Recurrent fetal syndromic spina bifida associated with 3q26.1-qter duplication and 5p13.33-pter deletion due to familial balanced rearrangement.

Objective: Neural tube defects belong to the second most common group of congenital anomalies, after heart defects, which can be diagnosed by prenatal ultrasonography. Rarely, neural tube defects can be associated with chromosomal abnormalities, including full and partial aneuploidies. We report a familial fetal case with syndromic spina bifida and discuss its association with partial 3q duplication and partial 5p deletion.

Clinical, cytogenetic and molecular study of a case of ring chromosome 10.

Ring chromosome 10 is a rare cytogenetic finding. Only a few cases with molecular cytogenetic definition have been reported. We report here on a child with a ring chromosome 10, which is associated with prenatal and postnatal growth retardation, microcephaly, dysmorphic features, hypotonia, heart defect, severe pes equinovarus, and bronchial asthma.

Relatives with opposite chromosome constitutions, rec(10)dup(10p)inv(10)(p15.1q26.12) and rec(10)dup(10q)inv(10)(p15.1q26.12), due to a familial pericentric inversion.

Large pericentric inversions in chromosome 10 are rare chromosomal aberrations with only few cases of familial inheritance. Such chromosomal rearrangements may lead to production of unbalanced gametes. As a result of a recombination event in the inversion loop, 2 recombinants with duplicated and deficient chromosome segments, including the regions distal to the inversion, may be produced.

Considering specific clinical features as evidence of pathogenic copy number variants.

Since the introduction of high-resolution microarray technologies, it has become apparent that structural chromosomal rearrangements can lead to a wide variety of clinical manifestations, including developmental delay/intellectual disability (DD/ID). It has been shown previously that the diagnostic yield of genome-wide array-based identification of submicroscopic alterations in patients with ID varies widely and depends on the patient selection criteria. More attempts have recently been made to define the phenotypic clues of pathogenic copy number variants (CNVs).

A new single gene deletion on 2q34: ERBB4 is associated with intellectual disability.

We report on a 15-year-old patient with hyperactivity, intellectual disability and severe speech developmental delay. An array CGH analysis revealed de novo 2q34 deletion, 958 kb in size, involving a single protein coding gene ERBB4 (position 212,505,294-213,463,152; NCBI build 36). The ERBB4 gene is important in numerous neurobiological processes in both the developing and the adult brain.

Familial distal monosomy 5p15.3-pter with trisomy 12q24.2-qter resulting in neurodevelopmental delay and dysmorphic features.

Developmental delay and brain anomalies leading to significant morbidity and mortality are frequently caused by chromosomal rearrangements. We report on a familial unbalanced translocation resulting in distal monosomy 5p15.3-pter with trisomy 12q24.

Clinical and molecular characterization of a second case of 7p22.1 microduplication.

The use of high-resolution microarray technology for investigation of patients with intellectual disability and/or congenital anomalies provided the unique possibility to identify new microdeletion/microduplication syndromes and discover the dosage sensitive genes, which are implicated in the manifestation of various genetic conditions. Microduplication of the 7p22.1 region, 1.

A single gene deletion on 4q28.3: PCDH18--a new candidate gene for intellectual disability?

We report a boy with severe developmental delay, seizures, microcephaly, hypoplastic corpus callosum, internal hydrocephalus and dysmorphic features (narrow forehead, round face, deep-set eyes, blue sclerae, large and prominent ears, nose with anteverted nares, thin upper lip, small and wide-spaced teeth, hyperextensibility of the elbows, wrists, and fingers, fingertip pads, broad hallux, sacral dimple), carrying a 1.53 Mb interstitial deletion at 4q28.3.

De novo 5q35.5 duplication with clinical presentation of Sotos syndrome.

We report on a girl with developmental delay and a de novo 264 kb interstitial duplication in the region of Sotos syndrome at 5q35.3 in the immediate vicinity of critical NSD1 gene, but manifesting the phenotype, of overgrowth both prenatal stage and postnatal, macrocephaly, developmental delay, and resembling that of Sotos syndrome, rather than the recently reported syndrome of reciprocal duplication. The duplication is located right downstream from the NSD1 gene, a region which appears critical for the expression of the gene as regulatory elements might be disrupted or the expression of a not amplified critical gene might be otherwise affected by the duplicated region.