Adnexal Torsion Due to Borderline Mucinous Tumor of the Gonad in a Prepubertal Girl with Mixed Gonadal Dysgenesis (45,X/46,XY) and a Turner Phenotype

BackgroundTurner syndrome (TS) is a sex chromosome condition characterized by complete or partial loss of the X chromosome. Patients with mixed gonadal dysgenesis (45,X/46,XY) and a Turner phenotype are predisposed to gonadoblastoma with malignant transformation.CaseWe present the case of a TS patient with 45,X/46,XY with 2 episodes of left adnexal torsion (AT). Biopsies during detorsion showed benign mucinous cystadenoma. Pathology following bilateral gonadectomy revealed a left gonad with mucinous borderline tumor and right gonad with gonadoblastoma, both of which have malignant potential.Summary and ConclusionGonadectomy is recommended in XY gonadal dysgenesis to decrease risk of malignant transformation from gonadoblastoma. Although rare in pediatric patients, ovarian malignancies have been identified among AT cases. To our knowledge, we present the first case of AT due to borderline ovarian mucinous tumor of the ovary and contralateral gonadoblastoma in a patient with mixed gonadal dysgenesis (45,X/46,XY) and a Turner phenotype.     

Anomalies de structure du chromosome Y et syndrome de Turner

Although specifically male, the human Y chromosome may be observed in female karyotypes, mostly in women with Turner syndrome stigmata. In women with isolated gonadal dysgenesis but otherwise normal stature, the testis determining factor or SRY gene may have been removed from the Y chromosome or may be mutated. In other women with Turner syndrome, the karyotype is usually abnormal and shows a frequent 45,X/46,XY mosaicism. In these cases, the phenotype depends on the ratio between Y positive and 45,X cell lines in the body. When in mosaicism, Y chromosomes are likely to carry structural abnormalities which explain mitotic instability, such as the existence of two centromeres. Dicentric Y isochromosomes for the short arm (idic[Yp]) or ring Y chromosomes (r[Y]) are the most frequent abnormal Y chromosomes found in infertile patients and in Turner syndrome in mosaic with 45,X cells. Although monocentric, deleted Y chromosomes for the long arm and those carrying microdeletions in the AZF region are also instable and are frequently associated with a 45,X cell line. Management of infertile patients carrying such abnormal Y chromosomes must take into account the risk and the consequences of a mosaicism in the offspring.     

45,XO/46,X,dic(Yq) mosaicism in Turner's phenotype with endodermal sinus tumor of the ovary

A case of a endodermal sinus tumor of the ovary in a patient with 45,XO/46,X,dic(Y) mosaicism is reported because of the rarity of the karyotype and condition. A 15-year-old girl was admitted to Yamagata University Hospital because of constipation for several days. Physical examination showed webbing of the neck, cubitus valgus and short stature. Her abdomen was bulging. Chromosomal analysis showed 45,XO/46,X,dic(Yq) mosaicism in karyotype. alpha-Fetoprotein and CA-125 in the serum were high. A left ovarian tumor was found by laparotomy; however, the right ovary was a streak gonad and the uterus was hypoplastic. An endodermal sinus tumor was diagnosed by a pathologist. After operation, cisplatin-vinblastin-bleomycin chemotherapy was instituted and the tumor marker went down. This patient is still healthy and under observation at the outpatient clinic.     

Prenatal diagnosis of 45,X and 45,X mosaicism: the need for thorough cytogenetic and clinical evaluations

OBJECTIVES: Mosaicism involving a 45,X cell line is relatively common in prenatal diagnosis. In prenatally diagnosed cases, the prognosis of non-mosaic 45,X and 45,X/46,XY mosaicism are different. Therefore, accurate identification of a cell line containing Y chromosome is critical for genetic counseling and postnatal management. METHODS: We investigated the ultrasound findings and outcomes of pregnancies with a 45,X cell line identified during mid-trimester cytogenetic analysis. RESULTS: A total of 105 cases were found to have a 45,X cell line by standard cytogenetic analysis. Seventy-four cases were found to have non-mosaic 45,X at initial diagnosis. Of these 74 cases, 68 had abnormal ultrasound findings that were characteristic of Turner syndrome. Of the six cases with normal ultrasound findings, ultrasound examination was normal with male genitalia identified in three cases. Thorough cytogenetic and fluorescent in situ hybridization (FISH) analysis identified Y chromosome material in all three cases, one with a dicentric Y;14 chromosome and the other two cases with a marker chromosome containing Sex-determining Region (SRY) material in a small portion of the cells. In contrast, in 31 cases with a mosaic 45,X karyotype, ultrasound abnormality was identified only in one case. CONCLUSIONS: The present data suggest the need for follow-up ultrasound examination and thorough cytogenetic and molecular analysis for Y chromosome material in 45,X cases with normal ultrasound findings.     

Turner syndrome in a girl with marker chromosome in karyotype]

OBJECTIVES: There are suggestion, that Turner syndrome (TS) patients with mosaic karyotype for a Y-DNA-containing cell line are at risk of Y-induced gonadoblastoma. The TS patients in whom some or all cells contain a marker chromosome of unknown origin and those in whom there is clitoromegaly or other evident virillisation should be tested by FISH or PCR techniques. DESIGN: The aim of our study to present a TS girl with mosaic karyotype and marker chromosome, which origin from X chromosome was detected by FISH method. MATERIAL AND METHODS: 5-years old girl in whom TS was established. Clinical analysis included the full dysmorphic and clinical phenotype of TS. Chromosome analysis was performed on peripheral blood samples using routine cytogenetic methods and FISH technique. RESULTS: Clinical examination of girl showed many typical signs of TS besides of normal weight and length at birth and not typical for TS patients heart defect. First routine chromosome analysis, at age of 6 month, showed only 45,X cell line, Second study revealed mosaic karyotype with marker chromosome. FISH analysis for interphase nuclei and metaphase chromosomes using X centromere probe explained origin of marker from X chromosome. The karyotype was 45,X[155]/46,X,+mar[8].fish mar(X)(DXZ1+). CONCLUSION: Presence of marker chromosome in karyotype of patient with TS may modify their phenotype and it is a indication for molecular examination by FISH technique.     

Dysgerminoma in a 10-Year Old with 45X/46XY Turner Syndrome Mosaicism

BackgroundTurner syndrome is a genetic disorder resulting from the absence of or structural abnormality of one X chromosome. The presence of Y chromosome material in girls with Turner syndrome confers an increased risk of benign and malignant germ cell tumor and prophylactic bilateral gonadectomy is recommended.CaseA 10-year-old Turner mosaic syndrome (45X/46XY) patient underwent prophylactic gonadectomy after unremarkable preoperative pelvic imaging. Histopathology showed a streak right gonad, and left gonad with gonadoblastoma with limited degree of infiltrating germinoma.Summaryand ConclusionGonadoblastoma and dysgerminoma have been reported in girls with Turner mosaic who carry Y chromosome material. Prophylactic gonadectomy should be considered in these girls without delay.     

Turner综合征患者标记染色体的鉴定与分析

目的 分析11例携带标记染色体的Turner综合征患者的核型,研究这类染色体的表型效应。方法 选择11例具Turner综合征表型的患者,常规核型分析均显示为携带标记染色体的嵌合体,其中6例标记染色体呈环状。患者G带核型表示为mos．45,X／46,X,＋mar或者mos．45,X／46,X,＋r．以X／Y着丝粒探针,应用荧光原位杂交（FISH）技术分析这些标记染色体起源,对其中2例较大的环状染色体,结合反向染色体涂染确定断裂位点,比较不同断裂位点的标记染色体的遗传学效应。结果11例患者所携带的标记染色体均为环状染色体,r（X）的断裂位点分别位于Xp22、Xq22、Xq24、Xq26等。结论 Turner综合征患者的标记染色体主要来源于X染色体,且表现为r（X）形式。r（X）均以嵌合型的形式存在。     

Pure yolk sac tumor of the ovary with mosaic 45X/46X+mar Turner's syndrome with a Y-chromosomal fragment

A pure yolk sac tumor (endodermal sinus tumor) of the dysgenetic gonad developed in a 23-year-old woman whose karyotype was mosaic 45 X/46X+mar Turner's syndrome is reported. Molecular biological studies showed that the patient's DNA contained a fragment of Y chromosome. This case seems to be extremely rare case of developing a pure yolk sac tumor in a patient with mosaic Turner syndrome with a Y-chromosomal fragment. Received: 5 September 1997 / Accepted: 9 December 1997     

Mosaic 45,X/46, XX at amniocentesis with high-level mosaicism for 45,X in a pregnancy with a favorable fetal outcome and postnatal decrease of the 45,X cell line

ObjectiveWe present mosaic 45,X/46, XX at amniocentesis with high-level mosaicism for 45,X in a pregnancy with a favorable fetal outcome and postnatal decrease of the 45,X cell line.Case reportA 20-year-old, primigravid woman underwent amniocentesis at 17 weeks of gestation because of the non-invasive prenatal testing (NIPT) result of −4.82 Z score in sex chromosome at 12 weeks of gestation suggestive of Turner syndrome in the fetus. Amniocentesis revealed a karyotype of 45,X [18]/46,XX [15], and simultaneous multiplex ligation-dependent probe amplification (MLPA) on the DNA extracted from uncultured amniocytes showed mosaic Turner syndrome. Prenatal ultrasound and parental karyotypes were normal. She was referred for genetic counseling at 24 weeks of gestation, and continuing pregnancy was encouraged. At 39 weeks of gestation, a 2550-g phenotypically normal female baby was delivered. The karyotypes of cord blood, umbilical cord and placenta were 45,X [24]/46,XX [16], 45,X [23]/46,XX [17] and 45,X [28]/46,X,del(X) (q23)[12], respectively. When follow-up at age two months, the neonate was phenotypically normal in development. The peripheral blood had a karyotypes of 45,X [16]/46,XX [24]. Interphase fluorescence in situ hybridization (FISH) analysis on 103 buccal mucosal cells showed normal disomy X signals in all cells.ConclusionHigh-level mosaicism for 45,X in 45,X/46, XX at amniocentesis can be associated with a favorable fetal outcome, cytogenetic discrepancy in various tissues, and postnatal decrease of the 45,X cell line.     

High-level mosaicism for 45,X in 45,X/46, XY at amniocentesis in a pregnancy with a favorable fetal outcome and cytogenetic discrepancy in various tissues

ObjectiveWe present prenatal diagnosis of high-level mosaicism for 45,X by amniocentesis in a pregnancy with a favorable fetal outcome.Case reportA 35-year-old, gravida 2, para 1, woman underwent amniocentesis at 17 weeks of gestation because of advanced maternal age. Amniocentesis revealed a karyotype of 45,X[13]/46,XY[11]. Simultaneous array comparative genomic hybridization (aCGH) on uncultured amniocytes revealed the result of Yp11.3q11.21 × 0–1 [0.1], Yq11.21q11.23 × 0–1 [0.6]. At 19 weeks of gestation, she underwent the second amniocentesis which revealed a karyotype of 45,X[13]/46,XY[12], and aCGH and multiplex ligation-dependent probe amplification (MLPA) on uncultured amniocytes showed 37% mosaicism for Y-deleted cells. At 28 weeks of gestation, she underwent the third amniocentesis which revealed a karyotype of 45,X[25]/46,XY[25], and aCGH on uncultured amniocytes revealed the result of Yq11.21q11.23 × 0.5, Yq11.23q12 × 0.7. Interphase fluorescence in situ hybridization (FISH) analysis on uncultured amniocytes revealed that 16.67% (20/120 cells) were Y-deleted cells. The parental karyortypes and prenatal ultrasound were normal. At 37 weeks of gestation, a 2707-g phenotypically normal male baby was delivered with normal male external genitalia. The karyotypes of cord blood, umbilical cord and placenta were 45,X[25]/46,XY[15], 45,X[18]/46,XY[22] and 45,X[25]/46,XY[15], respectively. When follow-up at age five months, the neonate was normal in external genitalia and physical development. The peripheral blood had a karyotype of 45,X[29]/46,XY[11], and FISH analysis on 100 buccal mucosal cells showed no abnormal signals. When follow-up at age 11 months, the neonate was physically normal, and the peripheral blood had a karyotype of 45,X[17]/46,XY[23].ConclusionHigh-level mosaicism for 45,X in 45,X/46, XY at amniocentesis can be associated with a favorable fetal outcome despite the presence of cytogenetic discrepancy in various tissues.     

Normal karyotype in cultured chorionic villus cells, but mosaicism in amniotic and fetal cells.

A case with a normal male karyotype in cultured chorionic villus cells, but 46,XY/45,X/46,X,i(Yq) mosaicism in amniotic and fetal tissue is reported. The fetus was a phenotypic male. Pathological examination revealed discrete features, which might indicate a syndrome, and histological examination showed large, bright cells in the tubules of the testes. Possible explanations for discordance between the karyotype of embryonic and extraembryonic tissue are discussed.     

Complete karyotype discrepancy between placental and fetal cells in a case of ring chromosome 18.

A case of complete karyotype discrepancy between cultured chorionic villi and amniotic in addition to fetal cells is reported. Ring chromosome 18 and monosomy 18 mosaicism was detected after amniocentesis. The pregnancy was terminated in the 23rd gestational week. Cytogenetic analysis of cultured umbilical cord tissue after termination confirmed the finding of ring chromosome 18/monosomy 18 mosaicism. In cultured umbilical blood lymphocytes monosomic cells 45,-18 were not detected and the karyotype was 46,XY,r(18). In contrast, short-term and long-term cultured chorionic villi showed a normal male karyotype of 46,XY. Ultrasonographic examination revealed amniotic band syndrome and scoliosis in the caudal region of the spine.     

Spontaneous menstruation in patients with Turner syndrome in our observations

OBJECTIVES: Patients with Turner syndrome (TS) may present a wide spectrum of gonadal function including spontaneous menstruation and fertility. DESIGN: The aim of our study was to present the patients with Turner syndrome (TS) with spontaneous menstruations considering specific karyotype and X-inactivation processes. MATERIALS AND METHODS: 5 women from group of 55 patients in age from 15 to 38 years with diagnosis of TS and gonadal function were found. Clinical analysis included the evaluation of spontaneous pubertal development and hormones levels. Cytogenetic analysis was performed on peripheral blood samples using GTG banding technique. X inactivation studies were done by dynamic RBG technique. RESULTS: In two patients with mosaic karyotype and predominant 46,XX line two pregnancies were observed. They had regular menses and normal sexual development. In one patient (karyotype: 45,X[2]/46,XX[98]) spontaneous abortions and premature birth were present. Second patient was (46,XX[245]/46,X,r(X)(p22q26)[5]) in pregnancy in this time. Another three patients menstruated irregularly. The menarche appeared later. The karyotypes were: 46,X,del(X)(p11.3) in two patients and 45,X[64]46,X,r(X) (p22q26)[18]/46,XX[4] in one. CONCLUSIONS: We conclude that spontaneous menstruations and possibility of pregnancy depend on specific karyotype in patients with TS.     

Detection of mosaicism for 46,X,i(Y) (q10) in the blood lymphocytes in a phenotypically normal male neonate with prenatally detected 45,X/46, XY at amniocentesis and cytogenetic discrepancy in various tissues

ObjectiveWe present detection of mosaicism for 46,X,i(Y) (q10) in the blood lymphocytes in a phenotypically normal male neonate with prenatally detected 45,X/46, XY at amniocentesis and cytogenetic discrepancy in various tissues.Case reportA 35-year-old, gravida 2, para 1, woman underwent amniocentesis at 17 weeks of gestation because of advanced maternal age. Amniocentesis revealed a karyotype of 45,X [8]/46,XY [15]. Simultaneous array comparative genomic hybridization (aCGH) on uncultured amniocytes revealed the result of arr (Y) × 0–1 with 25.493-Mb mosaic deletion of chromosome Yp11.31-q11.23. Prenatal ultrasound findings were unremarkable. The fetus had normal male external genitalia on fetal ultrasound. Following genetic counseling, the pregnancy was carried to 38 weeks of gestation, and a phenotypically normal male baby was delivered without any abnormalities of the male external genitalia. The cord blood had a karyotypes of 46,X,i(Y) (q10)[8]/45,X[3]/46,XY [29], and placenta had a karyotypes of 45,X [25]/46,X,i(Y) (q10)[7]/46,XY [8]. When follow-up at age two months, the neonate was normal in development. The peripheral blood had a karyotypes of 46,X,i(Y) (q10)[8]/45,X[5]/46,XY [27]. Interphase fluorescence in situ hybridization (FISH) analysis on 101 buccal mucosal cells showed normal X and Y signals in 101/101 cells.ConclusionFetuses with 45,X/46, XY at amniocentesis can be associated with mosaicism for 46,X,i(Y) (q10) in the blood lymphocytes, cytogenetic discrepancy in various tissues and a favorable outcome.     

Prenatal diagnosis of a small supernumerary,XIST-negative,mosaic ring X chromosome identified by fluorescence in situ hybridization in an abnormal male fetus

Marker or ring X [r(X)] chromosomes of varying size are often found in patients with Turner syndrome. Patients with very small r(X) chromosomes that did not include the X-inactivation locus (XIST) have been described with a more severe phenotype. Small r(X) chromosomes are rare in males and there are only five previous reports of such cases. We report the identification of a small supernumerary X chromosome in an abnormal male fetus. Cytogenetic analysis from chorionic villus sampling was performed because of fetal nuchal translucency thickness and it showed mosaicism 46,XY/47,XY,+r(X)/48,XY,+r(X),+r(X). Fluorescence in situ hybridizations (FISH) showed the marker to be of X-chromosome origin and not to contain the XIST locus. Additional specific probes showed that the r(X) included a euchromatic region in proximal Xq. At 20 weeks gestation, a second ultrasound examination revealed cerebral abnormalities. After genetic counselling, the pregnancy was terminated. The fetus we describe is the first male with a mosaic XIST-negative r(X) chromosome identified at prenatal diagnosis. The phenotype we observed was probably the result of functional disomy of the genes in the r(X) chromosome, secondary to loss of the XIST locus.     

Hormonal and cytogenetic studies in phenotypically female patients with gonadal dysgenesis

In 4 cases of gonadal dysgenesis the clinical, hormonal, cytogenetic, and histological findings were correlated. There were 2 patients with 46,XY karyotype, one patient with 45,X Turner's syndrome and one patient with a 46,XX chromosome complement. All patients had streak gonads with ovarian stroma. In one phenotypically female 46,XY individual an involuted gonadoblastoma was found. Her testosterone was four-fold higher in gonadal vein blood compared to peripheral blood. Cytogenetic analysis of multiple tissues in both cases with the 46,XY karyotype greatly reduced the probability of mosaicism. In the patient with 45,X Turner's syndrome and in the one with 46,XX gonadal dysgenesis only peripheral blood cells were karyotyped and mosaicism was not further excluded by analysis of other tissues. The concentrations of steroid hormones in gonadal vein blood were low. The levels ranged as follows: estrone 41-98 pg/ml, estradiol 18-90 pg/ml, testosterone 37-294 ng/100 ml, dihydrotestosterone 13-22 ng/100 ml, and progesterone 0.3-1.5 ng/ml. It was concluded that gonadal streaks were similarly deficient in biosynthesis of steroid hormones despite different chromosomal complements.     

Scant XYqh- testicular cells with normal SRY was enough to differentiate bilateral testes in a 45,X/46,XYqh- patient

OBJECTIVE: It has been established that in 45,X/46,XY individuals predominance of XY or XO gonadal cells determines gonadal differentiation. However, in some cases there is no concordance between the predominance of XY cells and testis differentiation. Here we describe the SRY findings in a patient bearing a 45,X/46,XYqh- karyotype. STUDY DESIGN: The patient presented two small testes (one with spermatogenesis), a male phenotype, and a predominant 45,X karyotype in leukocytes and gonadal cells. PCRs of SRY, ZFY and Yqh were performed on DNA from leukocytes and from left gonadal tissue. SRY-PCR products were purified and sequenced. RESULTS: A normal SRY sequence was found in both tissues. CONCLUSIONS: Despite the predominance of 45,X cells in gonads, some patients in whom SRY is normal can develop testes, probably due to the presence of alternative mechanisms involved in testicular differentiation; however, further gonadal development could be impaired.     

Serum immunoglobulin levels,autoimmunity and cell-mediated immunity in primary ovarian failure

Serum immunoglobulin levels and autoantibodies to thyroid and ovary were estimated in patients with primary ovarian failure. IgG and IgM levels in 29 patients with 45X0 karyotype, 9 with pure gonadal dysgenesis with 46XX karyotype, 2 with 46XY karyotype, and 4 others with chromosomal mosaicism were significantly lower (P < 0.001) than those in a control group of 45 age-matched normal females in the follicular phase of the menstrual cycle. IgA and IgE levels were comparable in patients and controls. However, for patients in the 45X0 group, both IgE and testosterone levels were lower than for those with the 46XX karyotype. The 45X0 group also had significantly higher titers of anti-thyroid antibodies than either normals or pure gonadal dysgenetics (46XX). Both patient groups (45X0 and 46XX) had higher titers of anti-ovarian antibodies (mainly against follicles, as determined by immunofluorescence) than did normals. Patients with other karyotypes did not show evidence of autoimmunity to thyroid or ovary. In seven patients tested for total and active T-cell populations and lymphocyte responses to concanavalin A, these parameters of cell-mediated immunity were lower than in age-matched normals, whereas their responses to phytohemagglutinin were within the normal range.