RÉSUMÉ
Resumen INTRODUCCIÓN: La disgenesia gonadal completa 46,XY (síndrome de Swyer) es una alteración del desarrollo sexual caracterizada por fenotipo femenino, amenorrea primaria, útero normal o rudimentario, estrías gonadales y cariotipo con expresión 46,XY. CASO CLÍNICO: Paciente de 14 años, con amenorrea primaria e hipogonadismo en estudio. En la exploración física se encontraron: glándulas mamarías con Tanner 1, vello axilar y púbico Tanner 1, genitales externos de apariencia femenina, sin desarrollo secundario; labios mayores lisos, sin rugosidades ni aumento de la pigmentación y labios menores pequeños, no visibles. La histeroscopia reportó: himen íntegro y vagina normal; cuello uterino pequeño, con canal endocervical normal, sin comunicación a la cavidad del útero. El cariotipo de sangre periférica fue 46,XY. CONCLUSIÓN: La disgenesia gonadal completa 46,XY es una alteración que debe considerarse en las pacientes con amenorrea primaria y ausencia de caracteres sexuales secundarios. La valoración mediante un equipo multidisciplinario permitirá establecer el diagnóstico y tratamiento adecuados para este tipo de padecimiento.
Abstract INTRODUCTION: 46, XY Complete Gonadal Dysgenesis (46, XY DGC), or Swyer Syndrome, is an alteration of sexual development, characterized by a female phenotype; primary amenorrhea; normal or rudimentary uterus; Gonadal striae and 46, XY karyotype. CASE REPORT: A 14-year-old patient comes for a referral to a second-level care center; due to primary amenorrhea and hypogonadism under study. On physical examination: Tanner 1 breasts; Tanner 1 axillary and pubic hair; female apparent external genitalia without secondary development, smooth labia majora, without roughness, without increased pigmentation; with small non-visible labia minora; hysteroscopy that reported: presence of complete hymen, normal vagina; Small cervix, with normal endocervical canal, without passing into the cavity of the uterus. Peripheral blood karyotype: 46, XY. CONCLUSION: 46, XY complete gonadal dysgenesis is a clinical entity that should be considered in all patients with primary amenorrhea and absence of secondary sexual characteristics. The multidisciplinary assessment will allow to establish the appropriate diagnosis and treatment for this type of disease.
RÉSUMÉ
A síndrome de Turner decorre de uma anomalia dos cromossomos sexuais, afetando cerca de 1:2.500 nascidos vivos. A síndrome caracteriza-se principalmente por atraso do e denvolvimento dos caracteres sexuais e/ou amenorreia e baixa estatura. Entretanto, uma diversidade de estigmas também pode estar presente. O diagnóstico pode ser realizado com base nos estigmas da síndrome associados a um quadro de hipogonadismo hipergonadotrófico e confirmado por meio do cariótipo sendo esse classicamente 45,X (monossomia do cromossomo X). Entretanto, os mosaicos (45,X/46,XY ou 45,X/46,XX) podem representar 34% a 75% dos casos, dependendo do método de análise utilizado. Trata-se de uma condição rara correspondendo a 5% das disgenesia gonadais e apresenta um amplo espectro fenotípico. A importância da identificação de mosaicos, especialmente a presença do cromossomo Y, reside no manejo adequado da gônada disgenética para a prevenção da ocorrência de tumor gonadal, principalmente o gonadoblastoma, com considerável potencial maligno.(AU)
Turner's syndrome results from a sex chromosomes anomaly, affecting about 1:2,500 live births. The syndrome is characterized mainly by delayed development of sexual characteristics and/or amenorrhea and short stature. However, a variety of stigmas may also be presented. The diagnosis can be made based on the stigmas of the syndrome associated with a hypergonadotrophic hypogonadism and confirmed by the karyotype this being classically 45, X (monosomy of the X chromosome). However, mosaics (45,X/46,XY or 45,X/46, XX) may represent 34% to 75% of cases depending on the method of analysis used. It is a rare condition, corresponding to 5% of gonadal dysgenesis and presents a broad phenotypic spectrum. The importance of mosaic identification, especially the presence of the Y chromosome, lies in the proper management of the dysgenetic gonad for the prevention of the occurrence of gonadal tumor, especially gonadoblastoma, with considerable malignant potential.(AU)
Sujet(s)
Humains , Femelle , Adolescent , Tumeurs de l'ovaire , Syndrome de Turner , Gonadoblastome/traitement médicamenteux , Gonadoblastome/imagerie diagnostique , Oestrogénothérapie substitutive , Chromosomes Y humains , Diagnostic , Aménorrhée , Dysgénésie gonadique , MosaïcismeRÉSUMÉ
This review describes the germ cell neoplasms that are malignant and most commonly associated with several types of gonadal dysgenesis. The most common neoplasm is gonadoblastoma, while others including dysgerminomas, yolk-sac tumors and teratomas are rare but can occur. The purpose of this review is to evaluate the incidences of these abnormalities and the circumstances surrounding these specific tumors. According to well-established methods, a PubMed systematic review was performed, to obtain relevant studies published in English and select those with the highest-quality data. Initially, the first search was performed using gonadal dysgenesis as the search term, resulting in 12,887 PubMed papers, published, from 1945 to 2017. A second search using ovarian germ cell tumors as the search term resulted in 10,473 papers, published from 1960 to 2017. Another search was performed in Medline, using germ cell neoplasia as the search term, and this search resulted in 7,560 papers that were published between 2003 to 2016, with 245 new papers assessing gonadoblastomas. The higher incidence of germ cell tumors in gonadal dysgenesis is associated with a chromosomal anomaly that leads to the absence of germ cells in these gonads and, consequently, a higher incidence of neoplasms when these tumors are located inside the abdomen. Several hypotheses suggest that increased incidence of germ cell tumors involves all or part of the Y chromosome or different genes.
Sujet(s)
Humains , Mâle , Femelle , Tumeurs embryonnaires et germinales/classification , Dysgénésie gonadique/génétique , Incidence , Facteurs de risque , Tumeurs embryonnaires et germinales/génétiqueRÉSUMÉ
Gonadoblastomas (GBYs) are rare gonadal tumors almost always arising from a dysgenetic gonad with a Y chromosome. Very rarely, GBYs appear in otherwise normal women with a history of pregnancy. The typical histological appearance of GBY can be altered by extensive deposition of basement membrane material, calcification, or overgrowth by a malignant tumor. Less than 10 cases have been reported with normal 46XX karyotype. Only six cases of GBY have been described in pregnant women. We present a unique case of GBY with dysgerminoma in a genotypically and phenotypically normal woman with a history of normal pregnancy, absence of virilization, and characteristic immunohistomorphological features.
RÉSUMÉ
Introducción: El síndrome de Turner es una disgenesia gonadal. Frecuencia: 1/2500 nacidas vivas. El patrón genético es, 45,XO (mayoría). El diagnóstico es tardío por la variedad del fenotipo. Objetivo: Conocer las manifestaciones clínicas y de laboratorio, en niñas con diagnostico de síndrome de Turner, en la consulta de Endocrinología Infantil del Hospital Universitario Dr. Ángel Larralde, 2009- 2014. Métodos: Estudio descriptivo, no experimental, de corte transversal. Resultados: De 6 niñas con diagnostico de Síndrome de Turner, 3 fueron escolares, 2 adolescentes y 1 preescolar. Entre los cariotipos involucrados: 45,XO (33%), isocromas X (33%), 45,X/46,XX (17%) y 45,X/46,XY (17%). Único motivo de consulta fue talla baja. Todas presentaron cuello corto, micrognatia y tronco ancho. Frecuencia de malformaciones: 4 niñas presentaron cardiopatías congénitas y 2 malformaciones renales. Un caso de gonadoblastoma asociado a 45,X/46,XY. Conclusión: El retardo en el diagnóstico es un factor que eleva la morbi-mortalidad. El tratamiento debe ser multidisciplinario.
Introduction: Turner syndrome is a gonadal dysgenesis. Frequency: 1/2500 live female births. The genetic pattern is 45,XO. Late diagnosis is probably due to the variety of the phenotype. Objective: To describe the clinical presentation and laboratory findings in girls referred to the endocrinology outpatient clinic of the Hospital Dr. Ángel Larralde, 2009-2014. Methods: Descriptive, non experimental and cross-section study. Results: 6 girls had the cytogenetic diagnosis. 3 were school children, 2 teens and 1 preschool. The karyotypes were: 45,XO (33%), isocromes (33%) 45,X/46,XX (17%) and 45,X/46,XY (17%). Short stature was the reason for consultation in all cases. Clinical findings: short neck, micrognathia and wide trunk (100%); malformations: cardiac (67%), renal (34%). One of the girls presented a gonadoblastoma with karyoype 45,X/46,XY Conclusion: Delay in diagnosis is a factor that raises morbi-mortality. Treatment should be multi-disciplinary.
RÉSUMÉ
To assess the prevalence of Y-chromosome sequences and gonadoblastoma in patients with Turner syndrome (TS) using molecular techniques. Data source: A literature search was performed in Pubmed, limiting the period of time to the years 20052014 and using the descriptors: TS and Y sequences (n=26), and TS and Y-chromosome material (n=27). The inclusion criteria were: articles directly related to the subject and published in English or Portuguese. Articles which did not meet these criteria and review articles were excluded. After applying these criteria, 14 papers were left. Data synthesis: The main results regarding the prevalence of Y-chromosome sequences in TS were: (1) about 60% of the studies were conducted by Brazilian researchers; (2) the prevalence varied from 4.6 to 60%; (3) the most frequently investigated genes were SRY, DYZ3 and TSPY; (4) seven studies used only polymerase chain reaction, while in the remaining seven it was associated with FISH. Nine of the 14 studies reported gonadectomy and gonadoblastoma. The highest prevalence of gonadoblastoma (33%) was found in two studies. In five out of the nine papers evaluated the prevalence of gonadoblastoma was 1025%; in two of them it was zero. Conclusions: According to these data, molecular analysis to detect Y-chromosome sequences in TS patients is indicated, regardless of their karyotype. In patients who test positive for these sequences, gonadoblastoma needs to be investigated.
Apresentar a prevalência de sequências do cromossomo Y por técnicas moleculares e de gonadoblastoma em pacientes com síndrome de Turner. Fontes de dados: Foi feita uma pesquisa bibliográfica no Pubmed, com limite de período entre 2005 e 2014, com os descritores Turner syndrome and Y sequences (n=26) e Turner syndrome and Y chromosome material (n=27). Os critérios de inclusão foram artigos que tivessem relação direta com o tema e publicados no idioma inglês ou português. Foram excluídos aqueles que não cumpriram esses critérios e eram do tipo revisão. Após aplicação desses critérios, 14 foram selecionados. Síntese dos dados: Os principais resultados quanto à prevalência de sequências do cromossomo Y em síndrome de Turner foram: 1 cerca de 60% dos estudos foram feitos por pesquisadores brasileiros; 2 a frequência variou de 4,6 a 60%; 3 os genes SRY, DYZ3 e TSPY foram os mais investigados; 4 a técnica de PCR foi empregada exclusivamente em sete estudos e nos sete restantes, associada à FISH. Nove dos 14 estudos apresentaram informações sobre gonadectomia e gonadoblastoma. Dois estudos relataram a maior prevalência para gonadoblastoma (33%). Cinco dos nove estudos referiram prevalência de 10 a 25% e em dois esse valor foi nulo. Conclusões: De acordo com os dados apresentados, é indicada a pesquisa molecular para sequências do cromossomo Y em pacientes com ST, independentemente do cariótipo. Naquelas com positividade para essas sequências, é necessária a investigação de gonadoblastoma.
Sujet(s)
Humains , Chromosome Y , Gonadoblastome , Prévalence , Réaction de polymérisation en chaîne , Syndrome de TurnerRÉSUMÉ
PURPOSE: Testicular microlithiasis (TM) is a relatively rare clinical entity of controversial significance characterized by the existence of hydroxyapatite microliths located in the seminiferous tubules. The aim of this study was to observe the natural course of changes in the calcific density of pediatric TM. MATERIALS AND METHODS: We included a total of 23 TM patients undergoing scrotal ultrasound (US) on at least two occasions from July 1997 to August 2014. We retrospectively analyzed the patient characteristics, clinical manifestations, specific pathological features, and clinical outcomes. We measured the calcified area and compared the calcific density between the initial and final USs. RESULTS: The mean age at diagnosis was 11.3+/-4.6 years, and the follow-up period was 79.1+/-38.8 months (range, 25.4-152.9 months). During the follow-up period, no patients developed testicular cancer. Calcific density on US was increased in the last versus the initial US, but not to a statistically significant degree (3.74%+/-6.0% vs. 3.06%+/-4.38%, respectively, p=0.147). When we defined groups with increased and decreased calcification, we found that diffuse TM was categorized into the increased group to a greater degree than focal TM (10/20 vs. 4/23, respectively, p=0.049). In addition, five of eight cases of cryptorchidism (including two cases of bilateral cryptorchidism) were categorized in the increased calcification group. CONCLUSIONS: Diffuse TM and cryptorchidism tend to increase calcific density. Close observation is therefore recommended for cases of TM combined with cryptorchidism and cases of diffuse TM.
Sujet(s)
Adolescent , Enfant , Humains , Mâle , Calcification physiologique , Calculs/complications , Cryptorchidie/diagnostic , Densitométrie/méthodes , Études de suivi , Gonadoblastome/diagnostic , République de Corée , Scrotum/imagerie diagnostique , Canalicules séminifères/anatomopathologie , Maladies testiculaires/complications , Tumeurs du testicule/diagnosticRÉSUMÉ
La disgenesia gonadal pura o síndrome de Swyer es un trastorno genético de los cromosomas sexuales caracterizado por ser pacientes de fenotipo femenino pero con genotipo XY, ausencia de tejido gonadal funcionalque impide la formación de la hormona antimülleriana y formación normal de estructuras derivadas delconducto de Müller. Esto puede darse por mutaciones de diferentes genes como el SRY del cromosoma Y,importante en el proceso de determinación sexual o como el SOX-9 y el WT-1, claves en la producción deproteínas que intervienen en el mismo proceso. Cursa con gónadas acintadas, estructuras ambiguas que predisponen a neoplasias como disgerminomas y gonadoblastomas. Se recomienda gonadectomía bilateralcomo se muestra en una paciente de 16 años con fenotipo femenino y genotipo 46XY...
Pure gonad dysgenesis or Swyer syndrome is a genetic sex chromosome disorder characterized by a person with femalephenotype and XY karyotype, absence of functional gonadal tissue with no production of anti-Müllerian hormoneand normal formation of Müllerian duct derivatives. It may result from mutation of various genes such as the SRY gene of the Y chromosome, having an important role in the process of sex determination, or the sox-9 and the WT-1 genes, key in the production of proteins intervening in the same process. It manifests with streak gonads, ambiguousstructures which increase the risk of tumors such as dysgerminoma and gonadoblastoma. Bilateral gonadectomy isadvised, as reported in a 16 year-old patient having a female phenotype and 46XY karyotype...
Sujet(s)
Humains , Femelle , Adolescent , Gonadoblastome , Tumeurs embryonnaires et germinales , Dysgénésie gonadiqueRÉSUMÉ
En esta revisión, se muestra que la existencia de secuencias del cromosoma Y en las mujeres con síndrome de Turner es un factor de riesgo para el desarrollo de gonadoblastoma, sobre todo si está presente en el cariotipo de las pacientes en forma de mosaico y/o como secuencias del Y ocultas. En la literatura, se han encontrado en los estudios epidemiológicos de cáncer, resultados controversiales en los casos que presentan gonadoblastoma u otros tumores malignos de ovario, en el síndrome de Turner. Algunas mujeres tienen Y pero no desarrollan tumores gonadales. En una población argentina de 282 mujeres con síndrome de Turner se evaluó la presencia de material del cromosoma Y en mosaico por PCR y en 8 de estos pacientes (2,83 %) con secuencias del Y, se halló gonadoblastoma luego de extirpar la gónada. En la literatura, la frecuencia de material "escondido" de cromosoma Y (en mosaico) es alta en el síndrome de Turner, pero la aparición de gonadoblastoma entre los pacientes con estas secuencias parece ser baja. Las secuencias del gen SRY solo pueden estudiarse como un marcador de mosaicismo, en pacientes con síndrome de Turner, porque el locus para gonadoblastoma/disgerminoma, probablemente se encuentra cerca del centrómero del Y lejos de SRY. Publicaciones recientes, sugieren que la evaluación del riesgo real de desarrollo de tumores gonadales en pacientes con ST con secuencias derivadas del Y, en su constitución cromosómica puede requerir un estudio histopatológico específico, tal como la inmunohistoquímica con OCT4. Por lo tanto, es evidente que la exéresis de las gónadas sigue siendo una herramienta importante para la prevención en pacientes con síndrome de Turner, con sospecha de cromosoma Y ¨escondido¨ o en mosaico, hasta que sea posible aislar los genes implicados en el gonadoblastoma. La autora declara no poseer conflictos de interés.
In this review, we show that the existence of Y chromosome sequences in women with Turner syndrome is a risk factor for the development of gonadoblastoma, especially if it is present in the karyotype of patients in mosaic and / or as hidden sequences. In the literature, controversial results have been found in epidemiological studies of cancer, in cases with gonadoblastoma or other ovarian malignancies in Turner syndrome. In addition, some women have Y sequences in mosaicism but do not develop gonadal tumors. A population of 282 Argentinean patients with Turner syndrome was evaluated for the presence of hidden Y chromosome material (mosaicism) by PCR and in 8 of these patients (2.83 %) with Y chromosome sequences, gonadoblastoma was found after removal of the gonad. In the literature, hidden Y chromosome material (mosaics) is often high in Turner syndrome, but the appearance of gonadoblastoma among patients with these sequences appears to be low. It is important to note that SRY gene sequences could only be studied as a marker of mosaicism in patients with Turner syndrome, because the locus for gonadoblastoma / dysgerminoma, probably is near the centromere far away from SRY gene. Recent publications suggest that the actual risk assessment of gonadal tumor development in patients with TS with Y-derived sequences in their chromosome constitution may require a specific histopathology, such as OCT4 immunohistochemistry. Therefore, it is clear that the removal of the gonads is still an important tool for prevention in patients with Turner syndrome, when Y chromosome sequences are found. No financial conflicts of interest exist.
RÉSUMÉ
Conceitualmente, as gônadas disgenéticas são gônadas que não sofreram uma completa diferenciação. Em vista disso, constituem parte de uma ampla gama de entidades clínicas possuidoras de fenótipos e de genótipos diversos. Seus cariótipos contêm o cromossomo Y ou seus fragmentos, ou raramente não os contêm. Essas alterações geram maior risco para a ocorrência de neoplasias nessas gônadas. Na sequência deste estudo apresentamos as neoplasias mais comumente associadas aos diversos tipos de disgenesias gonadais. A neoplasia mais comum é o gonadoblastoma e outros como os disgerminomas e os tumores do seio endodérmico também podem estar associados. A detecção dessas anormalidades de modo precoce é o que nos motivou para a presente revisão
By definition, dysgenetic gonads are those that did not undergo a complete differentiation. They make up a vast array of clinical entities, having different phenotypes and genotypes. Their kariotypes contain the Y chromosome or fragments of it, and, in rare cases, do not contain it. Such alterations generate greater potential for the occurrence of neoplasms in such gonads. This study presents neoplasms which are most commonly associated with several types of gonadal dysgenesis. The most common neoplasia is gonadoblastoma and others like disgerminoma or yolk sac tumors may be associated. The early detection of such potential is the reason for this review
Sujet(s)
Humains , Mâle , Femelle , Cellules germinales/anatomopathologie , Dysgénésie gonadique/complications , Dysgerminome/étiologie , Gonadoblastome/étiologie , Tumeur du sac vitellin/étiologie , Dysgénésie gonadique mixte , Gonades/malformations , Syndrome de TurnerRÉSUMÉ
Gonodoblastomas with ovarian germ cell tumors other than dysgerminoma coexists very rarely with yolk sac tumor (YST). Because of this rarity, we report a case of gonadoblastoma with YST. An 18-year-old female patient was admitted to our hospital with an abdomino-pelvic mass. Ultrasonographical examinations revealed a 15X14 cm heterogenous pelvic mass with calcific foci in the left adnexal area. Macroscopically, the resected mass was oval and measured 18X15X15 cm and weighed 3150 gm. Histological examination showed both gonadoblastic and YST areas. There were many gonadoblastic nests in the subcapsular areas of the tumor. The gonadoblastic nests were composed of large and small cells. The YST areas showed enteric differentiation and numerous hyaline globules. Immunohistochemical examination may help in the diagnosis of these gonadoblastoma with YST.
RÉSUMÉ
CONTEXT: 45,X/46,Xidic(Y) mosaicism demands careful and thorough study because of both its variable clinical features and its potential complications. CASE REPORT: The present case relates to a three-year-old girl with the mosaic karyotype 46,X,idic(Y)(q11.2)[23]/45,X[6]. She had no signs of virilization or Turner's syndrome phenotype, but she was referred to our hospital because she presented reduced growth rate, abnormal facies and a melanotic nevus. After examination, she underwent prophylactic gonadectomy because of the risk of gonadoblastoma. Cytogenetic analysis on the streak gonads and blood showed significant differences in the 45,X cell line between these two tissues. The presence of the sex-determining region Y (SRY) gene did not determine male differentiation, which meant in the present case that the predominance of the X cell line in the gonadal tissue was probably due to the determining factor for female sexual differentiation.
CONTEXTO: O mosaicismo 45,X/46,Xidic(Y) é uma anomalia genética que exige um estudo minucioso pelas suas variadas formas clínicas e suas potenciais complicações. RELATO DE CASO: O presente caso clínico refere-se a uma menina de três anos de idade com cariótipo de linfócitos 46,Xidic(Y)(q11.2)[23]/45,X[6], sem sinais de virilização ou estigmas Turner à excepção de má evolução estaturo-ponderal, fácies peculiar e nevo melânico. Estudada, foi submetida a gonadectomia profiláctica por risco de gonadoblastoma. As bandas gonádicas e sangue periférico foram analisados com evidência de uma diferença acentuada no predomínio de linhagem 45,X nos dois tecidos. A presença do gene SRY não se mostrou determinante no sentido da diferenciação masculina pelo que, neste caso, o predomínio da linhagem X no tecido gonadal parece ter sido o fator determinante no sentido da diferenciação sexual feminina.
Sujet(s)
Enfant d'âge préscolaire , Femelle , Humains , Mosaïcisme , Syndrome de Turner/génétique , Gonadoblastome/génétique , Hybridation fluorescente in situ , Rein/malformations , Tumeurs de l'ovaire/génétique , Phénotype , Syndrome de Turner/diagnosticRÉSUMÉ
Ovarian failure is a typical feature of Turner syndrome (TS). Patients are followed clinically with hormone replacement therapy (HRT) and inclusion in the oocyte donation program, if necessary. For patients with spontaneous puberty, genetic counseling regarding preimplantation genetic diagnosis and prenatal diagnosis is indicated. Patients with dysgenetic gonads and a Y chromosome are at increased risk of developing gonadoblastoma. Even though this is not an invasive tumor, its frequent association with other malignant forms justifies prophylactic gonadectomy. It is important to perform gonadectomy before HRT and pregnancy with oocyte donation. Among patients with TS stigmata and female genitalia, many have the Y chromosome in one of the cell lines. For this reason, all patients should undergo cytogenetic analysis. Nevertheless, in cases of structural chromosomal alterations or hidden mosaicism, the conventional cytogenetic techniques may be ineffective and molecular investigation is indicated. The author proposes a practical approach for investigating women with TS stigmata in whom identification of the X or Y chromosome is important for clinical management and follow-up.
A falência ovariana é um achado típico da síndrome de Turner (ST). As pacientes podem ser submetidas à terapia de reposição hormonal (TRH) e incluídas em programas de doação de oócito, quando necessário. Para as pacientes com puberdade espontânea, está indicado o aconselhamento genético para a futura descendência abordando os diagnósticos genéticos pré-natal e pré-implantação. Pacientes com gônadas disgenéticas e cromossomo Y apresentam risco aumentado para desenvolvimento de gonadoblastoma. Embora esse tumor não seja invasivo, sua associação freqüente com tumores malignos justificaria a gonadectomia profilática. Entre as pacientes com estigmas da ST e genitália feminina, muitas apresentam cromossomo Y em pelo menos uma linhagem celular. Por essa razão, todas as pacientes devem ser submetidas à análise citogenética, para a realização de cirurgia antes do início da TRH e da gravidez com doação de oócito. No entanto, em casos de alteração cromossômica estrutural ou mosaicismo críptico, as técnicas citogenéticas convencionais podem não ser efetivas, estando indicada a investigação molecular. Uma abordagem prática para o médico investigar as pacientes com ST é proposta neste artigo, devido à importância da identificação do cromossomo Y ou de um segundo cromossomo X para o manejo clínico e o acompanhamento das pacientes.
Sujet(s)
Humains , Mâle , Femelle , Grossesse , Conseil génétique , Don d'ovocytes , Syndrome de Turner/thérapie , Dépistage génétique , Zébrage chromosomique , Chromosomes X humains/génétique , Chromosomes Y humains/génétique , Système génital de la femme/malformations , Gonadoblastome/étiologie , Hormonothérapie substitutive , Caryotypage , Mosaïcisme , Tumeurs de l'ovaire/étiologie , Facteurs de risque , Syndrome de Turner/complications , Syndrome de Turner/génétique , Syndrome de Turner/chirurgieRÉSUMÉ
BACKGROUND: It is known that the Y chromosome or Y-specific sequence is present in about 6% of Turner syndrome (TS) patients and that it predisposes them to gonadoblastoma formation with an estimated risk of 15-25%. In this study, we performed a polymerase chain reaction (PCR) in 32 patients with TS to detect Y-specific sequence. The results were compared with those obtained by the fluorescence in situ hybridaization (FISH) method. METHODS: Cytogenetic analysis was performed by phytohaemagglutinin (PHA)-stimulated peripheral lymphocyte cultures, using G-banding. DNA was extracted from peripheral blood for PCR. Seven different sets of oligonucleotide primers, sex determining region Y (SRY), zinc finger gene on the Y chromosome (ZFY), testis specific protein Y (TSPY), DYZ3, DYF49S1, RNA binding motif protein (RBM), and DYZ1, spanning on centromeres and short and long arms of the Y chromosome were used for PCR. FISH was carried out using X and Y chromosome enumeration probe for Xp11.1-q11.1 (DXZ1 locus) and Yp11.1-q11.1 (DYZ3 locus), respectively. RESULTS: Among 32 patients with TS, four (12.5%) were positive for Y specific sequence by PCR. Of these, two patients were detected previously by a cytogenetic analysis: 45,X/47,XYY and 45,X/46,XY. Only one Y specific sequence, DYZ3, was detected by PCR in the other two patients without cytogenetically obvious Y chromosome. Y signal was not detected by FISH for the last two patients. CONCLUSIONS: It may be reasonable to consider using a PCR method to screen for Y-specific sequences in all patients with TS. Even though we did not demonstrate Y-signal by FISH in patients with PCR positive and cytogenetically no obvious Y chromosome, FISH may be another useful method in TS patient, and futher investigation is nessessary.
Sujet(s)
Humains , Bras , Centromère , Analyse cytogénétique , ADN , Amorces ADN , Fluorescence , Gonadoblastome , Lymphocytes , Réaction de polymérisation en chaîne , ARN , Testicule , Syndrome de Turner , Chromosome Y , Doigts de zincRÉSUMÉ
45X/47XYY mosaicism is a very rare sex chromosomal disorder with limited clinical information. We experienced an unusual mosaic syndrome in a 16-year old woman with a phenotypic female, short stature, and immature secondary sexual characteristics. We performed both gonadectomy and found a gonadoblastoma in one gonad and dysgerminoma in another gonad.
Sujet(s)
Adolescent , Femelle , Humains , Maladies chromosomiques , Dysgerminome , Gonadoblastome , Gonades , MosaïcismeRÉSUMÉ
Gonadoblastoma is a neoplasm containing an intimate mixture of germ cells and elements resembling immature granulosa or Sertoli cells. It has been considered as in situ germ cell malignancy that can be overgrown by more malignant germ cell neoplasms. The tumor has been reported to almost exclusively develop in various types of gonadal maldevelopment syndromes containing the Y chromosome, such as in pure or mixed gonadal dysgenesis and, less commonly, in male hermaphroditism. However, occurrences in phenotypically and chromosomally normal, menstruating women are exceptionally rare. We report two cases of gonadoblastoma overgrown by dysgerminoma occurring in the ovaries of phenotypically and cytogenetically normal menstruating women. One of the two cases showed an area composed of granulosa cell tumor-like elements. This type of combination has been very rarely described, and exemplified that gonadoblastoma may progress to sex cord-stromal tumors as well as to the malignant germ cell tumors.
Sujet(s)
Femelle , Humains , Mâle , Troubles du développement sexuel , Dysgerminome , Cellules germinales , Dysgénésie gonadique mixte , Gonadoblastome , Gonades , Cellules de la granulosa , Caryotype , Tumeurs embryonnaires et germinales , Ovaire , Cellules de Sertoli , Tumeurs des cordons sexuels et du stroma gonadique , Chromosome YRÉSUMÉ
Gonadoblastoma occurs almost always in association with a Y chromosome cell line, and developes in one third of patients with Mixed gonadal dysgenesis. Removing of gonads of intersex patients with the Y chromosome is very important because of the strong association of the genesis of tumor in dysgenetic gonads with the presence of a Y chromosome. But it is always possible that an XY cell line could be missed, or that a fragment from Y chromosome could have been translocated and not discovered by chromosomal analysis. PCR with Y specific probe or Southern blotting would reveal the presence of a Y or a translocated fragment. We experienced an 18-year-old woman represent with primary amenorrhea who had 45,X/46,X,+mar. Y-specific PCR revealed that the marker chromosome was drived from Y chromosome. After both gonadectomy and clitorial recession, we found the gonadoblastoma in dysgenetic testis. So we report it with brief review of literatures.
Sujet(s)
Adolescent , Femelle , Humains , Aménorrhée , Technique de Southern , Lignée cellulaire , Dysgénésie gonadique mixte , Gonadoblastome , Gonades , Réaction de polymérisation en chaîne , Testicule , Chromosome YRÉSUMÉ
A case of gonadoblastoma with dysgerminoma and choriocarcinoma in the right ovary of a 23-year-old woman is reported. A case of gonadoblastoma without a Y chromosome is very rare. She had a 46XX chromosomes, normal genitalia, no history of menstrual irregularities, thereby differing from the other reproted case. The patient had a normal term pregnancy 2 years after surgery and chemotherapy. It is suggested that gonadoblastoma may occur in functionally and morphologically normal gonads. There have been no signs of recurrence or metastasis for 3 years after the first operation.
Sujet(s)
Femelle , Humains , Grossesse , Jeune adulte , Choriocarcinome , Traitement médicamenteux , Dysgerminome , Système génital , Gonadoblastome , Gonades , Caryotype , Métastase tumorale , Ovaire , Récidive , Chromosome YRÉSUMÉ
Two hundred and sixty three patients with clinically suspected gonadal dysgenesis were analyzed cytogenetically using banded metaphase chromosomes. There were 61 cases exhibiting karyotypic changes; of these 28 showed 45, X and the rest were largely mosaics. The employment of FISH proved helpful to detect some of the unrecognizable chromosomal changes in selected cases. PCR analysis conducted with eleven sets of primers from the Y chromosome of 36 patients and 35 normal healthy individuals revealed the usefulness of the molecular investigations in conjunction with cytogenetic analysis. In conclusion, the application of molecular techniques to detect low level mosaicism allowed better management of the patients with dysgenesis of the gonads.
RÉSUMÉ
BACKGROUND: In patients with Turner syndrome, it is known that the presence of Y-specific sequence is correlated with the risk of gonadoblastoma development. Y-specific sequence are frequently present in marker chromsome which can not be easily identified by cytogenetic method, because it is very small in size and unstable during mitosis. So, in this study, karyotype of 30 patients with Turner syndrome analyzed by cytogenetic method and the presence of Y-specific sequence was identified by polymerase chain reaction (PCR). METHODS: Cytogenetic analysis was performed by Phytohemaggulutinin (PHA)-stimulated lymphocyte culture and G-banding by Wright stain without trypsin treatment. Four Y-specific sequences were amplified by PCR using specific primer for Sex determination on Y (SRY), Ameglonin like gene (AMGL), Y1.1-1.2 repeat sequence (Y1.1-1.2) and B fragment of DYZ1 (DYZ1-B). DNAs for PCR analysis were extracted from peripheral blood lymphocytes of preserved cell pellets which were harvested for cytogenetic analysis. RESULTS: Cytogenetic analysis revealed various karyotypes in Turner syndrome such as 45,X, 46,X,i(X)(q10), 46,X,del(X) including four cases of 46,X,+mar and three cases of 46,X,+r. It is could not identify Y-chromosome in this 30 patients with Turner syndrome. By PCR, three patients (10%) with Turner syndrome had at least one Y-specific sequence; one case of 45,X karyotype was amplified in SRY; one case of 45,X[9]/46,X,i(X)(q10)[1]/46,XX[10] was amplified in AMGL, Y1.1-1.2; one case of 46,X,i(X)(q10) was amplified in SRY, AMGL and Y1.1-1.2. None of case was amplified in DYZ1-B. CONCLUSIONS: PCR for amplification of Y-specific sequence was thought to be useful in detection of Y-chromosome, which might be helpful in early diagnosis of gonadoblastoma in patients with Turner syndrome.