Craniosynostosis associated with partial duplication of 15q and deletion of 2q

We report on an infant with multiple congenital anomalies including complex craniosynostosis associated with an unbalanced karyotype, 46,XY, ? 2, + der(2),t(2;15)(q37;q26)pat. The previous report of a child with cloverleaf skull and partial duplication of 15q25→qter and the Man-on-Mouse Homology map suggests that a critical segment for synostosis of sutures may be in this region. © 1992 Wiley-Liss, Inc.     

Craniosynostosis associated with partial duplication of 15q and deletion of 2q.

We report on an infant with multiple congenital anomalies including complex craniosynostosis associated with an unbalanced karyotype, 46,XY,-2,+der(2),t(2;15)(q37;q26)pat. The previous report of a child with cloverleaf skull and partial duplication of 15q25----qter and the Man-on-Mouse Homology map suggests that a critical segment for synostosis of sutures may be in this region.     

Craniosynostosis in an infant with an interstitial deletion of 15q [46, XY,del(15)(q15q22.1)]

An interstitial deletion of 15q [46, XY, del(15)(q15q22.1)] was found in a malformed infant with craniosynostosis. Although the parents had normal chromosomes, the study of heteromorphic markers of chromosome 15 showed that the deleted chromosome 15 was of paternal origin. The 2 previously reported cases with an interstitial deletion of the middle portion of 15q were not complicated with craniosynostosis, and their deleted region did not include 15q15 band. The deletion of chromosome band 15q15 might be responsible for craniosynostosis.     

Craniosynostosis in an infant with an interstitial deletion of 15q [46,XY,del(15)(q15q22.1)]

An interstitial deletion of 15q [46,XY,del(15)(q15q22.1)] was found in a malformed infant with craniosynostosis. Although the parents had normal chromosomes, the study of heteromorphic markers of chromosome 15 showed that the deleted chromosome 15 was of paternal origin. The 2 previously reported cases with an interstitial deletion of the middle portion of 15q were not complicated with craniosynostosis, and their deleted region did not include 15q15 band. The deletion of chromosome band 15q15 might be responsible for craniosynostosis.     

Craniosynostosis in a patient with a de novo 15q15-q22 deletion

Interstitial deletions involving the chromosomal band 15q15 are very rare. A total of five cases were previously reported. Here another case of a 15q15.2-q22.2 deletion is reported, presenting with severe craniosynostosis of coronary, metopic, and sagittal sutures. The chromosome 15 with the 17.7-Mb deletion was of the paternal origin. A critical region for craniosynostosis may be located at the 734-kb segment at 15q15.2. Interestingly, the entire FBN1 gene was deleted in this patient.     

Angelman syndrome associated with a maternal 15q11-13 deletion of less than 200 kb

Angelman syndrome (AS) is a neurogenetic disorder arising froma lack of genetic contribution from the maternal chromosome15q11–13. To date, the AS critical region has been definedby an inherited deletion of approximately 1.5Mb, spanning the3–21 (D15S10), LS6–1 (D15S113) and GABRB3 loci.We have Identified an individual with the typical features ofAS who has a deletion of the maternal chromosome which encompassesLS6–1, but does not extend to either flanking marker.This deletion, initially detected by (CA)n repeat analysis,was further characterised by fluorescence In situ hybridisation(FISH) using cosmids derived from a 260 kb LS6–1 yeastartificial chromosome (YAC). Neither end cosmid from this YACclone falls within the deletion, suggesting that the minimalAS region Is less than 200 kb. We also studied three loci within15q11–13 which detect parent-of-origin specific DNA methylationimprints, and found that both normal maternal and paternal patternswere present in this patient.     

Interstitial deletion of chromosome 10, del(10) (q11.2q22.1) in a boy with developmental delay and multiple congenital anomalies

We describe a 4-year-old boy with an interstitial deletion of the long arm of chromosome 10:del(10) (q11.2q22.1). Frontal bossing, hypertelorism, bright blue iris color, up-slanting palpebral fissures, a flat nasal bridge, a broad nose, apparently low-set ears, micrognathia, deep philtrum, and hypotonia were noted neonatally. A murmur was noted at age 5½ months and surgical repair of subaortic stenosis was required at 4 years. At 4 years micrognathia was no longer evident, but the palate was high-arched. The pattern of abnormalities included postnatal-onset slow growth, short stature, mental retardation, and cardiac anomalies. © 1993 Wiley-Liss, Inc.     

Interstitial deletion of 8q13.3→ 22.1 associated with craniosynostosis

We report on a 3-year-old girl who has an interstitial deletion of chromosome 8q [46,XX, del(8)(q13.3q22.1)]. She has severe mental retardation and minor anomalies in addition to lambdoidal synostosis. This is the first report of craniosynostosis in association with this chromosomal deletion. The manifestations of our patient are compared to those of previously reported patients with similar deletions. © 1993 Wiley-Liss, Inc.     

Interstitial deletion of 8q21→22 associated with minor anomalies,congenital heart defect,and Dandy-Walker variant

We describe an infant with a deletion of 8q21→22 who had distinct clinical manifestations including minor facial anomalies, a congenital heart defect, a Dandy-Walker variant, and mild to moderate developmental delay. Her facial characteristics included small, wide-spaced eyes, asymmetric bilateral epicanthal folds, a broad nasal bridge, a “carp-shaped” mouth, micrognathia, and prominent, apparently low-set ears. Three other reports describe children with larger proximal deletions of 8q that include 8q21 and q22. These four children all have similar facial appearance. Of the others reported, one had a congenital heart defect and one had craniosynostosis. This case, in addition to the previously noted three cases, helps in delineating a recognizable syndrome. © 1995 Wiley-Liss, Inc.     

Molecular cytogenetic analysis of a de novo 5q31q33 deletion associated multiple congenital anomalies: Case report

Interstitial deletions are relatively rare chromosomal anomalies that usually arise de novo. The data describing the phenotype associated with interstitial deletions of 5q are very limited. We describe the first case of multiple fetal anomalies, diagnosed on prenatal sonographic examination, associated with a deletion at 5q31q33. Sonographic examination at 23 weeks' gestation demonstrated growth parameters consistent with 20 weeks' gestation; a 7-mm nuchal fold; a dilated loop of bowel adjacent to the stomach suggestive of duodenal atresia; clubbing of the left foot; a narrow aorta; suspected ventricular septal defect; and placental thickening. The patient delivered a severely growth-restricted fetus and enlarged placenta at 30 weeks' gestation. The infant died neonatally. Am. J. Med. Genet. 82:143–145, 1999. © 1999 Wiley-Liss, Inc.     

Interstitial deletion of chromosome 2q32-34 associated with multiple congenital anomalies and a urea cycle defect (CPS I deficiency)

A de novo deletion of the long arm of chromosome 2 at 2q31-33 was observed in the fetal amniocyte G-banded karyotype performed because of possible multiple malformations identified by ultrasound at 23 weeks gestation. Two days after the uneventful term delivery of a 2.45 kg male, the neonate experienced cardiopulmonary decompensation and biochemical changes compatible with carbamoyl phosphate synthetase I (CPS I) deficiency (elevated ammonia with a peak of 948 micromol/L, deficiency of citrulline, and no increase in orotic acid). The child died on day 3 of life. Physical anomalies confirmed at autopsy included double superior vena cava, ectopic adrenal tissue, and metatarsus adductus. The autopsy also revealed histologic evidence consistent with CPS deficiency, most notably microvesicular steatosis of the liver and Alzheimer's Type II changes with hypertrophic astrocytes in the basal ganglia. A postnatal lymphocyte karyotype confirmed the chromosome 2q31-33 deletion. Enzyme analysis on postmortem liver tissue confirmed the diagnosis of CPS deficiency. CPS I is reported to be mapped to 2q35 by NCBI (http://www.ncbi.nlm.nih.gov/mapview/) and 2q34 by ENSEMBL (http://www.ensembl.org/). The UCSC Human Genome Browser July 2003 assembly also places the gene at 2q34 (http://genome.UCSC.edu/). Fluorescence in situ hybridization (FISH) analysis with a BAC clone (RP11-349G4) of CPS I demonstrated that one copy of the gene was deleted in this infant. Using additional probes corresponding to the bands in the region of deletion, we identified the deleted region as 2q32-2q34. Our observations support the CPS I map position (ENSEMBL, UCSC) at 2q34. Additionally, potential conditions associated with deletions narrowly defined by standard cytogenetic techniques merit consideration in prenatal counseling. As demonstrated here, deletions may not only result in malformations and mental retardation but also increase the likelihood of revealing mutated genes located in the undeleted region of the homologous chromosome.     

Terminal 6.9 Mb deletion of chromosome 15q, associated with a structurally abnormal X chromosome in a patient with congenital diaphragmatic hernia and heart defect

We report the case of a female patient exhibiting multiple congenital malformations including diaphragmatic hernia and heart defect. Cytogenetic studies (including karyotype, FISH and array-CGH) showed a de novo terminal deletion (6.9 Mb) on chromosome 15 in association with a recombinant X chromosome bearing a 9-Mb Xp duplication and a 46-Mb Xq deletion distal to XIST. The recombinant X chromosome was caused by a maternal inv(X)(p22.31q22.3). The X chromosome inactivation pattern was skewed in the patient suggesting a possible inactivation of the recombinant X chromosome. Considering these results, the phenotype was linked to the de novo terminal 15q deletion. These results strengthen the assumption that array-CGH should be applied to each fetus/newborn with multiple congenital malformations.     

Infant with multiple congenital anomalies and deletion (9)(q34.3)

We report on a male infant with developmental delay, growth failure, hypotonia, dolichocephaly, hypoplastic midface, epicanthal folds, down-slanting palpebral fissures, foveal hypoplasia, tracheomalacia, pectus excavatum, supraventricular tachycardia, gut malrotation, hypospadias, talipes equinovarus, short third metatarsals, capillary hemangiomata, and a de novo terminal deletion at 9q34.3. © 1994 Wiley-Liss, Inc.     

Case of 15q26-qter deletion associated with a Prader-Willi phenotype

Prader-Willi syndrome (PWS) is one of the common neurogenetic disorders associated with intellectual disability. PWS involves a complex inheritance pattern and is caused by an absence of gene expression on the paternally inherited 15q11.2-q13 region, either due to deletion, maternal uniparental disomy or imprinting defect. The syndrome is characterized principally by severe neonatal hypotonia, a weak suck in infancy that is later followed by hyperphagia and obesity, developmental delay, intellectual disability and short stature. In the case of the chromosome 15q26-qter deletion syndrome or Drayer's syndrome, very few reports have been published. Its characteristics include intrauterine growth restriction, postnatal growth failure, varying degrees of intellectual disability, developmental delay, typical facial appearance and diaphragmatic hernia. The present paper describes a female patient in whom clinical findings were suggestive of PWS and deletion in the 15q26-qter region. Both karyotyping and methylation-specific polymerase chain reaction were shown to be normal. Nevertheless, fluorescence in situ hybridization showed a 15qter deletion that was later mapped by single nucleotide polymorphism (SNP)-array. The deleted genomic region involves the insulin-like growth factor-1 receptor (IGF1R) gene, which is related to short stature, developmental delay and intellectual disability. This case had various clinical characteristics in common with the cases of 15q26-qter deletionand characteristics compatible with PWS.     

Mild mental retardation in a child with a de novo interstitial deletion of 15q21.2q22.1: a comparison with previously described cases

We report on a child with mild mental retardation, hypotelorism, blepharophimosis, face slight asymmetry and partial hypoplasia of corpus callosum, with an interstitial deletion of a chromosome 15. The deletion was molecularly characterized by array-CGH and FISH techniques. This rearrangement has a 7.18 Mb extension and maps to 15q21.2q22.1. To date, there have been only six individuals reported with a deletion of 15q21; in three cases, the rearrangement was characterized by molecular cytogenetic techniques. After a comparison with these three cases, it appeared that the deletion we found is one of the smallest and it overlaps the distal portion of the ones taken into account. Finally, we tried to delineate the genotype–phenotype correlation in patients with a deletion of 15q21.     

22q11.2 deletion syndrome and congenital heart disease

The 22q11.2 deletion syndrome has an estimated prevalence of 1 in 4–6,000 livebirths. The phenotype varies widely; the most common features include: facial dysmorphia, hypocalcemia, palate and speech disorders, feeding and gastrointestinal disorders, immunodeficiency, recurrent infections, neurodevelopmental and psychiatric disorders, and congenital heart disease. Approximately 60–80% of patients have a cardiac malformation most commonly including a subset of conotruncal defects (tetralogy of Fallot, truncus arteriosus, interrupted aortic arch type B), conoventricular and/or atrial septal defects, and aortic arch anomalies. Cardiac patients with a 22q11.2 deletion do not generally experience higher mortality upon surgical intervention but suffer more peri‐operative complications than their non‐syndromic counterparts. New guidelines suggest screening for a 22q11.2 deletion in the patient with tetralogy of Fallot, truncus arteriosus, interrupted aortic arch type B, conoventricular septal defects as well as those with an isolated aortic arch anomaly. Early identification of a 22q11.2 deletion in the neonate or infant when other syndromic features may not be apparent allows for timely parental screening for reproductive counseling and anticipatory evaluation of cardiac and noncardiac features. Screening the at‐risk child or adult allows for important age‐specific clinical, neurodevelopmental, psychiatric, and reproductive issues to be addressed.     

Interstitial deletion 8q11.2-q13 with congenital anomalies of CHARGE association

Specific genetic loci responsible for CHARGE association are currently unknown. Herein, we describe a neonate with clinical manifestations consistent with CHARGE association who has a de novo interstitial deletion involving bands 8q11.2 to 8q13. Genetic mapping and genomic microarray technology have been used to more accurately define the breakpoints of this deletion. Within the deleted region, there are approximately 150 expressed genes, one or more of which may contribute to the manifestations of CHARGE association.     

Proximal chromosome 8q deletion in a boy with femoral bifurcation and other multiple congenital anomalies

We describe a male infant with intra-uterine growth retardation and multiple congenital anomalies including prominent forehead, broad nasal bridge, hypertelorism, small upturned nose, flat philtrum, micrognathia, cleft hard palate, low-set and posteriorly rotated ears, short neck, micropenis, hypoplastic scrotum with prominent raphe and undescended testes, malformed lower extremities with contractures, bony protruberance of left thigh, bilateral absence of the fibula, bilateral equinovarus deformity with missing 4th toe on the right foot and short second fingers, congenital heart defect, renal anomalies, brain malformation, and bilateral choanal atresia. He was born at term by cesarean section because of breech presentation to a 19-year-old gravida 2 para 1 African-American female who had no prenatal care. He was admitted to the NICU because of low birth weight, respiratory distress, rule out sepsis and multiple congenital anomalies. Birth weight was 1,475 g, birth length was 33.8 cm, and head circumference was 30 cm. He expired at 5.5 weeks of age. The parents declined a request for autopsy. Chromosome analysis on blood showed that his karyotype was 46,XY,del(8)(q11.23q13.3). FISH studies for 22q deletion were normal. Parental karyotypes were normal. There is a paucity of reported patients with this specific chromosome disorder and this boy appears to be severely affected compared with the few published cases. A gene on chromosome 8q may be involved in limb development.