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Short Communication Assessment of clinical scoring systems for the diagnosis of Williams-Beuren syndrome

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D.E.S. Leme
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D.H. Souza
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G Mercado
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Eduardo Alfredo Pastene at Administración Nacional de Laboratorios e Institutos de Salud (Argentina)
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Abstract

Williams-Beuren syndrome (WBS) is a genetic disorder characterized by physical and intellectual developmental delay, associated with congenital heart disease and facial dysmorphism. WBS is caused by a microdeletion on chromosome 7 (7q11.23), which encompasses the elastin (ELN) gene and about 27 other genes. The gold standard for WBS laboratory diagnosis is FISH (fluorescence in situ hybridization), which is very costly. As a possible alternative, we investigated the accuracy of three clinical diagnostic scoring systems in 250 patients with WBS diagnosed by FISH. We concluded that all three systems could be used for the clinical diagnosis of WBS, but they all gave a low percentage of false-positive (6.0-9.2%) and false-negative (0.8-4.0%) results. Therefore, their use should be associated with FISH testing.
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Genetics and Molecular Research 12 (3): 3407-3411 (2013)
Short Communication
Assessment of clinical scoring systems for the
diagnosis of Williams-Beuren syndrome
D.E.S. Leme1, D.H. Souza1, G. Mercado2, E. Pastene2, A. Dias3 and
D. Moretti-Ferreira1
1Serviço de Aconselhamento Genético, Departamento de Genética,
Instituto de Biociências de Botucatu, Universidade Estadual Paulista,
Botucatu, SP, Brasil
2Centro Nacional de Genética Médica,
Administración Nacional de Laboratorios e Institutos de Salud,
Buenos Aires, Argentina
3Departamento de Saúde Pública, Faculdade de Medicina de Botucatu,
Universidade Estadual Paulista, Botucatu, SP, Brasil
Corresponding author: D. Moretti-Ferreira
E-mail: sag@fmb.unesp.br
Genet. Mol. Res. 12 (3): 3407-3411 (2013)
Received December 20, 2012
Accepted April 16, 2013
Published September 4, 2013
DOI http://dx.doi.org/10.4238/2013.September.4.7
ABSTRACT. Williams-Beuren syndrome (WBS) is a genetic disorder
characterized by physical and intellectual developmental delay,
associated with congenital heart disease and facial dysmorphism.
WBS is caused by a microdeletion on chromosome 7 (7q11.23), which
encompasses the elastin (ELN) gene and about 27 other genes. The
gold standard for WBS laboratory diagnosis is FISH (uorescence in
situ hybridization), which is very costly. As a possible alternative, we
investigated the accuracy of three clinical diagnostic scoring systems in
250 patients with WBS diagnosed by FISH. We concluded that all three
systems could be used for the clinical diagnosis of WBS, but they all
gave a low percentage of false-positive (6.0-9.2%) and false-negative
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Genetics and Molecular Research 12 (3): 3407-3411 (2013)
D.E.S. Leme et al.
(0.8-4.0%) results. Therefore, their use should be associated with FISH
testing.
Key words: Williams-Beuren syndrome; Clinical diagnosis;
Fluorescence in situ hybridization; Elastin (ELN) gene; Chromosome 7
INTRODUCTION
Williams-Beuren syndrome (WBS), rst described by Williams et al. (1961) and
Beuren (1972), is a genetic disorder that leads to physical and intellectual developmental
delay associated with congenital heart diseases and facial dysmorphisms. WBS is caused by
a microdeletion on chromosome 7 (7q11.23), which encompasses the elastin gene (ELN) and
about 27 other genes. ELN haploinsufciency is responsible for supravalvular aortic stenosis
(SVAS), the most severe WBS clinical characteristic (Merla et al., 2010; Schubert, 2009).
Mothers usually report the pregnancy of a child with WBS as uneventful. An infant
with WBS often has difculty feeding and sleeping and may be brought for medical care be-
cause of frequent crying, constipation, and especially hernias (most commonly of the inguinal
type). WBS patients start walking late, at around two and half years of age. Facial features
include prominent forehead and full cheeks, deep-set eyes, attened nasal bridge with small
upturned nose and long philtrum, wide mouth, and full lower lip. The cognitive prole in-
cludes over-friendliness, loquacity, and uninhibited. WBS patients show mild to moderate
mental retardation with IQ ranging between 50 and 60, hyperacusia, very good memory, and
deep hoarse voice (Williams et al., 1961; Beuren, 1972; Souza et al., 2007).
The estimated incidence of WBS is 1:7500 live births (Stromme et al., 2002). Cases
are generally sporadic, or de novo, but autosomal dominant inheritance has been reported.
The deletions in the WBS region arise as a consequence of misalignment of gametes during
meiosis following unequal crossing over (non-allelic homologous recombination) due to high
similarity of low-copy-repeat sequence blocks (Schubert, 2009).
In the population of WBS patients, about 30% of parents carry a heterozygous inver-
sion of the WBS locus (presence of this inversion predisposes to chromosomal mispairing in
meiosis). In the non-WBS population, this inversion is present in about 5% (Schubert, 2009).
In 90% of the cases, WBS microdeletion is 1.55 Mb, whereas 1.88 Mb in 8% of the cases, and
atypical sizes are observed in only 2% (Pober, 2010).
WBS diagnosis is mostly clinical. Laboratory tests using molecular biology tech-
niques can be used to identify the WBS microdeletion. The gold standard for WBS laboratory
diagnosis is the uorescence in situ hybridization (FISH), which, despite being effective, is
very expensive. Another molecular method is the multiplex ligation-dependent probe am-
plication (MLPA), which allows the detection of deletions in specic target sequences, by
amplifying over 40 different types of probes, and simultaneous hybridization (Schouten et al.,
2002). MLPA is not as expensive as FISH, but it is still not widely available. There is also
microarray-based comparative genomic hybridization, which, in comparison with karyotyp-
ing, is able to detect chromosomal alterations (deletions and duplications) not visible under
a light microscope. However, it does not permit identifying the structural organization of a
chromosomal aberration, and is as costly as FISH (Riegel et al., 2011).
To improve WBS clinical diagnosis and to improve the use of molecular techniques
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Genetics and Molecular Research 12 (3): 3407-3411 (2013)
Williams-Beuren syndrome clinical diagnostic score system
that can help establish such diagnosis, Lowery et al. (1995) proposed a scoring system that
classies WBS patients as classic or uncertain. The American Academy of Pediatrics (AAP,
2001) recommends the use of a system that is based on the patient’s score and indicates whether
FISH should be performed. Sugayama et al. (2007) developed a system in which a total score
lower than “standard” points out the need for FISH testing to establish the diagnosis.
Within this context, the scoring systems proposed by Lowery et al. (1995), AAP
(2001), and Sugayama et al. (2007) were used in a group of patients from Brazil and Argentina
with clinically suspected WBS, who had not undergone any kind of score-based evaluation or
laboratory molecular testing. The diagnostic accuracy of the clinical features of the scoring
systems was compared with that of the gold standard, FISH test.
MATERIAL AND METHODS
Cases of suspected WBS registered in the databases of Serviço de Aconselhamento
Genético, Instituto de Biociências de Botucatu, Universidade Estadual Paulista, Botucatu, SP,
Brazil, and of Centro Nacional de Genética Médica, Administración Nacional de Laboratorios e
Institutos de Salud, Buenos Aires, Argentina, were randomly selected and reviewed. All patients
were assessed by experienced clinical geneticists who completed clinical charts for each case.
The references of the clinical signs used in the scoring systems were described by the
AAP (2001). The suspected patients with 3 or more clinical signs, whose frequency was equal
to or greater than 60%, underwent FISH testing.
Thus, the clinical diagnostic scoring systems proposed by Lowery et al. (1995), AAP
(2001), and Sugayama et al. (2007) were used in 250 patients with WBS: 149 Brazilian patients
[140 FISH (+) and 9 FISH (-)], and 101 patients from Argentina [88 FISH (+) and 13 FISH (-)].
Lowery et al. (1995) reviewed the clinical ndings for 110 patients with WBS con-
rmed by FISH, and developed a scoring system that classied WBS patients according to 6
different phenotypes. Patients scoring 0-3 were classied as “uncertain”, and patients scoring
4-10 were classied as “classic”. Clinical features were grouped as follows: facial character-
istics: 3 points; mental retardation, non-SVAS congenital heart disease, or inguinal hernia: 1
point; and SVAS or hypercalcemia: 2 points.
The AAP (2001) developed a system on the basis of a study of 107 individuals with
WBS conrmed by FISH. This system is divided into 7 items: growth (if 3 of 5 items are
checked, 1 point is scored), behavior (if 3 of 6 items are checked, 1 point is scored), devel-
opment (if 3 of 6 items are checked, 1 point is scored), facial features (if 8 of 17 items are
checked, 3 points are scored), cardiovascular problems-SVAS (if 1 of 2 items is checked, 1
point is scored), non-SVAS cardiovascular problems (if 1 of 3 items is checked, 5 points are
scored), connective tissue abnormality (if 2 of 6 items are checked, 2 points are scored), and
calcium studies (if 1 of 2 items is checked, 2 points are scored). If the total score is <3, a diag-
nosis of WBS is unlikely. If the score is ≥3, FISH study should be considered.
The scoring system of Sugayama et al. (2007) is based on a meta-analysis including
577 patients and 42 clinical signs. The cut-off score indicating the need for the FISH test is
20. Clinical ndings are scored as follows: low birth weight, difculty feeding, typical facies,
SVAS, mental retardation and over-friendliness: 3 points; strabismus and developmental de-
lay: 2 points; failure to thrive, non-SVAS cardiovascular problems, arterial hypertension, joint
contractures, hyperacusia, and ungual hypoplasia: 1 point.
The results obtained were compared by statistical methods for the validation of diag-
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D.E.S. Leme et al.
nostic tools using the OpenEpi v.2.3 software (Dean et al., 2009). Signicance level was set at
5% for all scoring systems.
RESULTS
Patient age ranged from 2 months to 31 years. Of the 250 WBS patients included, 227
were FISH (+) and 23 were FISH (-). Thus, the gold standard indicated that in this case series,
WBS prevalence was 90.8%. Table 1 shows patient distribution according to the three scoring
systems assessed and FISH testing, as well as estimates of sensitivity, specicity, and positive
and negative predictive values (PV+ and PV-). Condence intervals (95%CI) were adjusted
by the Wilson scoring method, which is favored when adjustment for a single proportion is
made (Vollset, 1993).
FISH Sensitivity (95%CI) Specicity (95%CI) PV+ (95%CI) PV- (95%CI)
+ -
Lowery et al. (1995) + 224 23 98.68% 0.00% 90.69% 0.00%
- 3 0 (96.19-99.55) (0.0-14.31) (86.42-93.71) (0.0-56.15)
AAP (2001) + 217 15 95.59% 34.78% 93.53% 44.44%
- 10 8 (92.08-97.59) (18.81-55.11) (89.61-96.04) (24.56-66.28)
Sugayama et al. (2007) + 225 19 99.12% 17.39% 92.21% 66.67%
- 2 4 (96.84-99.76) (6.98-37.14) (88.16-94.96) (30.9-90.32)
PV+ = positive predictive values; PV- = negative predictive values.
Table 1. Validation estimates and condence intervals of the three scoring systems assessed compared with FISH
testing.
All three scoring systems showed high sensitivity, but little or no specicity. The PV+
were high, whereas the PV- were intermediate.
DISCUSSION AND CONCLUSIONS
Over 95% of the FISH (+) patients were also clinically diagnosed with WBS, showing
that clinical evaluation was infrequently wrong.
However, specicity estimates lower than 35% (even reaching zero), indicated that
scoring systems based on clinical signs may classify unaffected individuals as affected if indi-
viduals displaying WBS signs or symptoms or WBS phenocopies are evaluated.
It is worth noting that the validation of diagnostic tests aims at sensitivity/specicity
balance, since highly specic tests tend to have low sensitivity, and since highly sensitive tests
tend to have low specicity. Our results pointed to the latter case.
PVs are known to depend not only on the test used but also on the prevalence of the
disease investigated, which in this case exceeded 90%. This results in higher PVs when test sen-
sitivity and specicity are xed, particularly the PV+ (over 90% for the three scoring systems).
This study clearly demonstrates that WBS can be clinically diagnosed using any one of
the three scoring systems assessed. The system proposed by Lowery et al. (1995) is the easiest
to apply from the operational standpoint. However, all of them show a small percentage of false-
positive (6.0-9.2%) and false-negative results (0.8-4.0%). Thus, the use of FISH testing in com-
bination with clinical evaluation can help in establishing a more accurate and specic diagnosis.
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... Although new technologies such as array-CGH and multiplex ligation-dependent probe amplification (MLPA) outdated FISH, mostly in diagnosing atypical deletion cases, FISH is still a valuable and cost-effective tool to confirm WBS clinical suspicion. 2,6,7 The area of rare diseases faces a lot of major obstacles with regard to gaining a deep understanding of each syndrome in order to improve patient care. In developing countries, some of these hurdles include difficulty in obtaining a timely and precise diagnosis, shortage of specialized healthcare workers, lack of research, and resource constraint. ...
... FISH is considered the gold standard method for chromosome microdeletion syndromes diagnosis. 4,6,38,39 The WBS diagnosis rate of FISH is over 90% of the cases. 39 WBS molecular etiology was described in the 1990s, the same decade that FISH was implemented as a diagnostic tool for WBS individuals. ...
... However, former standard methodologies, such as FISH, are still considered the gold standard for the detection of rare conditions, mainly in developing countries where financial support is limited and affordable technologies are preferred. 2,6,7,53,54,55 FISH probes covering the ELN gene detect the majority of the deletion in children clinically diagnosed with WBS. 39,53,54 Nickerson et al. 39 showed that more than 90% of the patients were hemizygous for the elastin gene, while Souza et al. 53 verified that 83% of the children clinically diagnosed with WBS had the same deletion. ...
Fluorescence in situ hybridization (FISH) as an irreplaceable diagnostic tool for Williams-Beuren syndrome in developing countries: a literature review
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Objective: The aim of this study was to sum up and characterize all Williams-Beuren syndrome cases diagnosed by fluorescence in situ hybridization (FISH) since its implementation, as well as to discuss FISH as a cost-effective methodology in developing countries. Data source: From January 1986 to January 2022, articles were selected using the databases in PubMed (Medline) and SciELO. The following terms were used: Williams syndrome and In Situ Hybridization, Fluorescence. Inclusion criteria included Williams-Beuren syndrome cases diagnosed by FISH with a stratified phenotype of each patient. Only studies written in English, Spanish, and Portuguese were included. Studies with overlapping syndromes or genetic conditions were excluded. Data synthesis: After screening, 64 articles were included. A total of 205 individuals with Williams-Beuren syndrome diagnosed by FISH were included and further analyzed. Cardiovascular malformations were the most frequent finding (85.4%). Supravalvular aortic stenosis (62.4%) and pulmonary stenosis (30.7%) were the main cardiac alterations described. Conclusions: Our literature review reinforces that cardiac features may be the key to early diagnosis in Williams-Beuren syndrome patients. In addition, FISH may be the best diagnostic tool for developing nations that have limited access to new technologic resources.
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... Williams-Beuren syndrome (WBS), is a rare genetic neurodevelopmental disorder characterized by a set of somatic, psychological, and behavioral disorders. 1,2 Little is known about WBS in last developed and developing countries; this disease is under-diagnosed or diagnosed late, which causes several consequences on both somatic and psychological aspects. 2 In Africa, a genetic disease such as Williams's syndrome is often discovered incidentally. In fact, molecular biology, which is essential for a qualitative diagnosis, is expensive and a proper examination can be achieved only in specialized laboratories which are absent in Burkina Faso. ...
... The incidence of typical forms of WBS is 1:7500 live births, but the partial form is still poorly understood in developing countries. 1,2 To our knowledge, this is the first case reported in Burkina Faso. ...
Diagnostic Path of a Genetic Disease: A Case of Williams-Beuren Syndrome in Burkina Faso
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  • Jan 2016
Williams-Beuren syndrome (WBS) is a rare neurodevelopmental disorder characterized by a set of somatic, psychological, and behavioral abnormalities, which is caused by a deletion of several genes. Herein we report a 6 year-old boy, who presented with mental retardation and psychological disorders. The result of the first clinical examination was poor, since it didn't detect any dysmorphic feature which is a major component for the clinical diagnosis of WBS. Despite the multidisciplinary and the multicenter approaches used, the diagnosis of WBS (deletion of chromosome band 7q11. 23) was established more than 3 years after the first medical consultation. Rare partial forms of WBS have been recently described and they are both clinically and genetically difficult to diagnose. Unfortunately, this disorder is still little known by health professionals.
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... The genetic basis of this syndrome has already been established, that is microdeletion of the 7 th chromosome (7q11.23) which encompass elastin and additionally 27 genes [7,8,9]. The pathophysiology and genetics of IIH had been confused for many decades until group from Muenster (Germany) published report in New England Journal of Medicine in 2011 and found that majority of patients with IIH had mutation CYP24A1 gene. ...
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... We analyzed a cohort of 38 Chinese Han patients (15 females and 23 males) with suspected WBS from the Prenatal Diagnosis Center and the Department of Cardiac Surgery of the Guangdong General Hospital between July 2015 and March 2018. All patients underwent a complete examination according to the Genetics Committee of the American Academy of Pediatrics (2001), and those receiving a score ≥3 were enrolled in the study (Leme et al., 2013). Clinical data, including medical records, electrocardiograms, echocardiography, and cardiac catheterization reports were systematically reviewed. ...
Clinical application of chromosomal microarray analysis for the diagnosis of Williams–Beuren syndrome in Chinese Han patients
Article
Full-text available
  • Dec 2018
Background Williams–Beuren syndrome (WBS; OMIM #194,050) is a rare multisystem disorder of a variable phenotypic spectrum caused by a heterozygous microdeletion in the WBS chromosome region (WBSCR) in 7q11.23. Methods We screened 38 Chinese Han patients with suspected WBS using chromosomal microarray analysis (CMA). Results Pathogenic CNVs were identified in 34 of the patients, including 29 cases with a typical 7q11.23 microdeletion, three cases with atypical copy number variations (CNVs) within the WBS chromosome region and two cases with CNVs associated with other known syndromes. All 29 WBS patients with a typical microdeletion exhibited distinctive facial dysmorphisms and developmental delay. We observed that the incidence of pulmonary abnormalities was slightly higher than that of aortic abnormalities. We also found long philtrum and prominent lips with a thick lip that may warrant suspicion of WBS in the Chinese Han patients. Conclusion CMA facilitates diagnosis in individuals with classic/nonclassic features of WBS and demonstrated that when Chinese Han patients present with a less classical phenotype, such as pulmonary abnormalities, this may raise suspicion for a WBS diagnosis and suggest a referral for a genetics evaluation for a differential diagnosis.
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... El síndrome de Williams-Beuren (SWB, OMIM# 194050) es un trastorno genético del desarrollo neurológico que incluye diferentes manifestaciones clínicas como retardo en el crecimiento e intelectual, cardiopatía congénita (principalmente estenosis supravalvular aórtica) y rasgos faciales élficos (1)(2)(3). Presentan frecuentemente hiperacusia, patrón del iris estrellado, piel con arrugas prematuras, personalidad amigable y extrovertida. Es generalmente esporádico, aunque en los casos familiares se ha evidenciado un patrón de herencia autosómico dominante. ...
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El síndrome de Williams-Beuren es un trastorno genético del desarrollo neurológico que incluye diferentes manifestaciones clínicas como retardo en el crecimiento e intelectual, cardiopatía congénita y rasgo facial distintivo. El objetivo de este estudio es describir las características clínicas que conducen a su diagnóstico, conocer su evolución fenotípica y las medidas terapéuticas adecuadas. Se realizó un estudio retrospectivo, descriptivo, tipo serie de casos, en el que se incluyeron todos los pacientes con el diagnóstico de síndrome de Williams-Beuren, evaluados en el Instituto Autónomo Hospital Universitario de Los Andes, durante enero de 2000 a junio de 2014. El principal motivo de consulta fue la presencia de dismorfia facial y cardiopatía congénita, en la totalidad de los casos. La estenosis de la arteria pulmonar bilateral fue el tipo de cardiopatía congénita más frecuente en 4/7 pacientes. El síndrome de Williams-Beuren es una entidad genética que muestra un amplio espectro de características clínicas. Conocer todos estos hallazgos permite realizar el diagnóstico, ofrecer una adecuada atención médica, psicoterapéutica y educativa que permite mejorar su calidad de vida, sobrevida e inserción a la sociedad.
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... 45 In contrast, FISH allows for precise gene copy number determination in individual cells, rendering it independent from the purity of cancer tissues or presence of aneusomy. [46][47][48] 8p deletions were unevenly distributed between breast cancer subtypes, providing further support for the existence of biological differences between different subtypes of breast cancer. The higher rate of 8p deletions in NST as compared to lobular cancer is not surprising as most genomic alterations are more frequent in NST than in lobular carcinomas such as amplifications of HER2, 41,49 MYC, 41 MDM1, 41 and AIB1, 50 or overexpression of p53. ...
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Fluorescence in situ hybridization (FISH) as a diagnostic tool for Williams-Beuren Syndrome
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Fluorescent in situ hybridization (FISH) with commercial probes covering the elastin gene (ELM was used to determine the frequency of the 7q11.23 deletion in 18 children clinically diagnosed with Williams-Beuren syndrome (WBS). A de novo deletion was detected in 15 of the children (83%). Diagnostic investigation for WBS started late in childhood (median = 5.8 years). All the children showed facial features typical of the syndrome, mental retardation and developmental delay. Over-friendliness was observed in the majority of cases. Clinodactyly of the 5th finger (n = 13), cardiovascular disease (n = 9), loquacity (n = 9), low birthweight (n = 8), and failure to thrive (n = 9) were observed only in those children with the deletion. Respiratory problems (n = 9), though not previously reported in the literature, was a common finding in the group studied. Our results confirmed that FISH is useful in identifying 7q11.23 deletions in cases of WBS. Clinical manifestations were more evident in the deletion-positive children.
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Copy number variants at Williams-Beuren syndrome 7q11.23 region
Article
Full-text available
  • Jul 2010
  • HUM GENET
Copy number variants (CNVs) of the Williams-Beuren syndrome (WBS) 7q11.23 region are responsible for neurodevelopmental disorders with multi-system involvement and variable expressivity. Typical features of WBS microdeletion comprise a recognizable pattern of facial dysmorphisms, supravalvular aortic stenosis, connective tissue abnormalities, hypercalcemia, and a distinctive neurobehavioral phenotype. Conversely, the phenotype of patients carrying the 7q11.23 reciprocal duplications includes less distinctive facial dysmorphisms and prominent speech delay. The common deletion/duplication ranges in size from 1.5 to 1.8 Mb and encompasses approximately 28 genes. This region is flanked by low copy repeats (LCRs) with greater than ~97% identity, which can mediate non-allelic homologous recombination resulting from misalignment of LCRs during meiosis. A clear genotype-phenotype correlation has been established in WBS only for the elastin gene, which is responsible for the vascular and connective tissue abnormalities. The molecular substrates underlying the other clinical features of 7q11.23 CNVs, including the neurocognitive phenotypes, are still debated. Recent studies suggest that besides the role of the genes in the deleted/duplicated interval, multiple factors such as regulatory sequences, epigenetic mechanisms, parental origin of the CNV, and nucleotide variations in the non-deleted/duplicated allele may be important in determining the variable expressivity of 7q11.23 CNV phenotypes. Here, we review the clinical and molecular findings and the recent insights on genomic disorders associated with CNVs involving the 7q11.23 region.
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The genomic basis of the Williams–Beuren Syndrome
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  • Dec 2008
  • CELL MOL LIFE SCI
The Williams-Beuren syndrome is a genomic disorder (prevalence: 1/7,500 to 1/20,000), caused by a hemizygous contiguous gene deletion on chromosome 7q11.23. Typical symptoms comprise supravalvular aortic stenosis, mental retardation, overfriendliness and visuospatial impairment. The common deletion sizes range of 1.5-1.8 mega base pairs (Mb), encompassing app. 28 genes. For a few genes, a genotype-phenotype correlation has been established. The best-explored gene within this region is the elastin gene; its haploinsufficiency causes arterial stenosis. The region of the Williams-Beuren syndrome consists of a single copy gene region (approximately 1.2 Mb) flanked by repetitive sequences--Low Copy Repeats (LCR). The deletions arise as a consequence of misalignment of these repetitive sequences during meiosis and a following unequal crossing over due to high similarity of LCRs. This review presents an overview of the Williams-Beuren syndrome region considering the genomic assembly, chromosomal rearrangements and their mechanisms (i.e. deletions, duplications, inversions) and evolutionary and historical aspects.
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Prevalence Estimation of Williams Syndrome
Article
Full-text available
  • May 2002
There are limited population-based data on the occurrence of Williams syndrome. We estimated its prevalence combining data from two investigations. One was an epidemiologic study originally designed to assess the prevalence and etiology of mental retardation among 30,037 Norwegian children born between 1980 and 1985 and living in Akershus County on January 1, 1993. The other investigation was a national survey of Williams syndrome. In the first study, 213 children were referred for evaluation, whereas the second study comprised 57 cases with Williams syndrome born between 1970 and 1992, who were referred for evaluation from all Norwegian counties. The epidemiologic study revealed three children with Williams syndrome, whereas one additional case complying with our demographic criteria was identified in the national survey, thus giving a prevalence of 1 in 7500. In all cases, a typical chromosome 7q11.23 deletion was detected. We also conclude that Williams syndrome is not an uncommon cause of mental retardation, with a prevalence of approximately 6% of patients with genetic etiology.
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Health care supervision for children with Williams syndrome
Article
  • May 2001
This set of guidelines is designed to assist the pediatrician to care for children with Williams syndrome diagnosed by clinical features and with regional chromosomal microdeletion confirmed by fluorescence in situ hybridization.
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Strong correlation of elastin deletions, detected by FISH, with Williams syndrome: Evaluation of 235 patients
Article
  • Aug 1995
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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Confidence intervals for a binomial proportion
Article
  • May 1993
Thirteen methods for computing binomial confidence intervals are compared based on their coverage properties, widths and errors relative to exact limits. The use of the standard textbook method, x/n +/- 1.96 square root of [(x/n)(1-x/n)/n], or its continuity corrected version, is strongly discouraged. A commonly cited rule of thumb stating that alternatives to exact methods may be used when the estimated proportion p is such that np and n(1(-)p) both exceed 5 does not ensure adequate accuracy. Score limits are easily calculated from closed form solutions to quadratic equations and can be used at all times. Based on coverage functions, the continuity corrected score method is recommended over exact methods. Its conservative nature should be kept in mind, as should the wider fluctuation of actual coverage that accompanies omission of the continuity correction.
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Supravalvular Aortic Stenosis
Article
  • Jan 1962
Facial resemblance to a patient in whom supravalvular aortic stenosis was discovered and successfully relieved at operation has led to the correct diagnosis of supravalvular stenosis in three other patients. All four patients are mentally subnormal. The presence of supravalvular aortic stenosis in mentally retarded patients with the unusual facial features here detailed may constitute a syndrome that has not previously been described.
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