UMLS:C0020437 - FACTA Search

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Query: UMLS:C0020437 (hypercalcemia)
10,293 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

120 cases of the Williams-Beuren syndrome were collected by 11 cardiological centres in France, to determine the incidence of the various clinical signs and to obtain information on its aetiology, outcome and treatment. The selection criteria for inclusion in the series was typical facies. No particular complications were reported during pregnancy. Boys were a little more affected than girls. The birth weight was low and problems, especially digestive, often occurred in the first months. Cardiac signs were usually detected from the first year, although the exact diagnosis was usually made later on. 3/4 patients had subaortic stenosis, which was severe in 1/3 cases. Involvement of the branches of the aorta was not looked for systematically: the incidence (1/5 cases) found was lower than the true figure. Half the patients also had stenoses on branches of the pulmonary artery, but only rarely were they severe. These vascular malformations often seem to be progressive and, over a 10 year period, half the patients deteriorated. Many extracardiac abnormalities were reported. The most frequently encountered were inguinal and/or umbilical hernia. Surgery on the subvalvular stenosis gave good results in over 80 p. 100 cases; operative mortality was about 10 p. 100. Surgery should be performed before irreversible coronary or myocardial lesions develop. The study of the previous history did not give any new information on the cause of the syndrome, whose association with idiopathic hypercalcaemia of infancy is emphasised once again.
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PMID:[120 cases of the Williams and Beuren syndrome]. 677 59

Williams syndrome (WS) is generally characterized by mental deficiency, gregarious personality, dysmorphic facies, supravalvular aortic stenosis, and idiopathic infantile hypercalcemia. Patients with WS show allelic loss of elastin (ELN), exhibiting a submicroscopic deletion, at 7q11.23, detectable by FISH. Hemizygosity is likely the cause of vascular abnormalities in WS patients. A series of 235 patients was studied, and molecular cytogenetic deletions were seen in 96% of patients with classic WS. Patients included 195 solicited through the Williams Syndrome Association (WSA), plus 40 clinical cytogenetics cases referred by primary-care physicians. Photographs and medical records of most WSA subjects were reviewed, and patients were identified as "classic" (n = 114) or "uncertain" (n = 39). An additional 42 WSA patients were evaluated without clinical information. FISH was performed with biotinylated ELN cosmids on metaphase cells from immortalized lymphoblastoid lines from WSA patients and after high-resolution banding analysis on clinical referral patients. An alpha-satellite probe for chromosome 7 was included in hybridizations, as an internal control. Ninety-six percent of the patients with classic WS showed a deletion in one ELN allele; four of these did not show a deletion. Of the uncertain WS patients, only 3 of 39 showed a deletion. Of the 42 who were not classified phenotypically, because of lack of clinical information, 25 patients (60%) showed a deletion. Thirty-eight percent (15/40) of clinical cytogenetics cases showed an ELN deletion and no cytogenetic deletion by banded analysis. These results support the usefulness of FISH for the detection of elastin deletions as an initial diagnostic assay for WS.
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PMID:Strong correlation of elastin deletions, detected by FISH, with Williams syndrome: evaluation of 235 patients. 761 Dec 95

The human calcitonin receptor (CTR) is a transmembrane peptide with dual action as a receptor for the hormone calcitonin and as an extracellular calcium sensor. Therefore, CTR dysfunction could lead to disorders of calcium metabolism associated with hypercalcemia, such as the Williams syndrome (WS). WS is a developmental disorder caused by a deletion at chromosome 7q11.23 that includes the elastin locus (ELN). We have mapped the CTR gene (CALCR) to chromosome band 7q21.3 by polymerase chain reaction and single-strand conformation analysis of somatic cell hybrids as well as fluorescence in situ hybridization (FISH) to metaphase chromosome spreads. Two-color FISH cohybridizing CTR and ELN probes confirmed that CALCR maps telomeric to ELN. Subsequent analysis of chromosome spreads from four WS patients revealed deletion of the ELN locus in all of them and normal hybridization of CTR probes to both chromosome 7 homologues, indicating that CALCR lies outside the deleted region.
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PMID:The human calcitonin receptor gene (CALCR) at 7q21.3 is outside the deletion associated with the Williams syndrome. 778 82

We tabulated the frequency of renal abnormalities in 40 Williams syndrome individuals presenting for medical and/or developmental assessment to a multi-disciplinary Williams syndrome program. The average age at time of assessment was 7 2/12 years. Seven individuals (7/40 = 18%) had abnormalities detected, including nephrocalcinosis = 2; marked asymmetry in kidney size = 2; small kidneys = 1; solitary kidney = 1; and pelvic kidney = 1. Renal function was also assessed. Two individuals had evidence of renal dysfunction, one secondary to nephrocalcinosis and the second due to hypercalcemia and interstitial nephritis of unclear pathogenesis. We examined the frequency of renal artery stenosis in 9 individuals who underwent abdominal angiography during cardiac catheterization. We found unilateral or bilateral mild renal artery narrowing in 4 individuals and normal renal arteries in the remaining 5. Persistent hypertension occurred in only 2 individuals and did not correlate with renal artery status. We conclude that intrinsic renal anomalies, as well as problems secondary to hypercalcemia, occur with sufficient frequency to warrant baseline renal screening in all individuals with Williams syndrome.
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PMID:Renal findings in 40 individuals with Williams syndrome. 848 70

The developmental anomalies of dental hard tissues are relatively common in children. These anomalies can involve separately the enamel and they are due to many factors acting during odontogenesis. The paper deals with the main ethological factors and describes a case of idiopathic hypercalcemia. It is normally accompanied by aortic stenosis, mental retardation and a characteristic elfin face. This is called Williams syndrome. In this case we only found enamel hypoplasia on the cusps of the first molars.
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PMID:[Dental enamel hypoplasia apropos of a case]. 862 Sep 79

One hundred and fifty-two patients with the Williams-Beuren syndrome were examined to assess the frequency and severity of ophthalmological features associated with the disorder. Eighty-two (54%) had strabismus, all but three, esotropia. One hundred and seventeen (77%) patients had blue irides, 10 (7%) green, and 25 (16%) brown. One hundred and twelve (74%) showed a typical so-called stellate iris pattern of the anterior stroma. Whitish anomalies were also detectable in brown irides. Two 9-year-old patients and one 46-year-old patient had initial cataract. Of all the patients with funduscopy, 22% had retinal vascular tortuosity. One patient had suspected Rieger syndrome. Two patients had ptosis, one with a Marcus-Gunn phenomenon. No ocular manifestation of hypercalcaemia was noted.
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PMID:The spectrum of ocular features in the Williams-Beuren syndrome. 872 68

Williams syndrome (WS) is a multisystem developmental disorder caused by the deletion of contiguous genes at 7q11.23. Hemizygosity of the elastin (ELN) gene can account for the vascular and connective tissue abnormalities observed in WS patients, but the genes that contribute to features such as infantile hypercalcemia, dysmorphic facies, and mental retardation remain to be identified. In addition, the size of the genomic interval commonly deleted in WS patients has not been established. In this study we report the characterization of a 500-kb region that was determined to be deleted in our collection of WS patients. A detailed physical map consisting of cosmid, P1 artificial chromosomes, and yeast artificial chromosomes was constructed and used for gene isolation experiments. Using the techniques of direct cDNA selection and genomic DNA sequencing, three known genes (ELN, LIMK1, and RFC2), a novel gene (WSCR1) with homology to RNA-binding proteins, a gene with homology to restin, and four other putative transcription units were identified. LIMK1 is a protein kinase with two repeats of the LIM/double zinc finger motif, and it is highly expressed in brain. RFC2 is the 40-kDa ATP-binding subunit of replication factor C, which is known to play a role in the elongation of DNA catalyzed by DNA polymerase delta and epsilon. LIMK1 and WSCR1 may be particularly relevant when explaining cognitive defects observed in WS patients.
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PMID:Identification of genes from a 500-kb region at 7q11.23 that is commonly deleted in Williams syndrome patients. 881 60

Williams syndrome (WS) is characterized by distinct facial changes, growth deficiency, mental retardation, and congenital heart defect (particularly supravalvular aortic stenosis), associated at times with infantile hypercalcemia. Molecular genetic studies have indicated that hemizygosity at the elastin locus (7q11.23) causes WS. The purpose of this study was to confirm that this regional deletion, involving the elastin locus, is the cause of WS in Japan, and to clarify the correlation between the phenotype and the elastin locus. Thirty-two patients with WS and thirty of their relatives were examined by fluorescent in situ hybridization (FISH), using the WS chromosome region (WSCR) probe. All patients had cardiovascular disease (100%), 30 had typical WS facial changes (94%), 31 had mental retardation or developmental delay (97%), 16 were small-for-date at birth (50%), 14 had short stature (44%), and 13 had dental anomalies (41%). No relatives showed any manifestation of WS. Hemizygosity for a region of 7q11.23, involving the elastin locus, was found in all WS patients, but was not found in the 30 relatives.
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PMID:Molecular cytogenetic diagnosis of Williams syndrome. 886 24

Williams syndrome (WS) is associated with a submicroscopic deletion of the elastin gene (ELN) at 7q11.23. The deletion encompasses closely linked DNA markers. We have investigated 44 patients referred for possible WS using fluorescence in situ hybridization (FISH) analysis with a P1 clone containing an insert from the ELN, as well as performing genotype analysis of patients and parents with four DNA polymorphisms. Twenty-four patients were found to have deletions, 19 of whom were found clinically to have typical WS. The facial features were especially characteristic. None of the patients without detectable deletions was reported to have typical WS features, although one had supravalvular aortic stenosis, hypercalcemia, and mental retardation. No evidence was found in this material for variability of the size of the deletion. Our study supports the usefulness of analysis of ELN deletion in WS patients, both for confirmation of diagnosis and for genetic counselling.
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PMID:Investigation of deletions at 7q11.23 in 44 patients referred for Williams-Beuren syndrome, using FISH and four DNA polymorphisms. 900 95

We report two children with typical Williams syndrome facial appearance, growth deficiency and developmental delay. Both had supravalvular aortic stenosis (SVAS) and peripheral pulmonary stenosis (PPS), but no hypercalcemia. Chromosomal study in the first case, a 40-day-old girl, revealed a cytogenetically visible proximal interstitial deletion of the 7q11.22-11.23 segment. Another patient, a 3-year-old boy, with a normal karyotype, had milder phenotype with spontaneous remission of SVAS and PPS. Both patients showed allelic loss of the elastin (ELN) gene, exhibiting a submicroscopic deletion at 7q11.23, which was detected by fluorescence in situ hybridization (FISH). The results support the usefulness of FISH for detection of ELN gene deletion as an initial diagnostic assay for patients with SVAS or Williams syndrome. To our knowledge, these are the first cases of Williams syndrome in Taiwanese patients to be proven clinically, cytogenetically and by molecular analysis.
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PMID:Microdeletion oe chromosomal region 7Q11.23 in Williams syndrome. 907 42

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