveals a pattern of common features including: microdolichocephaly with characteristic strikingly protuberant occiput and predominance of the visceral over the cerebral cranium; peculiar facial dysmorphism—narrow antimongoloid palpebral fissures; large, malformed, low-set ears; micrognathy; long philtrum; short neck; cardiopathy; profound encephalopathy with lack of suck and swallow reflexes; and no growth retardation.