Torun D, Arslan M, Akar H
… +3 more, Karaer K, Ünay B, Tunca Y
Genet Couns
· 2016 · PMID 29485807
This paper describes the presence of a 15.4 Mb deletion of 14q12→q21.2 and a 550-KB deletion of 18p11.23 in a patient with an apparently balanced translocation between chromosomes 14 and 18 [t( 14; 18) (ql2; pi 11)]. The...This paper describes the presence of a 15.4 Mb deletion of 14q12→q21.2 and a 550-KB deletion of 18p11.23 in a patient with an apparently balanced translocation between chromosomes 14 and 18 [t( 14; 18) (ql2; pi 11)]. The patient had developmental delay, truncal hypotonia, hyperreflexia and spasticity of the lower extremities, prominent forehead, fullness of the periorbital region, hypertelorism, upslanted palpebral fissures, systagmus, a depressed nasal bridge, down-turned conrners of the mouth, a prominent philtrum, thin upper lip, pointed chin, and deep palmar creases. Cranial MRI revealed agenesis of the corpus callosum, diffuse cerebral atrophy, and enlargement of the third and lateral ventricles. Here, we review and compare published cases with proximal 14q deletions to establish a genotype-phenotype correlation according to the deleted regions involving the 14q12, 14q13, 14q21, and 14q22q23. We also examined the literature to find cases with deleted regions overlapping the deletion in our patient to establish a clinical spectrum in proximal 14q deletions.
Puvabanditsin S, February M, Stefano VD
… +5 more, Vinod S, Minerowicz C, Hussein K, Mayne J, Mehta R
Genet Couns
· 2016 · PMID 29485259
Osteocraniosplenic syndrome-hypomineralized skull with gracile long bones and splenic hypoplasia: a case report and literature review: We report herein an intrauterine growth-restricted preterm nwonate with a lethal bone...Osteocraniosplenic syndrome-hypomineralized skull with gracile long bones and splenic hypoplasia: a case report and literature review: We report herein an intrauterine growth-restricted preterm nwonate with a lethal bone dysplasia characterized by severe hypomineralization of the skull, absent medullary lucency flared metaphyses fishbone-like diaphysis and overtubulated long vones. Dysmorphic features included flat facies, bulging forehead, vevus flammeus, depressed nasas bridge, short philtrum, inverted U-shape mouth, mild micrometic dwarfism, and brachydactyly. The infant's lungs and spleen were hypoplastic. The findings are compatible with the 19 previously reported cases that used different terminology: osteocraniostenosis, gracile bone disorders and osteocraniosplenic syndrome. We present the clinical, pathological and cytogenetic findings of this rare disorder.
Ottaviani V, Bartocci A, Pantaleo M
… +6 more, Giglio S, Cecconi M, Verrotti A, Merla G, Stangoni G, Prontera P
Genet Couns
· 2015 · PMID 26625664
Myoclonicastatic epilepsy (MAE) is a rare form of symptomatic generalized epilepsy of uncertain etiology. To search the possible genetic basis of the disorder, here we investigate a 15 year-old patient with MAE, who is t...Myoclonicastatic epilepsy (MAE) is a rare form of symptomatic generalized epilepsy of uncertain etiology. To search the possible genetic basis of the disorder, here we investigate a 15 year-old patient with MAE, who is the only person presenting epilepsy in the family. High resolution array-CGH analysis was conducted on DNA extracted from peripheral blood of the patient and the parents. The copy number variant(s) (CNVs) identified were further confirmed by Fluorescent In Situ Hybridization (FISH). The array-CGH identified a de novo microduplication of about 778 Kb in the chromosome region 4q21.22-q21.23, involving 11 genes. This is the first report of a de novo CNV in MAE. The genes involved in the duplication are potential candidates that can be investigated in the future to determine their exact role in the etiopathogenesis of the disorder. However, we suggest performing microarray chromosomal analysis in patients with MAE, since rare de novo CNVs could be identified, and this is known to affect the diagnostic process and recurrence risk assessment.
We report on a fetus with alobar holoprosencephaly, complete cleft lip and palate, urorectal septum malformation sequence and perineal hernia. To our knowledge this appears to be a novel fetal malformation syndrome.We report on a fetus with alobar holoprosencephaly, complete cleft lip and palate, urorectal septum malformation sequence and perineal hernia. To our knowledge this appears to be a novel fetal malformation syndrome.
Puvabanditsin S, Garrow E, February M
… +2 more, Yen E, Mehta R
Genet Couns
· 2015 · PMID 26625662
The microduplication 22q11.2 syndrome has a wide range of clinical manifestations. The phenotype ranges from normal to mental retardation and congenital anomalies. Esophageal atresia/tracheoesophageal fistula (EA/TEF) ha...The microduplication 22q11.2 syndrome has a wide range of clinical manifestations. The phenotype ranges from normal to mental retardation and congenital anomalies. Esophageal atresia/tracheoesophageal fistula (EA/TEF) has recently been linked with the Tbx1 gene mutation located on the long arm of chromosome 22(22q11.21). We report a case with 1.4 Mb 22q11.23 duplication detected by array-CGH. The father of this infant has the same interstitial microduplication but with a normal phenotype. The phenotype seen in our case is type C (3B) esophageal atresia, tracheoesophageal fistula, and ventricular septal defect. Our patient underwent primary repair of OA/TEF malformations, which was later complicated by pneumonia and a recurrent TEF.
Guler A, Alpaydin S, Bademkiran F
… +2 more, Sirin H, Celebisoy N
Genet Couns
· 2015 · PMID 26625661
Turner Syndrome is the only known viable chromosomal monosomy, characterised by the complete or partial absence of an X chromosome. It's the most common chromosomal abnormality in females. Apart from the well known dysmo...Turner Syndrome is the only known viable chromosomal monosomy, characterised by the complete or partial absence of an X chromosome. It's the most common chromosomal abnormality in females. Apart from the well known dysmorphic features of the syndrome, it has been associated with a number of vascular pathologies; mainly involving the cardiovascular, renovascular, peripheral vascular and cerebrovascular system. It seems striking that thromboembolism is not considered as a feature of the syndrome. Most of the thromboembolism cases are related to the arterial vascular system; except for some rare reported portal venous thrombosis cases, peripheral venous thrombosis cases and to the best of our knowledge a single case of cerebral venous thrombosis with Dandy Walker malformation and polymicrogyria. We herein report a cerebral venous thrombosis case with Turner Syndrome. With no other found underlying etiology, we want to highlight that Turner Syndrome, itself, may have a relationship not only with the cerebral arterial vascular system pathologies but also with the cerebral venous thrombosis.
Yakut S, Cetin Z, Sanhal C
… +3 more, Karauzum SB, Karaman B, Simsek M
Genet Couns
· 2015 · PMID 26625660
A 33 years-old pregnant woman was referred for amniocentesis at 19 weeks of gestation due to abnormal serum biochemistry. A non-satellited, monocentric marker chromosome was observed with a frequency of 50% in cultured a...A 33 years-old pregnant woman was referred for amniocentesis at 19 weeks of gestation due to abnormal serum biochemistry. A non-satellited, monocentric marker chromosome was observed with a frequency of 50% in cultured amniocytes. Parental karyotypes were normal. The marker chromosome was found to be derived from chromosome 16 by FISH and array-CGH analysis. Genetic counseling was given to parents and the family decided to terminate the pregnancy. Dysmorphic findings including; low set ears, exophtalmos depressed nasal bridge, large mouth and lips, posture anomalies at the extremities were detected at autopsy.
Cases with congenital diaphragmatic hernia (CDH) often have other associated anomalies. The purpose of this investigation was to assess the prevalence and the types of associated anomalies in CDH in a defined population....Cases with congenital diaphragmatic hernia (CDH) often have other associated anomalies. The purpose of this investigation was to assess the prevalence and the types of associated anomalies in CDH in a defined population. The anomalies associated with CDH were collected in all live births, stillbirths and terminations of pregnancy during 29 years in 386,088 consecutive pregnancies of known outcome in the area covered by our population based registry of congenital anomalies. Of the 139 cases with CDH born during this period (total prevalence of 3.60 per 10,000), 85 (61.2%) had associated major anomalies. There were 25 (18.0%) cases with chromosomal abnormalities including 12 trisomies 18, and 24 (17.3%) nonchromosomal recognized dysmorphic conditions. There were no predominant recognized dysmorphic conditions, but Fryns syndrome. However, other recognized dysmorphic conditions were registered including fetal alcohol syndrome, de Lange syndrome, sequences (laterality sequence and ectopia cordis), and complexes (limb body wall complex). Thirty six (25.9%) of the cases had non syndromic multiple congenital anomalies (MCA). Anomalies of the cardiovascular system (n = 53, 27.5%), the urogenital system (n = 34, 17.6%), the musculoskeletal system (n = 29, 15.0%), and the central nervous system (n = 19, 9.8%) were the most common other congenital anomalies. We observed specific patterns of anomalies associated with CDH which emphasizes the need to evaluate all patients with CDH for possible associated malformations. In conclusion the overall prevalence of associated anomalies, which was close to two in three infants, emphasizes the need for a thorough investigation of cases with CDH. A routine screening for other anomalies may be considered in infants and in fetuses with CDH. One should be aware that the anomalies associated with CDH can be classified into a recognizable anomaly, syndrome or pattern in more than one out of two cases with CDH.