ISCHEMIC STROKE IN WILLIAMS-BEUREN SYNDROME: A CASE REPORT Wei-Der Lee,1 Jui-Jen Hsu,1 Feng-Chen Huang,1 Mei-Chyn Chao,2,3,4 Yu-Li Chang,4 and Mao-Hsiung Huang1,2 1 Department of Physical Medicine and Rehabilitation, and 4Division of Cytogenetics, Department of Laboratory Medicine, Kaohsiung Medical University Hospital; 2College of Medicine, and 3 Division of Genetics, Endocrinology and Metabolism, Department of Pediatrics, Kaohsiung Medical University, Kaohsiung, Taiwan. A 15-year-old girl was admitted because of an acute onset of facial palsy and right hemiparesis. The patient had a history of moderate mental retardation and developmental delay. On admission, her vital signs were stable, except for high blood pressure. Magnetic resonance imaging demonstrated an infarct involving the left internal capsule and putamen. Because of the patient’s young age, an extensive stroke survey was performed. Williams-Beuren syndrome was finally confirmed by fluorescent in situ hybridization. Compared with the previously reported cases, no evidence of cerebral arterial stenosis or cardiac abnormalities was found by noninvasive imaging techniques. Because Williams-Beuren syndrome is a complex, multiple congenital anomaly syndrome with prominent cardiovascular features, regular assessment and antihypertensive treatment are necessary to minimize the lifelong cardiovascular risk in patients with this syndrome. Key Words: cardiovascular abnormalities, ischemic stroke, mental retardation, urinary incontinence, Williams-Beuren syndrome (Kaohsiung J Med Sci 2009;25:212–6) Williams-Beuren syndrome (WBS) is an autosomal dominant disorder resulting from a submicroscopic deletion (~1.6 Mb) from chromosomal sub-band 7q11.23. The deletions are rather uniform in size because they arise spontaneously by inter- or intrachromosomal crossover events within misaligned duplicated regions of high sequence identity that flank the typical deletion. The diagnosis is confirmed by fluorescent in situ hybridization analysis with cosmids containing part of the elastin (ELN) gene that is located in the center Received: Dec 19, 2008 Accepted: Jan 14, 2009 Address correspondence and reprint requests to: Dr Mao-Hsiung Huang, Department of Physical Medicine and Rehabilitation, Kaohsiung Medical University Hospital, 100 Tzyou 1st Road, Kaohsiung 807, Taiwan. E-mail: maohuang@ms24.hinet.net 212 of the commonly deleted region [1]. Patients with WBS have a characteristic constellation of medical and cognitive findings, with hallmark features of generalized arteriopathy presenting as stenosis of elastic arteries and hypertension. Human and mouse studies have demonstrated that defects in the ELN gene, leading to ELN haploinsufficiency, underlie the arteriopathy [2]. Cerebral infarction has been reported in a few children and adults with WBS; the underlying intracranial vascular stenosis is the major risk factor in these patients. The frequency of stroke does not appear to be age-related, but limited data are available to address this issue [2,3]. We present a 15-year-old girl with WBS who suffered an acute cerebrovascular accident. We compare the clinical and imaging findings with other cases reported in the literature. Kaohsiung J Med Sci April 2009 • Vol 25 • No 4 © 2009 Elsevier. All rights reserved. Stroke in Williams-Beuren syndrome A B Figure 1. (A) Axial diffusion-weighted magnetic resonance image shows infarction of the posterior limb of the internal capsule and basal ganglion (arrow). (B) Magnetic resonance angiograph demonstrates a seemingly normal cerebral vasculature. CASE PRESENTATION A 15-year-old right-handed girl with moderate mental retardation was admitted to our hospital because of right facial asymmetry and hemiparesis. According to her aunt’s description, the patient’s medical history was remarkable for feeding difficulties, infantile irritability, decreased physical growth and motor developmental disorders. She learned to walk when she was 2 years of age. At 4 years of age, she was brought to our hospital because of attention deficit, and moderate mental retardation was diagnosed. Hypersensitivity to sound had also been noted since childhood; the patient was afraid of loud noises. Her aunt also noticed complaints of increased urinary frequency, occasional nocturnal enuresis and urgent incontinence. The patient’s mother had a history of mental retardation, prolapsed uterus and urinary incontinence. Medical histories of other family members were unremarkable. The patient’s blood pressure was 182/110 mmHg on arrival at our hospital. Physical examination revealed facial dysmorphology (prominent lips, wide mouth, widely spaced teeth, broad forehead, short upturned nose and prominent earlobes). Neurologic examination showed an alert mental status without dysphasia, flaccid right hemiparesis affecting the arm more than the leg, and central right facial nerve palsy. Her senses were intact. Her reflexes were brisk in all extremities, and bilateral Babinski’s signs were absent. Computed tomography scans of the brain (not shown) demonstrated no significant findings. Magnetic Kaohsiung J Med Sci April 2009 • Vol 25 • No 4 resonance imaging of the brain, however, showed abnormal high signal intensity within the left basal ganglia and an internal capsule with infarction (Figure 1A). Magnetic resonance angiography showed no segmental stenosis of the left middle cerebral artery (Figure 1B). An extensive stroke survey was performed, but there were no significant findings. A repeat echocardiogram was performed, but no cardiovascular anomalies were found. Because of the patient’s peculiar face and mental retardation, chromosomal analysis was performed, which revealed 46,XX. Fluorescent in situ hybridization revealed a hemizygous deletion at 7q11.23 [46,XX,ish,del(7)(q11.23q11.23)] which confirmed the diagnosis of WBS (Figure 2). The patient’s hypertension was well controlled after administration of antihypertensive agents. The patient’s right hemiparesis gradually improved after rehabilitation, which allowed her to return to school. Regular follow-ups were carried out. DISCUSSION Stroke in children is an unusual condition and the incidence of pediatric stroke was reported to be 2.1 cases per 100,000 children–years [4]. In children, arterial ischemic stroke is more common than hemorrhage. Risk factors for ischemic and hemorrhagic stroke include congenital heart disease, blood disorders, vasculopathy, infections and vascular malformations; however, a discernible etiology is not often determined [5]. 213 W.D. Lee, J.J. Hsu, F.C. Huang, et al Control gene Control gene Elastin gene Figure 2. Fluorescent in situ hybridization reveals a hemizygous deletion at 7q11.23 [46,XX,ish,del(7)(q11.23q11.23)]. The elastin gene was found on only one chromosome 7. Many of the cardiovascular (CV) abnormalities that can be seen in WBS patients are known or suspected risk factors for stroke, including hypertension, cardiac disease and arterial stenosis [6]. Cerebral infarction has been reported in several children and adults with WBS; the underlying intracranial and extracranial vascular stenosis are the major risk factors in these patients [6–9]. Our patient differed from the majority of these cases, except for a patient reported by Wollack et al [6], with regards to these CV risk factors. The first difference was that while our patient did have hypertension at admission, she did not have a demonstrable cardiac abnormality. Hypertension is common in individuals with WBS, and is reported in 10–60% of cases, with this broad range due to differing study designs [3]. The manifestation of CV disease in WBS is highly variable, ranging from infantile lethality to no overt or clinically apparent CV involvement [10]. Spontaneous improvement in pulmonary arterial stenosis over time has been well established, whereas supravalvular aortic stenosis is usually progressive, particularly in the first 5 years of life [8]. Arterial wall thickening, which decreases the compliance of the arterial tree, may be a factor in the development of hypertension in patients with WBS [2]. Many patients require treatment for hypertension, but insufficient data are available to recommend specific drug regimens. Hypertension in heterozygous ELN+/− mice is associated with elevated renin levels, and angiotensin receptor blockade is effective in the ELN+/− mouse 214 model [2]. Antihypertensive treatment for patients with WBS can be challenging, so multidrug regimens may be required for adequate control of blood pressure. Patients with hypertension resistant to extensive drug therapy should be evaluated for a renovascular etiology [2,10]. Another difference between our case and other reported cases is the involvement of the cerebral vasculature. In our patient, cerebral magnetic resonance angiography showed an absence of cerebral arterial stenosis. We did not perform angiography in our patient because we were concerned about arterial hyperreactivity and subsequent vasospasm, which is commonly associated with WBS [6]. Vascular stenosis in WBS is secondary to the generalized ELN arteriopathy associated with hemizygosity of the ELN gene. The arterial walls in WBS have a diffusely thickened media, but clinically significant narrowing is most likely to occur at the arterial origins [3]. People with WBS have an intellectual ability that generally meets the definition of mild to moderate mental retardation on standardized testing. The average full-scale IQ is reported to be 55–60, but a fairly broad range exists, extending from 40 to 90 [2]. Notable characteristics include a pattern with relative strengths in selected language domains and a prominent weakness in the visuospatial domain, which is referred to as the WBS cognitive profile [2,3]. Some of the connective tissue abnormalities in WBS have also been attributed to ELN hemizygosity, including: premature sagging of skin, a hoarse voice, periorbital puffiness, hernia, and diverticula of the colon and bladder [1,3]. Urinary frequency is a common problem in WBS patients of all ages and was one of the major concerns in our patient. The prevalence of structural abnormalities of the urinary tract detected with renal ultrasonography ranges from 20% to 35%. Adult females with WBS have an increased frequency of urinary tract infections. Bladder diverticula, possibly due to ELN deficiency, have also been reported in adults [3,11]. WBS is a complex, multiple congenital anomaly syndrome. Awareness of the specific issues should result in improved preventive care and surveillance. Because the cardiovascular risks persist throughout the life of patients with WBS, the patients require regular CV assessment and antihypertensive treatment, even if no vascular event has occurred previously. Kaohsiung J Med Sci April 2009 • Vol 25 • No 4 Stroke in Williams-Beuren syndrome REFERENCES 1. 2. 3. 4. 5. 6. Francke U. Williams-Beuren syndrome: genes and mechanisms. Hum Mol Genet 1999;8:1947–54. Pober BR, Johnson M, Urban Z. Mechanisms and treatment of cardiovascular disease in Williams-Beuren syndrome. J Clin Invest 2008;118:1606–15. Pober BR, Morris CA. Diagnosis and management of medical problems in adults with Williams-Beuren syndrome. Am J Med Genet C Semin Med Genet 2007; 145C:280–90. Chung B, Wong V. Pediatric stroke among Hong Kong Chinese subjects. Pediatrics 2004;114:e206–12. Goodman S, Pavlakis S. Pediatric and newborn stroke. Curr Treat Options Neurol 2008;10:431–9. Wollack JB, Kaifer M, LaMonte MP, et al. Stroke in Williams syndrome. Stroke 1996;27:143–6. Kaohsiung J Med Sci April 2009 • Vol 25 • No 4 7. Blanc F, Wolff V, Talmant V, et al. Late onset stroke and myocardial infarction in Williams syndrome. Eur J Neurol 2006;13:e3–4. 8. Kaplan P, Levinson M, Kaplan BS. Cerebral artery stenoses in Williams syndrome cause strokes in childhood. J Pediatr 1995;126:943–5. 9. Putman CM, Chaloupka JC, Eklund JE, et al. Multifocal intracranial occlusive vasculopathy resulting in stroke: an unusual manifestation of Williams syndrome. AJNR Am J Neuroradiol 1995;16:1536–8. 10. Morris CA, Mervis CB. Williams syndrome and related disorders. Annu Rev Genomics Hum Genet 2000;1: 461–84. 11. Sammour ZM, Gomes CM, Duarte RJ, et al. Voiding dysfunction and the Williams-Beuren syndrome: a clinical and urodynamic investigation. J Urol 2006; 175:1472–6. 215 威廉氏症候群合併缺血性腦中風 — 個案報告 李威德 1 許瑞仁 1 黃鳳珍 1 1 趙美琴 2,3,4 張由俐 4 黃茂雄 1,2 4 高雄醫學大學附設醫院 復健科 檢驗醫學部 細胞遺傳室 2 3 高雄醫學大學 醫學院醫學系 小兒科部 遺傳及內分泌新陳代謝科 一位十五歲的少女,因突然出現右側顏面下垂,右側肢體無力現象住院。過去病史發 現有中度智能障礙宜及發展遲緩。入院時除了上升的血壓以外其他生命跡象穩定。核 磁共振造影顯示在左側內囊和基底核有梗塞。核磁共振血管造影沒有顯示血管狹窄區 域。染色體分析 46,XX,螢光原位雜交法 (FISH) 證實有第 7 染色體 elastin gene 缺 損確認個案為威廉氏症候群。對於威廉氏症候群患者,先天的心血管異常就是個很重 要的中風危險因子。定期心血管追蹤檢查,無論有無發生過心血管事件,都要考慮藥 物使用控制血壓。 關鍵詞:心血管異常,缺血性腦中風,智能障礙,尿失禁,威廉氏症候群 ( 高雄醫誌 2009;25:212–6) 收文日期:97 年 12 月 19 日 接受刊載:98 年 1 月 14 日 通訊作者:黃茂雄醫師 高雄醫學大學附設醫院復健科 高雄市 807 三民區自由一路 100 號 216 Kaohsiung J Med Sci April 2009 • Vol 25 • No 4