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 Table of Contents  
CASE REPORT
Year : 2012  |  Volume : 18  |  Issue : 4  |  Page : 220-222

Waardenburg syndrome 2


Department of Otorhinolaryngology and Head and Neck Surgery, BPS Government Medical College for Women, Sonipat, Haryana, India

Date of Web Publication19-Dec-2012

Correspondence Address:
Uma Garg
Department of ENT, BPS Government Medical College for Women, Khanpur Kalan, Sonipat, Haryana
India
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Source of Support: None, Conflict of Interest: None


DOI: 10.4103/0971-7749.104804

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  Abstract 

Waardenburg syndrome (WS) is a rare disease characterised by sensorineural deafness in association with oculocutaneous pigmentary anomalies and dystopia canthorum. In this article, we report a 6-year-old boy with WS2, one of four clinical types of WS, for its rarity and relative paucity of reports in the otological literature. We also review the relevant literature of this rare disorder.

Keywords: Auditory-pigmentary syndromes, Dystopia canthorum, Waardenburg syndrome


How to cite this article:
Garg U, Surana R. Waardenburg syndrome 2. Indian J Otol 2012;18:220-2

How to cite this URL:
Garg U, Surana R. Waardenburg syndrome 2. Indian J Otol [serial online] 2012 [cited 2019 Nov 18];18:220-2. Available from: http://www.indianjotol.org/text.asp?2012/18/4/220/104804


  Introduction Top


Waardenburg syndrome (WS) is a rare autosomally inherited and genetically heterogeneous disorder characterised by sensorineural hearing loss; pigmentary disturbances of the skin, hair, and iris; and dystopia canthorum (lateral displacement of both medial canthi and lacrimal puncta). [1] This syndrome is caused by the physical absence of melanocytes from the skin, hair, eyes, or stria vascularis of the cochlea. The syndrome accounts for about 2% to 5% cases of congenital deafness. [2] WS demonstrates both genetically and clinically heterogeneous characteristics. Based on the presence of variable clinical characteristics and additional signs, WS is classified into four clinical types as WS1, WS2, WS3, and WS4. [3],[4],[5] WS1 is associated with dystopia canthorum; WS2 lacks dystopia canthorum; WS3 is quite similar to WS1, with additional musculoskeletal abnormalities; and WS4 is associated with Hirschsprung disease. [6],[7]

We report here a case of WS2 from India, for its rarity and relative paucity of reports in the otological literature.


  Case Report Top


A 6-year-old boy presented at the outpatients department of ENT and HNS, with the chief complaints of hearing loss and inability to speak since birth.

Physical examination of the patient revealed a centrally placed white forelock of hair; de-pigmented white patches on the body mainly over the hands, forearms, and abdomen; and bilateral blue iris [Figure 1] and [Figure 2]. There was no history of similar illness or findings suggesting WS in any of the other family members and siblings. There was no history of consanguinity in the family.
Figure 1: Photograph of a 6-year-old boy with a white forelock and bilateral blue eyes

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Figure 2: Photograph showing white patches over both hands

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On examination of the ear, nose, and throat no abnormality was detected. Audiological assessment utilising brainstem-evoked response audiometry (BERA) employing monaural clicks at 110 and 100 dB stimulation in both ears showed no identifiable BERA wave peaks at both sound intensities, suggesting severe bilateral sensorineural hearing loss.

Ophthalmological examination showed complete iris hypo-pigmentation (pale blue eyes) bilaterally. There was no evidence of dystopia canthorum.

Based on the clinical features the patient was diagnosed as having WS2 because of absence of dystopia canthorum.


  Discussion Top


WS was named after the Dutch ophthalmologist P.J. Waardenburg who first described this syndrome in 1951. Since then, four subtypes (WS1-WS4) based on variable clinical presentations have been described. The clinical variability of WS is attributed to the different penetrance and expression of the responsible genes. WS1 and WS2 are autosomal dominant inherited in most cases, WS3 may be sporadic or autosomal dominant, and WS4 is autosomal recessive in inheritance. Multiple genes have been implicated in the syndrome. Mutations in the PAX3 gene (paired box gene-3) on chromosome 2q37 are seen in WS1 and WS3, [8],[9] and MITF (microphthalmia-associated transcription factor) mapped on 3p12-p14.1 is mutated in WS2. [9] WS4 is due to SOX10 (SRY: Sex determining region Y-box-10) or endothelin-B receptor (EDNRB) gene mutations. [10]

Diagnosis of WS is essentially clinical. Unfortunately, not every case expresses all clinical manifestations of complete WS and the incomplete form is commonly described.

The WS consortium [11] proposed the diagnostic criteria for diagnosis of WS1 in 1992 [Table 1]. Two major or one major plus two minor criteria are necessary for diagnosis of WS1. Liu et al. [12] have proposed that for diagnosing WS2 two major criteria be fulfilled and dystopia canthorum be replaced with premature greying as one of the major criteria.
Table 1: Diagnostic criteria for WS proposed by the Waardenburg consortium[11]

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Dystopia canthorum is the most penetrant feature of WS and is found in 41.2-99% of the reported cases. [6] Dystopia canthorum is defined as a prominent broad nasal root with increased inter-canthal distance. It is not present in WS2. Arias and Mota [13] developed a Waardenburg index (WI) as a reliable measure of dystopia canthorum. Earlier, WI > 2.07 was considered dystopic, but now WI > 1.95 is considered more practical. [7]

Hearing loss is the most serious feature in WS. It is congenital, sensorineural, and usually non-progressive. It may be unilateral or bilateral, and can vary in degree from slight to profound. Penetrance of sensorineural hearing loss has been observed to be 69% in WS1 and 87% in WS2 after excluding probands ascertained through their hearing loss. [14] Hearing loss can be explained by a lack of melanocytes in the stria vascularis of the cochlea.

Cutaneous pigmentary defects include achromic spots and hyper-pigmented macules, and are observed in 8.3-50% of patients. [6] Pigmentary disturbances of hair may be in the form of a white forelock or premature greying of scalp hair, eye brows, cilia, or body hair. White forelock is observed in 17-58.4% of cases and premature greying in 7% of cases. [15]

Ocular colour abnormalities of WS include three types of disturbances: Iris heterochromia, bilateral iris iso-hypochromia, and fundus pigmentary alterations (generalized decrease in retinal pigment or pigmentary mottling in the periphery). Iris heterochromia, partial or complete, was found in 21-28% of patients with WS. Bilateral iris iso-hypochromia in WS was reported to occur in 14.9-42% of cases. [6]

Three major (sensorineural hearing loss, characteristic blue eyes, and white forelock) and one minor (skin hypo-pigmentation (congenital leukoderma)) criteria were found in our patient. According to these criteria the child was diagnosed as having WS2. Neither parents nor any other member of the family had any history of pigmentary abnormalities, congenital deafness, or findings suggesting WS. Therefore, the observed patterns of anomalies in this patient are probably the result of a new mutation within the gene.

All the features of WS1 and WS2 except sensorineural hearing loss are essentially benign and cosmetic in nature, and do not necessitate active intervention, but deafness, if severe, can be a major handicap. The phenotypic features of WS help to make an early diagnosis of this syndrome among deaf-mute children. An early diagnosis may aid in the initiation of early treatment by cochlear implantation leading to improvement of speech discrimination and spoken language.

 
  References Top

1.Waardenburg PJ. A new syndrome combining developmental anomalies of the eyelids, eyebrows and nose root with pigmentary defects of the iris and head hair and with congenital deafness. Am J Hum Genet 1951;3:195-201.  Back to cited text no. 1
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2.Nayak CS, Isaacson G. Worldwide distribution of Waardenburg syndrome. Ann Otol Rhinol Laryngol 2003;112:817-20.  Back to cited text no. 2
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3.Soni CR, Kumar G. Child neurology: A patient with dissimilar eye color and deafness. Neurology 2010;74:25-6.  Back to cited text no. 3
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4.Qin W, Shu A, Qian X, Gao J, Xing Q, Zhang J, et al. A novel mutation of PAX3 in a chinese family with Waardenburg syndrome. Mol Vis 2006;12:1001-8.  Back to cited text no. 4
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5.Tomita Y, Suzuki T. Genetics of pigmentary disorders. Am J Med Genet C Semin Med Genet 2004;15:75-81.  Back to cited text no. 5
    
6.Dourmishev AL, Dourmishev LA, Schwartz RA, Janniger CK. Waardenburg syndrome. Int J Dermatol 1999;38:656-63.  Back to cited text no. 6
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7.Read AP, Newton VE. Waardenburg syndrome. J Med Genet 1997;34:656-65.  Back to cited text no. 7
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8.Krishtul A, Galadari I. Waardenburg syndrome: Case report. Int J Dermatol 2003;42:651-2.  Back to cited text no. 8
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9.Tagra S, Talwar AK, Walia RL, Sidhu P. Waardenburg syndrome. Indian J Dermatol Venereol Leprol 2006;72:326.  Back to cited text no. 9
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10.Bondurand N, Pingault V, Goerich DE, Lemort N, Sock E, Le Caignec C, et al. Interaction among SOX10, PAX3 and MITF, three genes altered in Waardenburg syndrome. Hum Mol Genet 2000;9:1907-17.  Back to cited text no. 10
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11.Farrer LA, Grundfast KM, Amos J, Arnos KS, Asher JH Jr, Beighton P, et al. Waardenburg syndrome (WS) type I is caused by defects at multiple loci, one of which is near ALPP on chromosome 2: First report of the WS consortium. Am J Hum Genet 1992;50:902-13.  Back to cited text no. 11
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12.Liu XZ, Newton VE, Read AP. Waardenburg syndrome type II: Phenotypic findings and diagnostic criteria. Am J Med Genet 1995;55:95-100.  Back to cited text no. 12
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13.Arias S, Mota M. Apparent non-penetrance for dystopia in Waardenburg syndrome type I, with some hints on the diagnosis of dystopia canthorum. J Genet Hum 1978;26:103-31.  Back to cited text no. 13
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14.Newton V. Hearing loss and Waardenburg's syndrome: Implications for genetic counselling. J Laryngol Otol 1990;104:97-103.  Back to cited text no. 14
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15.Reed WB, Stone VM, Boder E, Ziprkowski L. Pigmentary disorders in association with congenital deafness. Arch Dermatol 1967;95:176-86.  Back to cited text no. 15
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    Figures

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    Tables

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