Diagnosis and treatment of nephroblastoma with WAGR syndrome / 中华泌尿外科杂志

Objective:To discuss the diagnosis and treatment 0f WAGR syndrome.Methods:The clinical data of 10 cases of WAGR syndrome children admitted to our hospital from January 2008 to November 2019 were respectively analyzed including the clinical features, diagnosis, and surgical treatments. There were 6 males and 4 females, aged from 13 to 36 months, with an average of 23.6 months. 9 cases were diagnosed as iris absence due to ocular abnormalities in infancy, and 1 case was diagnosed as iris absence due to ocular abnormalities by physical examination because of renal mass. There were 2 boys with cryptorchidism, and 2 boys with hypospadias, 1 of which did not received operation because of mild hypospadias, and another undergoing surgery. There were no abnormality of genitourinary system in the remaining 5 cases. There were 7 cases of unilateral nephroblastoma, with 1 case at the left and 6 cases at the right, and there were 3 cases of bilateral nephroblastoma. Abdominal doppler ultrasound and enhanced abdominal CT were performed for all patients. Abdominal doppler ultrasound indicated solid mass in renal parenchyma or non-uniform echo zone. Abdominal enhanced CT indicated renal tumor with diameter of 1.8 cm-12.7 cm and locally non-uniform enhanced echo. Among the 7 cases of unilateral nephroblastoma, 4 underwent nephrectomy, 1 underwent tumor enucleation, and 2 underwent tumor enucleation for unilateral tumor complicated with nephrogenic rests. There were 3 cases of bilateral nephroblastoma, 2 cases undergoing unilateral tumor enucleation firstly and contralateral tumor enucleation following chemotherapy. One case underwent unilateral tumor nephrectomy followed by contralateral tumor enucleation. One case of unilateral nephrogenic rests did not undergo renal tumor surgery. Preoperative chemotherapy was performed in 7 patients, including 3 bilateral nephroblastoma, 1 unilateral nephroblastoma combined with contralateral nephroblastoma, and 3 unilateral tumors larger enough to pass the midline. The chemotherapy regimen was VCR+ ACTD in 5 cases, VCR+ ACTD+ CTX+ DOX/CDDP+ VP16 and VCR+ CTX+ DOX in another 2 cases respectively.Results:All 10 cases were diagnosed as nephroblastoma. There were 3 patients without preoperative chemotherapy which belongs to COG stageⅠ(1 case) and STAGEⅢ(2 cases); Preoperative chemotherapy was performed in 2 patients with SIOP stage Ⅱ, 2 patients with SIOP stage Ⅲ, and 3 patients with SIOP stageⅤ. Nine children received regular chemotherapy after surgery, among which 1 child in stage Ⅰ received DD4A chemotherapy regimens, 2 children in stage Ⅱ received DD4A and EE4A regimen respectively, and 3 of the 4 children in stage Ⅲ received regular chemotherapy after surgery, including EE4A(1 case)and DD4A(2 cases). EE4A(1 case)and DD4A(2 cases) chemotherapy were performed in 3 patients with stage Ⅴ according to their unilateral tumor stage. Ten cases were followed up, with 9 of the 10 cases having no tumor recurrence or metastasis, and death in 1 case. At present, abdominal doppler ultrasound of 1 child with nephrogenic rests showed no obvious progress. The renal function of 9 children was not significantly abnormal during the regular follow-up. The results of intelligence screening showed that 6 of the 10 patients were significantly behind their peers, and 4 had no obvious abnormality compared with their peers. Gene tests were performed 3 times after surgery, and the results showed the deletion of 11p13 and adjacent distal genes.Conclusions:WAGR syndrome is rare in clinical practice, and renal ultrasound should be monitored after diagnosis to detect renal tumors in early stage. For bilateral cases, renal function should be preserved as long as possible in order to reduce the probability of renal failure. Long-term follow-up of nephroblastoma with this syndrome is particularly important.

Síndrome WAGR por deleción en heterocigosis del gen WT1: Caso clínico pediátrico / WAGR syndrome by heterozygous deletion of the WT1 gene: Pediatric case report

El síndrome WAGR (tumor de Wilms, aniridia, anomalías genitourinarias y retraso mental) es un trastorno genético infrecuente debido a la deleción de la región 11p13, que contiene los genes WT1 y PAX6. Comprende una combinación distintiva de afecciones clínicas; la aniridia y el tumor de Wilms son las más notables. Se presenta a un lactante de 17 meses con microcefalia, alteraciones oculares (buftalmos, leucocoria, aniridia bilateral), hipoplasia escrotal, testículos en la región inguinal y retraso en el neurodesarrollo, a quien se le realizó el estudio de amplificación de sondas dependiente de ligandos múltiples para WT1, que mostró haploinsuficiencia en las sondas que hibridaban la región 11p13, compatible con una deleción en heterocigosis del gen. Posteriormente, se diagnosticó tumor de Wilms. Dada su baja prevalencia, es importante difundir sus características clínicas y hacer énfasis en un manejo interdisciplinario centrado en la identificación precoz del síndrome y de sus posibles complicaciones. .

WAGR syndrome (Wilms tumor, aniridia, genitourinary anomalies and mental retardation) is an uncommon genetic disorder due to the deletion of the 11p13 region that contains the WT1 and PAX6 genes. It involves a distinctive combination of clinical conditions, with aniridia and Wilms tumor being the most notable. We present a 17-month-old infant with microcephaly, ocular alterations (buphthalmos, leukocoria, bilateral aniridia), scrotal hypoplasia, undescended testes and neurodevelopmental delay who underwent multiplex ligation-dependent probe amplification study for WT1, showing haploinsufficiency in the probes that hybridize to the 11p13 region, compatible with an heterozygous deletion of the gene. Wilms tumor was later diagnosed. WAGR syndrome is infrequent; its report in Latin America is low. It is important to disseminate its clinical characteristics, emphasizing an interdisciplinary management focused on the early identification of both the syndrome and its possible complications.

WAGRO syndrome: a rare genetic condition associated with aniridia and additional ophthalmologic abnormalities / Síndrome WAGRO: uma condição genética rara associada à aniridia e a anormalidades oftalmológicas adicionais

ABSTRACT Aniridia is a congenital eye disorder with a variable degree of hypoplasia or absence of iris tissue. It is caused by loss of function of the PAX6 gene and may be an isolated ocular abnormality or part of a syndrome. WAGRO refers to a rare genetic condition leading to Wilms tumor, aniridia, genitourinary anomalies, mental retardation, and obesity and is caused by a deletion of the short arm of chromosome 11 (11p), where the PAX6 gene is located. Here, we report on an 8-year-old boy with aniridia, polar cataract, and lens subluxation along with neuropsychomotor and speech delays. Karyotype evaluation showed an interstitial deletion including region 11p13-p14, confirming the diagnosis of WAGRO syndrome. In cases of aniridia, a diagnosis of WAGRO syndrome should be considered.

RESUMO A aniridia é uma doença ocular congênita com grau variável de hipoplasia ou ausência do tecido da íris. É causada pela perda de função do gene PAX6 e pode ser uma anormalidade ocular isolada ou parte de uma síndrome. WAGRO refere-se a uma condição genética rara que leva ao tumor de Wilms, aniridia, anomalias geniturinárias, déficit intelectual e obesidade e é causada por uma deleção do braço curto do cromossomo 11 (11p), onde o gene PAX6 está localizado. Aqui, nós relatamos um menino de 8 anos de idade com aniridia, catarata polar e subluxação do cristalino, além de retardo neuropsicomotor e de fala. A avaliação cariotípica revelou uma deleção intersticial envolvendo a região 11p13-p14, confirmando o diagnóstico da síndrome WAGRO. Em casos de aniridia, um diagnóstico de síndrome de WAGRO deve ser considerado.

Wilms tumor, aniridia, genitourinary anomalies, and mental retardation syndrome with deletion of chromosome 11p14.3p12

WAGR (Wilms tumor, aniridia, genitourinary anomalies, and mental retardation) syndrome is a rare contiguous gene deletion syndrome caused by deleting genes including WT1 and PAX6 genes in 11p13 region, which is characterized by Wilms tumor, aniridia, genitourinary abnormalities, and intellectual disability. We report the clinical and cytogenetic characteristics of one Korean patient with WAGR syndrome. The patient shows bilateral sporadic aniridia and genital anomalies at 2 months of age. A heterozygous 14.5 Mb interstitial deletion of 11p14.3p12 region was detected by array comparative genomic hybridization. At 2 years and 10 months of age, Wilms tumor is found through regularly abdominal ultrasonography and treated by chemotherapy, radiation therapy and surgery.

A nonsense PAX6 mutation in a family with congenital aniridia / 소아과

Congenital aniridia is a rare ocular malformation that presents with severe hypoplasia of the iris and various ocular manifestations. Most cases of congenital aniridia are known to be related to mutations in the paired box gene-6 (PAX6), which is an essential gene in eye development. Herein, we report a familial case of autosomal dominant congenital aniridia with four affected members in 3 consecutive generations and describe the detailed ophthalmologic findings for one of these members. As expected, mutational analysis revealed a nonsense mutation (p.Ser122*) in the PAX6 gene. Thus, our findings reiterate the importance of PAX6 mutations in congenital aniridia.

El tumor de Wilms. Un paradigma de heterogeneidad genética: a paradigm of genetic heterogeneity / Wilm's toumor

El Tumor de Wilms constituye el más frecuente de los cánceres renales pediátricos, aparece antes de los 5 años de edad y con igual frecuencia en ambos sexos. El gen causante de la enfermedad está localizado en 11p13, se extiende unas 50 kb con 10 exones y sus alteraciones pueden ser tanto genéticas como epigenéticas. Por diferentes mecanismos se originan al menos 24 productos con funciones diversas. Existen otras regiones cromosómicas, cuyas alteraciones pueden dar lugar a la aparición del tumor. En este sentido, el Tumor de Wilms es un ejemplo sobresaliente de heterogeneidad genética. El presente trabajo hace un análisis de los fundamentos moleculares de la enfermedad y presenta a modo de ilustración una breve reseña de los principales síndromes hereditarios con predisposición a presentar este tumor.

Wilm's tumor is the most frequent cancer of the kidney in childhood with onset before five year old. WT gene was mapped in 11p13 and span 50 kb with 10 exons. WT modifications would be either genetics or epigenetics. The gene code for at least 24 isoforms of protein products. Other chromosomes loci whose alterations may be cause of disease have been identified, so Wilm's tumor is a remarkable paradigm of genetic heterogeneity. In this paper an analysis of the molecular basis of the disease is presented and, also, a brief references on main hereditary syndromes which include Wilm's tumor.

Clinical and genetic findings of five patients with WT1-related disorders / Achados clínicos e genéticos de cinco pacientes com anomalias relacionadas ao gene WT1

AIM: To present phenotypic variability of WT1-related disorders. METHODS: Description of clinical and genetic features of five 46,XY patients with WT1 anomalies. RESULTS: Patient 1: newborn with genital ambiguity; he developed Wilms tumor (WT) and chronic renal disease and died at the age of 10 months; the heterozygous 1186G>A mutation compatible with Denys-Drash syndrome was detected in this child. Patients 2 and 3: adolescents with chronic renal disease, primary amenorrhea and hypergonadotrophic hypogonadism; patient 2 had a gonadoblastoma. The heterozygous IVS9+4, C>T mutation, compatible with Frasier syndrome was detected. Patient 4: 9-year-old boy with aniridia, genital ambiguity, dysmorphisms and mental deficiency; a heterozygous 11p deletion, compatible with WAGR syndrome was detected. Patient 5: 2 months old, same diagnosis of patient 4; he developed WT at the age of 8 months. CONCLUSIONS: Constitutional abnormalities of WT1 cause gonadal and renal anomalies and predisposition to neoplasia and must be investigated in patients with ambiguous genitalia, chronic renal disease and(or) Wilms tumors; primary amenorrhea with chronic renal disease; and aniridia, genital ambiguity and dysmorphisms.

OBJETIVO: Descrever a variabilidade fenotípica das anomalias relacionadas ao WT1. MÉTODOS: Descrição das características clínicas e genéticas de cinco pacientes 46,XY com anomalias no WT1. RESULTADOS: Paciente 1: Recém-nascido com ambigüidade genital desenvolveu tumor de Wilms (TW) e insuficiência renal crônica (IRC), com óbito aos 10 meses. Detectada a mutação 1186G>A em heterozigose, compatível com síndrome de Denys-Drash. Pacientes 2 e 3: Adolescentes com IRC, amenorréia primária e hipogonadismo hipergonadotrófico; a paciente 2 apresentava gonadoblastoma. Ambas apresentavam mutação IVS9+4, C>T em heterozigose, característica da síndrome de Frasier. Paciente 4: Idade 9 anos, aniridia, ambigüidade genital, dismorfismos e deficiência mental; deleção 11p, compatível com síndrome WAGR foi encontrada em heterozigose. Paciente 5: Dois meses, mesmo diagnóstico do paciente 4, desenvolveu TW aos 8 meses. CONCLUSÕES: Alterações constitucionais do WT1 determinam anomalias gonadais, renais e predisposição a neoplasias; devem ser pesquisadas em casos de ambigüidade genital associada a IRC e(ou) TW; de amenorréia primária com IRC; e aniridia, ambigüidade genital e dismorfismos.

Wilms' tumor, aniridia, genitourinary anomalies, and mental retardation (WAGR) syndrome: Successful treatment of the first case with bilateral Wilms' tumors in Korea / 소아과

Wilms' tumor, aniridia, genitourinary anomalies, and mental retardation (WAGR) syndrome is caused by deletion of chromosome 11p13, including the Wilms' tumor (WT1) and aniridia gene (PAX6) loci. Here, we report the first case of WAGR syndrome in Korea; the patient was a 2-year-old girl with bilateral aniridia from birth who presented with abdominal distention and mental retardation. Cytogenetically, she had deletion of chromosome 11p11.2-13. Bilateral Wilms' tumors were successfully treated by chemotherapy and surgery. She has been tumor-free for 19 months off chemotherapy with preserved renal function.