A 22q13.1 duplication in mosaicism including SOX10

Waardenburg syndrome (WS) is characterized by the association of sensorineural hearing loss and pigmentation abnormalities. Among the four types, WS Type 2 (WS2) is the only one without a remarkable distinguishing feature. Here, we report a patient initially diagnosed with WS2 who exhibits a 446 kb mosaic duplication in chromosome 22q13.1, encompassing SOX10, and detected using whole genome sequencing in a trio. The patient, a 46,XY boy, presents with profound bilateral sensorineural hearing loss, right heterochromia iridium, left bright blue iris, and skin-depigmented areas in the abdomen and limbs. Vestibular and imaging tests are normal, without inner ear or olfactory bulb malformations. Bilateral cochlear implantation did not prevent language and speech delays. Moderate congenital chronic constipation and neurodevelopmental difficulties were also present. Given the few genes included in this duplicated region (only one OMIM gene with dominant inheritance), this report provides further delineation of the phenotype related to duplications encompassing the entire SOX10 gene.

[Genetic testing and prenatal diagnosis for a Chinese pedigree affected with Waardenburg syndrome type 4C due to heterozygous deletion of SOX10 gene]

OBJECTIVE

To explore the genetic basis for a Chinese pedigree featuring congenital profound syndromic deafness and chronic constipation, and provide prenatal diagnosis for a high-risk fetus.

METHODS

Whole-exome sequencing was carried out to analyze the sequences of genes associated with hereditary deafness, and multiplex ligation-dependent probe amplification (MLPA) was used to verify the candidate variant in the proband's parents and the fetus.

RESULTS

The proband was found to have harbored a heterozygous deletion of SOX10, a pathogenic gene associated with Waardenburg syndrome type 4C (WS4C). The same deletion was found in her mother (with profound syndromic deafness and chronic constipation) and the fetus, but not in her father with normal hearing. Based on the guidelines from the American College of Medical Genetics and Genomics (ACMG) and Association for Molecular Pathology (AMP), the SOX10 gene deletion was predicted to be a pathogenic variant (PVS1+PM2_Supporting+PP1+PP4).

CONCLUSION

The pedigree was diagnosed with WS4C, which has conformed to an autosomal dominant inheritance. Deletion of the entire SOX10 gene, as a loss-of-function variant, probably underlay its pathogenesis. Above finding has facilitated genetic counseling and prenatal diagnosis for this family.

Association of autism spectrum disorder with Waardenburg syndrome in a toddler

Waardenburg syndrome is a rare genetic condition with an incidence of 1 in 212 000. The condition is classically associated with distinctive facial features, congenital hearing loss and pigmentary changes of the hair, iris and skin. There is a paucity of literature about the association of neurodevelopmental conditions with this syndrome. We present a toddler with Waardenburg syndrome type 1 who was referred to our service for developmental delay concerns. The child was diagnosed with the condition at birth, had distinctive facial features, but the hearing was normal. The child's father also shares a similar mutation. Following a multidisciplinary assessment, the child was diagnosed to have autism spectrum disorder with possible regression. We acknowledge that there may not be a causal relationship between autism spectrum and Waardenburg syndrome. However, this highlights the need for developmental surveillance among children diagnosed with Waardenburg syndrome and to consider its association with neurodevelopmental conditions.

A Novel Variant in Paired Box 3 Gene-related with Waardenburg Syndrome Type-1 in an Afghan Family

Waardenburg Syndrome (WS) is a congenital auditory-pigmentary syndrome. We, herein, present a case of a 1.5 year girl presenting with bilateral hearing impairment. Detailed examinations and molecular analyses of the proband and other family members were performed. A novel missense, heterozygous variant (c.253A>C (p.Lys85Gln)) was detected in the paıred box 3 (PAX3) gene. For interpretation and classification of the variant, the American College of Medical Genetics and Genomics (ACMG) guideline was used. No previous report of this variant was found in the literature and we determined the variant according to the guide published in 2015 as ''likely pathogenic''. We think that the clinical and genetic characterisation of the current family will contribute to knowledge for a better understanding of the genetic background of the Afghan patients with WS. Key Words: Waardenburg syndrome, Congenital auditory-pigmentary syndrome, PAX3 gene.

Neurological Waardenburg-Shah syndrome: a diagnostic challenge in a child with skin hypopigmentation and neurological manifestation

Peripheral demyelinating neuropathy, central dysmyelinating leukodystrophy, Waardenburg syndrome and Hirschsprung disease (PCWH) is a rare manifestation of Waardenburg-Shah syndrome associated with mutations in the SOX10 gene. The phenotypic expression is variable, thus presenting a diagnostic challenge. Clinical manifestations of PCWH may mimic other neurocutaneous syndromes. A thorough history, careful physical examination, appropriate imaging studies and an index of suspicion are needed to diagnose this condition. We describe an adolescent girl with skin hypopigmentation and blue irides associated with sensorineural hearing loss, Hirschsprung disease, as well as seizures with neurological signs, and discuss the challenges in diagnosing PCWH.

SWEPT-SOURCE OPTICAL COHERENCE TOMOGRAPHY AND OPTICAL COHERENCE TOMOGRAPHY ANGIOGRAPHY FINDINGS IN WAARDENBURG SYNDROME

PURPOSE

Waardenburg syndrome (WS) is a rare condition characterized by six main features. It has been previously observed that WS is also associated with hypopigmentation of the choroid through multimodal imaging. To our knowledge, this is the first report of using swept-source optical coherence tomography angiography (OCTA) on a patient with known WS.

METHODS

Report of a single case. The swept-source OCT images were captured using Topcon DRI OCT Triton (Topcon, Inc, Tokyo, Japan), whereas swept-source OCTA images were captured by Optovue AngioVue (Optovue, Inc, Fremont, CA) using DualTrack Motion Correction Technology.

RESULTS

In this case, OCTA demonstrated evidence of normal vasculature of all layers (superficial, deep, and choricocapillaris), a normal foveal avascular zone measuring 0.267 mm2 in the right eye and 0.307 mm2 in the left eye, and a normal capillary density measuring 49.8% in the right eye and 52.6% in the left eye.

CONCLUSION

There are many conditions that may mimic the hypopigmentation of the choroid associated with WS; it has been documented that these similar conditions such as choroidal nevus, choroidal melanoma, and Vogt-Koyanagi-Harada syndrome all demonstrated abnormal OCTA findings. Unlike these conditions, our patient with WS had unremarkable OCTA findings.

[Clinical and genetic characteristics of Chinese patients with Waardenburg syndrome]

Waardenburg syndrome (WS), also known as auditorypigmentary syndrome, is characterized by non-progressive sensorineural hearing loss and anomalous pigmentation. Its mode of inheritance is either autosomal dominant or autosomal recessive. So far only PAX3, MITF, SOX10 and EDNRB mutations have been identified among Chinese patients with WS. This review has provided an update for WS-related genes, mutation databases, molecular and functional data, and a discussion over the molecular diagnosis of WS.

Permanent Childhood Hearing Impairment: Aetiological Evaluation of Infants identified through the Irish Newborn Hearing Screening Programme

The Newborn Hearing Screening Programme (NHSP) was established in Cork University Maternity Hospital (CUMH) in April 2011. Between April 2011 and July 2014, 42 infants were identified with a Permanent Childhood Hearing Impairment (PCHI). Following this diagnosis, infants underwent a paediatric assessment according to recognised guidelines with the intention of identifying the underlying aetiology of the PCHI. The aim of this study was to assess the findings of this aetiological workup via retrospective chart review. PCHI data was obtained from the eSP database. This is a web based information system (eSP) used to track each baby through the screening and referral process A retrospective chart review of these patients was performed. Sixteen (38%) infants were diagnosed with a bilateral sensorineural hearing loss. Two infants had congenital CMV infection. A Connexin 26 gene mutation was detected in one infant. Two infants were diagnosed with Waardenburg syndrome, One with Pendred syndrome and one with Pfeiffer syndrome. Five babies underwent cochlear implantation. Through adherence to the recommended protocol a possible cause of PCHI may be determined. This study has identified areas of future improvement for this service in Ireland.

Waardenburg syndrome type II in a Chinese patient caused by a novel nonsense mutation in the SOX10 gene

OBJECTIVE

Waardenburg syndrome is a congenital genetic disorder. It is the most common type of syndromic hearing impairment with highly genetic heterogeneity and proved to be related by 6 genes as follows: PAX3, MITF, SNAI2, EDN3, EDNRB and SOX10. This article aims to identify the genetic causes of a Chinese WS child patient.

METHODS

A Chinese WS child was collected for clinical data collection by questionnaire survey. DNA samples of proband and his parents were extracted from peripheral blood samples. Six candidate genes were sequenced by the Trusight One sequencing panel on the illumina NextSeq 500 platform.

RESULTS

A novel nonsense heterozygous mutation was found in the coding region of exon 2 in the SOX10 gene of proband. The novel nonsense heterozygous mutation could cause the replacement of the 55th lysine codon by stop codon (484T > C, C142R) and further more possibly cause terminating the protein translation in advance. However, both proband's parents had no mutation of genes above mentioned.

CONCLUSION

The gene mutation of SOX10 [NM_006941.3 c.163A > T] is a novel nonsense mutation. No record of this mutation has been found in dbSNP, HGMD, 1000 Genomes Project, ClinVar and ESP6500 databases. It meets the condition of PS2 of strong evidence in 2015 ACMG Standards and Guidelines.

Molecular Etiology of Hereditary Single-Side Deafness: Its Association With Pigmentary Disorders and Waardenburg Syndrome

Unilateral sensorineural hearing loss (USNHL)/single-side deafness (SSD) is a frequently encountered disability in children. The etiology of a substantial portion of USNHL/SSD still remains unknown, and genetic causes have not been clearly elucidated. In this study, the authors evaluated the heritability of USNHL/SSD.The authors sequentially recruited 50 unrelated children with SSD. For an etiologic diagnosis, we performed a rigorous review on the phenotypes of family members of all children and conducted, if necessary, molecular genetic tests including targeted exome sequencing of 129 deafness genes.Among the 50 SSD children cohort, the authors identify 4 (8%) unrelated SSD probands from 4 families (SH136, SB173, SB177, and SB199) with another hearing impaired family members. Notably, all 4 probands in our cohort with a familial history of SSD also have pigmentary abnormalities such as brown freckles or premature gray hair within first degree relatives, which may indicate that genes whose products are involved with pigmentary disorder could be candidates for heritable SSD. Indeed, SH136 and SB199 turned out to segregate a mutation in MITF and PAX3, respectively, leading to a molecular diagnosis of Waardenburg syndrome (WS).We report, for the first time in the literature, a significant heritability of pediatric SSD. There is a strong association between the heritability of USNHL/SSD and the pigmentary abnormality, shedding a new light on the understanding of the molecular basis of heritable USNHL/SSD. In case of children with congenital SSD, it would be mandatory to rigorously screen pigmentary abnormalities. WS should also be included in the differential diagnosis of children with USNHL/SSD, especially in a familial form.

Syndrome in Question

Waardenburg syndrome is an inherited disease characterized by sensorineural hearing loss, pigmentation changes and minor facial malformations. It has four clinical variants. We report the case of a girl who, like her mother, was affected by this syndrome. The diagnosis was made after detection and treatment of deafness.

Multimodal Ultrawide-Field Imaging Features in Waardenburg Syndrome

A 45-year-old woman was referred for bilateral irregular fundus pigmentation. Dilated fundus examination revealed irregular hypopigmentation posterior to the equator in both eyes, confirmed by fundus autofluorescence. A thickened choroid was seen on enhanced-depth imaging spectral-domain optical coherence tomography (EDI SD-OCT). Systemic evaluation revealed sensorineural deafness, telecanthus, and a white forelock. Further investigation revealed a first-degree relative with Waardenburg syndrome. Waardenburg syndrome is characterized by a group of features including telecanthus, a broad nasal root, synophrys of the eyebrows, piedbaldism, heterochromia irides, and deafness. Choroidal hypopigmentation is a unique feature that can be visualized with ultrawide-field fundus autofluorescence. The choroid may also be thickened and its thickness measured with EDI SD-OCT.

Waardenburg syndrome type 2: an orthodontic perspective

Waardenburg syndrome is a rare form of neurocristopathy. It is a disorder in the development of neural crest cells, caused by an altered cellular migration during the embryonic phase. That alteration causes an association of different abnormalities such as pigmentary disturbances of the hair, iris, skin, stria vascularis of the cochlea, dystopia canthorum and sensorineural hearing loss. We report a case of a 14-year-old Romanian male, with a family history of Waardenburg syndrome (mother) and Usher syndrome (father - congenitally sensorineural hearing loss and retinal degeneration). The case particularities are: the correlation between malocclusion and Waardenburg syndrome due to hypoplastic alae nasi and also factors that produced hearing loss, which could be Waardenburg syndrome, Usher syndrome or the presence of the connexin 26 (W24X) gene mutation.

Waardenburg syndrome with familial unilateral renal agenesis: a new syndrome variant?

A 64-year-old man with Waardenburg syndrome presented with anuria and was subsequently discovered by renal ultrasound to have unilateral renal agenesis. The patient is one of three generations with incidental finding of renal agenesis also marked by the presence of Waardenburg syndrome. To our knowledge, there has been no mention elsewhere in the scientific literature of a variant of Waardenburg syndrome with associated renal agenesis.

Genetic analysis of PAX3 for diagnosis of Waardenburg syndrome type I

CONCLUSION

PAX3 genetic analysis increased the diagnostic accuracy for Waardenburg syndrome type I (WS1). Analysis of the three-dimensional (3D) structure of PAX3 helped verify the pathogenicity of a missense mutation, and multiple ligation-dependent probe amplification (MLPA) analysis of PAX3 increased the sensitivity of genetic diagnosis in patients with WS1.

OBJECTIVES

Clinical diagnosis of WS1 is often difficult in individual patients with isolated, mild, or non-specific symptoms. The objective of the present study was to facilitate the accurate diagnosis of WS1 through genetic analysis of PAX3 and to expand the spectrum of known PAX3 mutations.

METHODS

In two Japanese families with WS1, we conducted a clinical evaluation of symptoms and genetic analysis, which involved direct sequencing, MLPA analysis, quantitative PCR of PAX3, and analysis of the predicted 3D structure of PAX3. The normal-hearing control group comprised 92 subjects who had normal hearing according to pure tone audiometry.

RESULTS

In one family, direct sequencing of PAX3 identified a heterozygous mutation, p.I59F. Analysis of PAX3 3D structures indicated that this mutation distorted the DNA-binding site of PAX3. In the other family, MLPA analysis and subsequent quantitative PCR detected a large, heterozygous deletion spanning 1759-2554 kb that eliminated 12-18 genes including a whole PAX3 gene.

Shah-Waardenburg syndrome

Shah-Waardenburg syndrome (SWS) is a neurocristopathy and is characterized by Hirschsprung's disease (HD), deafness, and depigmentation of hairs, skin, and iris. Is a very rare congenital disorder with variable clinical expression. This report describes a 4-day-old male newborn with Waardenburg's syndrome associated with aganglionosis of the colon and terminal ileum, and review the relevant literature for draws attention to the causal relationship between these two entities.

[Waardenburg Syndrome: a review of literature and case reports]

Waadernburg syndrome (WS) is an autosomal dominant disease clinically and genetically heterogeneous. It is characterized by non-progressive sensorineuronal hearing loss of variable degree and anomalous pigmentation (of the eyes, skin and stria vascularis of cochlear duct) caused by melanocytes absence. The syndrome is caused by mutations in genes that regulate the melanocytes differentiation from the neural crest during embriogenetic development. This study will review the literature on WS and explain more in detail the ocular findings in WS, while reporting new findings on two newly diagnosed cases.

[A case report on Waardenburg syndrome with cleft lip]

The syndrome of Waardenburg is a congenital plurimal formatif unit rare described and individualized for the first time by Waardenburg in 1951. It associates in its form most typical dystopie canthale intern, a widening of the base of the nose, disorders of the pigmentation. We wanted brought back this case because of its scarcity. It was about a 18 month old infant without particular antecedents, which was drawn up to us for correction of congenital malformation. The interrogation did not make it possible to find signs functional notable. With the examination it had a general good state. t presented a bilateral iridal hypochromy, a dystopie canthale, a canitie, a bilateral labial slit. The diagnosis of presumption was the Syndrome of Waardenburg because of the description of at least 2 major signs: dystopie canthale and disorders of the pigmentation. The complementary examinations carried out were those of the preoperative assessment which returned normal. The biological diagnosis which rests on the search for change of gene was not made for reasons of technical order and financier. The surgery is centered on the treatment of the labial slit. A chéiloplastie according to Millard was carried out. The continuations were simple. The Syndrome of Waardenburg is a rare, hereditary entity. A neurosensory deafness, musculo-skeletal anomalies, thus qu' a disease of Hirschsprung will have to be systematically required. The surgery of the slit or the télécanthus allows an social integration of the subjects reached.

Audiometric findings in Waardenburg's syndrome amongst the institutionalised deaf/blind in Kaduna-Nigeria

INTRODUCTION

Waardenburg's syndrome (WS) is a rare inherited disorder of congenital hearing loss and Pigmentary disturbances of the eyes, hair, skin and neural crest derivatives.

MATERIALS & METHODS

620 students in a deaf/blind school were examined and four had WS with a frequency of 0.65%. 2 males and 2 females with WS and age ranges between 10-19yrs {mean 15.75yrs.} All 4 subjects had complete blue irides, white forelock and sensorineural hearing loss, and thus met the diagnostic criteria. They were then subjected to Audiometric assessment.

RESULTS

Otoscopy was essentially normal but Audiometry revealed sensorineural hearing loss [SNHL] in all the subjects ranging from severe to profound with one subject being stone deaf.

CONCLUSION

WS is a rare disorder in our environment although it may be under reported. Two ofthe subjects benefited from amplification and were given hearing Aids. Provision of early amplification cannot be over emphasized.

Waardenburg syndrome associated with laryngomalacia

Waardenburg syndrome (WS) is a rare autosomal dominant condition characterised by sensorineural hearing loss, in conjunction with pigmentary abnormalities and defects of the neural crest-derived tissues. Depending on the additional phenotypic characteristics, WS is classified into four types, viz. WS1, WS2, WS3 and WS4. We report a 45-day-old male infant with WS1, who presented with inspiratory stridor associated with difficulty in respiration. Direct flexible laryngoscopic examination during evaluation confirmed laryngomalacia as the cause of the symptoms. The baby was managed conservatively and was discharged with appropriate advice to the mother, including the need for evaluation at regular intervals. There was gradual improvement in his symptoms, and by one year of age, he was completely symptom free. To our knowledge, laryngomalacia as a part of WS has not been documented to date in the English literature. We also briefly discussed the probable embryological basis for the observed association.

Electrodiagnostic findings in a patient with Waardenburg syndrome

Waardenburg syndrome is associated with a variety of clinical features, which may include polyneuropathy. We describe a patient with Waardenburg syndrome type 2 and provide detailed electrodiagnostic findings, thus complementing the biopsy data and brief descriptions of nerve conduction studies found in the literature.

Shah-Waardenburg syndrome

A case of Shah-Waardenburg syndrome, a rare variant of Waardenburg syndrome, is presented. Inherited as an autosomal recessive or dominant trait, the disorder presumably results from defective migration of neural crest cells. It clinically manifests with pigmentary anomalies and congenital megacolon.

A mouse model of Waardenburg syndrome type IV resulting from an ENU-induced mutation in endothelin 3

A line of mutant mice (114-CH19) exhibiting white spotting and preweaning lethality was identified during an N-ethyl-N-nitrosourea (ENU) mutagenesis screen. The trait segregated as a semidominant bellyspot with reduced penetrance. Homozygous mutant mice showed preweaning lethality, and exhibited white spotting over the majority of the body surface, with pigmented patches remaining around the pinnae, eyes and tail. Linkage analysis localized 114-CH19 on mouse chromosome 2, suggesting endothelin 3 (Edn3) as a candidate gene. Sequence analysis of Edn3 identified a G > A transversion that encodes an arginine to histidine substitution (R96H). This mutation is predicted to disrupt furin-mediated proteolytic cleavage of pro-endothelin that is necessary to form biologically active EDN3. This mutation is novel among human and mouse EDN3 mutants, is the first reported EDN3 ENU mutant, and is the second reported EDN3 point mutation. This study demonstrates the power of using ENU mutagenesis screens to generate new animal models of human disease, and expands the spectrum of EDN3 mutant alleles.

Hypomelanotic Conditions of the Newborn and Infant

Depigmented nevi, pityriasis alba, and postinflammatory hypopigmentation are the most frequent hypomelanotic conditions in newborns and infants. These, and examples of less frequent hypopigmentations are briefly discussed in this article. A new classification for depigmented nevi is also proposed.

An Approach to Congenital Malformations of the Head and Neck

It is easy to be overwhelmed when faced with the hundreds of cataloged anomalies of the head and neck region. For any individual defect there may be variation in phenotype, associated anomalies, and cause. To help organize these various disorders, dysmorphologists have grouped them into "syndromes", "sequences" and "associations" based on our level of understanding of their etiologies. Recently, completion of the human genome project has added a new level of complexity to the study of human malformations by providing a flood of new information about the genetic origins of established syndromes. The article describes the dysmorphologist's approach to the child with one or more anomalies and provides a glimpse into the future of human genetics.

Waardenburg syndrome Type II

Two rare cases of Waardenburg type II are reported. First case had three main features of WS--profound SN hearing loss, hetrochromia iris and white forelock of hair. Second case had moderate SNHL and depigmentation of hair.

[Genetic deafness]

OBJECTIVES

The aim of this study was to review the different types of genetic deafness.

METHODS

We describe syndromic and isolated sensorineural deafness and transmission deafness.

RESULTS

Genetic sensorineural syndromic deafness represents 30% of cases of genetic deafness. A frequent cause is Pendred syndrome, which associates congenital sensorineural deafness with goitre and malformations of the inner ear which can be identified on computed tomography scan. Isolated deafness which is responsible for 70% of cases of genetic deafness is then outlined. Among the different types of isolated deafness, 80% are autosomal recessive disorders. A frequent form of autosomal recessive deafness is due to mutations in the connexin 26 gene. Lastly, we detail transmission deafness dominated by aplasia. Major aplasia is characterized by a malformation of the external ear associated with malformations of the middle ear whereas, minor aplasia corresponds to a malformation of the middle ear, sometimes associated with minor external ear malformations.

CONCLUSION

For each type of deafness we propose a systematic assessment.

Vitiligo: a sign of systemic disease

Vitiligo reflects a systemic process that has important implications beyond the skin. These include other autoimmune diseases and ocular and neurological abnormalities. Alezzandrini syndrome and Vogt-Koyanagi-Harada syndrome particularly exemplify this relationship. In addition, vitiligo may be confused with other systemic disorders, including tuberous sclerosis, progressive systemic sclerosis (scleroderma), melanoma, and, in endemic regions, leprosy. We describe these associations and emphasize the importance of depigmenting disorders.

Waardenburg syndrome type 1

Waardenburg syndrome (WS) is a rare disease characterized by sensorineural deafness in association with pigmentary anomalies and defects of neural-crest-derived tissues. Depending on additional symptoms, WS is classified into four types, WS1, WS2, WS3 and WS4. WS1 and WS3 are attributed to mutations in PAX3, whereas WS2 is heterogeneous, being caused by mutations in the microphthalmia-associated transcription factor gene in some but not all affected families. WS4 is attributed to mutations in the endothelin-3 or the endothelin-B receptor genes and SOX10 gene. WS1 is an auditory-pigmentary disorder comprising sensorineural hearing loss and pigmentary disturbances of the iris, hair, and skin, along with dystopia canthorum. We report a case with a confirmed diagnosis of WS1 and review the relevant literature for this rare disorder.

Waardenburg syndrome type 2 in an African patient

A thirty six year-old African man, born in the Southern part of Libya, presented with congenital deafness and white forelock, variable-sized hypopigmented, depigmented patches and hyperpigmented islands within the areas of hypomelanosis affecting the upper parts of the trunk, both arms and forearms. The nasal root was hypertrophied, but there was a lack of lateral displacement of medial canthi. We report this case of Waardenburg syndrome type 2 (WS 2). As no treatment is available for patients with WS 2, prompt diagnosis and referral to a hearing specialist are crucial for the normal development of patients affected with this condition.

Anophthalmos with limb anomalies (Waardenburg opththalmo-acromelic syndrome): report of a new Italian case with renal anomaly and review

Anophthalmos with limb anomalies (Waardenburg Opththalmo-Acromelic Syndrome) is a very rare autosomal recessive multiple congenital anomaly syndrome, first described by Waardenburg et al. in 1961 (MIM 206920). It is characterized by mono or more often bilateral anophthalmia/microphthalmia and foot malformations, which can be observed in 91% of the patients. The most common anomaly of the feet is the presence of four toes. The hands are affected bilaterally in 77% of the cases. The most characteristic anomaly is the synostosis of the fourth and fifth metacarpals. To date, 33 cases from 19 families have been reported. We present an Italian case of anophthalmia with limb anomalies and a renal malformation, which has never been described in the literature.

Waardenburg syndrome in the Turkish deaf population

Waardenburg Syndrome (WS) is an autosomal, dominantly inherited disorder that accounts for more than 2% cases of congenital deafness. The aim of this study is to determine the WS incidence among deaf pupils. Dysmorphological examination was performed on 720 children who were attending 7 special schools in Turkey and who had hearing disabilities. All subjects in the study were examined for WS diagnostic criteria. We detected 49 patients (6.8%) with WS among the 720 children examined. Six patients had WS type 1 (12.2%) and 43 had type 2 (87.8%). We observed 2 to 5 major diagnostic criteria for WS. Out of all the subjects in the study, only two patients have deaf first degree relatives. All subjects had been previously examined by physicians for deafness but none of them had been then diagnosed to have Waardenburg Syndrome. Instead, they were all misdiagnosed as to have nonsyndromic deafness. Awareness of WS diagnostic criteria by the physicans will provide accurate diagnosis for many deaf pupils and their first degree relatives who are able-to-hear WS patients and whose children are at risk for deafness.

Waardenburg syndrome

Waardenburg syndrome is a rare inherited and genetically heterogenous disorder of neural crest cell development. Four distinct subtypes showing marked interfamilial and intrafamilial variability have been described. We report a girl showing constellation of congenital hearing impairment with 110 dB and 105 dB loss in right and left ear respectively, hypoplastic blue iridis, white forelock, dystopia canthorum and broad nasal root. Other affected relatives of the family, with variable features of the syndrome, have been depicted in the pedigree.

[Waardenburg syndrome]

The authors discuss the case of a patient suffering from an auditory-pigmentary syndrome. The patient in whom the Waardenburg syndrome had never been diagnosed before was observed because of another disease, which quite frequently causes hearing loss in childhood. In a short review of the literature, the authors describe the other components of the syndrome and the recent information about the genetic background of the disease.