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Query: UMLS:C0033377 (
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11,717
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A 46,XX,del(10)
p13
karyotype (Paris Conference, 1971) was identified in a 5-year-old Negro girl with mental and growth retardation, brachy- and trigonocephaly, downward slanting palpebral fissures, hypotelorism, epicanthal folds,
ptosis
, strabismus, dysplastic nose, high-arched palate, microdontia, small low-set posteriorly rotated ears, asymmetrical thorax, wide-spaced nipples, and minor abnormalities of hands and feet. Both parents and a brother had normal karyotypes. Expression of more than 50 polymorphic gene loci determining blood groups, serum proteins and red cell enzymes was studied. The results did not permit localization of a gene locus on the deleted segment of chromosome 10. The proposita was heterozygous for the Rh and MN blood groups and for the red cell enzymes adenosine deaminase, glutamate pyruvate transaminase and esterase D. These gene loci are thereby excluded from region 10p13 yields 10pter.
...
PMID:Del (10)p autosomal deletion syndrome: clinical, cytogenetic and gene marker studies. 115 Feb 32
Two children with monosomy 10p13 are reported. In the first case the monosomy was the result of a maternal balanced translocation t(3;10) (p27;
p13
) while the second case was a de novo mutation. We reviewed clinical details of cases reported so far and found that certain symptoms are typical of the deletion of a comparatively large segment of chromosome 10 short arms. These symptoms include mental and growth retardation, skull abnormalities, antimongoloid slant of the eyes, ear abnormalities, anteverted nostrils, abnormalities of the hands and feet, cryptorchidism in boys, and, primarily, hypoplasia or aplasia of the olfactory bulbs and olfactory tracts as well as narrow palpebral fissures or eyelid
ptosis
.
...
PMID:Partial monosomy of chromosome 10 short arms. 684 44
A 7 year-old girl is described with a de novo deletion of the short arm of chromosome 10 (qter
p13
:). The clinical features of: mental retardation, a large asymmetric head, antimongoloid slant, exophthalmos, epicanthus,
ptosis
, abnormal ears, pectus excavatum and widely spaced nipples are compared with those of five earlier reported cases with a deletion 10p. The data available suggest the existence of a clinically recognizable monosomy 10p syndrome.
...
PMID:Partial monosomy 10p syndrome. 730 36
Cryptic unbalanced chromosome rearrangements in the telomeric bands of the chromosomes may constitute a significant cause of unexplained mental retardation with or without congenital anomalies. We report on a boy with a terminal deletion of the long arm of chromosome 13, combined with a partial duplication of the short arm of chromosome 20, owing to a cryptic balanced translocation in his father. The karyotype of the father was 46XY,t(13;20)(q34;
p13
). The propositus presented with severe mental and growth retardation, microcephaly, facial anomalies including
ptosis
of the right upper eyelid, a high nasal bridge, small palpebral fissures, and bilateral epicanthus, hypospadias, and scoliosis. A younger brother died at birth and had a low birth weight, hypospadias, and a horseshoe kidney. Repeated chromosome analyses with high resolution banding in the propositus and his parents were apparently normal. Chromosome painting eventually disclosed the cryptic translocation in the father with unbalanced karyotype in the propositus. The importance of additional FISH analysis in patients with unexplained mental retardation, physical anomalies, and apparently normal chromosomes is emphasized.
...
PMID:Detection of a cryptic translocation t(13;20)(q34;p13) in an unexplained case of MCA/MR: value of FISH over high resolution banding. 1049 96
Aniridia is a rare condition occurring in 1 in 64,000 to 1 in 96,000 live births. Approximately one third of cases are sporadic and carry a 30% risk of Wilms' tumor developing before the age of 5. The remaining 66% are inherited in an autosomal dominant fashion. The aniridia candidate gene (PAX6) has a key role as a master regulator in the development of eye and central nervous tissues. The Wilms' tumor predisposing gene (WT1) plays an important role in the development of genitourinary tract diseases such as hypospadias, cryptorchism, horse-shoe kidney, and Wilms' tumor. The WT1 and PAX6 genes are about 700 kb apart, with the WT1 gene located centromeric to PAX6 in chromosome 11p13. We report a patient with incomplete aniridia,
ptosis
, hypospadias, and cryptorchism. Cytogenetic analysis revealed the presence of a de novo reciprocal translocation 46, XY, t (2; 11) (p25.1;
p13
) without microscopic deletion. We suggest that haploinsufficiency in PAX6 and WT1 genes resulted in aniridia and associated genitourinary abnormalities.
...
PMID:De novo chromosome translocation t (2; 11) (p25.1; p13) in a patient with aniridia and genitourinary abnormalities. 1284 52
Aniridia usually occurs in isolation, but may also occur as part of the WAGR contiguous gene deletion syndrome, which includes Wilms tumor, aniridia, genitourinary abnormalities, and mental retardation. The aniridia and predisposition for Wilms tumor seen in WAGR are caused by haploinsufficiency for PAX 6 and WT1, respectively. We present a female infant with aniridia, bilateral
ptosis
, bilateral posterior capsular cataracts, nystagmus, left-sided glaucoma, microcephaly, mild unilateral hydronephrosis, poor linear growth, and gross motor delay consistent with a clinical diagnosis of WAGR syndrome. In addition, weight-for-height ratio at 12 months is at the 94th centile, raising the possibility of a diagnosis of WAGRO (WAGR + Obesity). Chromosome analysis revealed a translocation (11;15)(
p13
;p11.2) which has not been previously associated with a diagnosis of WAGR. Subsequent clinical WAGR fluorescent in situ hybridization (FISH) analysis demonstrated a deletion of 11p13 including PAX6 and WT1. A complete FISH-mapping of the breakpoints on chromosome 11 revealed a 7 Mb deletion within 11p13-11p14. The patient is examined in light of other reported patients with deletions and/or translocations involving the regions between 11p12 --> 11p14 including patients with WAGR + obesity (WAGRO) as well as with other reported patients with aniridia and congenital
ptosis
.
...
PMID:WAGR(O?) syndrome and congenital ptosis caused by an unbalanced t(11;15)(p13;p11.2)dn demonstrating a 7 megabase deletion by FISH. 1664 34
In recent years, subtelomeric rearrangements have been identified as a major cause of multiple congenital anomalies (MCA)/mental retardation (MR) syndromes. Currently, more than 2,500 individuals with MR have been tested and subtelomeric rearrangements were detected in about 6%. Therefore, subtelomeric FISH analysis is indicated as a second tier test after high-resolution G-banding analysis, in subjects with otherwise unexplained developmental delay/MR and/or MCA. We describe a female patient and her maternal aunt, both showing a distinct phenotype, associated with the same complex subtelomeric rearrangement. Subtelomeric FISH testing performed between 1 year 9 months and 20 years after the initial karyotype showed, in both patients, distal trisomy 12p and distal monosomy 10p as follows: 46,XX.ish der(10)t(10;12)(p15.3;
p13
.31). Parental subtelomeric FISH analysis showed the proposita's mother (sister of Patient 2) and grandmother (mother to Patient 2), to have a balanced 10p:12p translocation. Both girls showed a similar phenotype with pre/postnatal growth retardation, moderate-to-severe developmental delay/MR, very poor/absent speech, hypotonia, lax ligaments, and a distinct pattern of malformation. On examination there were blepharophimosis; bilateral
ptosis
/epicanthus; broad, depressed nasal bridge with a beaked nose; short philtrum; low-set, posteriorly rotated, overfolded ears; micrognathia; mild webbing of the neck; mild broadening of thumbs; puffy hands/feet; long hallux; and sacral/coccygeal dimples. A slow overall improvement was seen in both patients over time. To our knowledge, a complex subtle rearrangement as the one seen in our patients has not been reported thus far. Our patients show features of partial 10p deletion syndrome rather than those of partial duplication 12p, confirming the general rule that deletions are more phenotypically penetrant than duplications.
...
PMID:Subtelomeric analysis detects a familial 10p;12p rearrangement in two relatives with a distinct syndrome. 1716 46
