Presence of Turner stigmata in a case of dysgenetic male pseudohermaphroditism with 45,X/46,X+mar karyotype

A case is reported of dysgenetic male pseudohermaphroditism (DMPH) having Turner stigmata and 45,X/46,X+mar karyotype. The marker chromosome of this patient consisted of most if not all of the short arm, including the sex determining region of the Y chromosome. Although this karyotype is relatively common in Turner's syndrome and occasionally observed in mixed gonadal dysgenesis, DMPH is usually exemplified by a 46,XY karyotype except for one patient reported with 45,X/46,XY mosaicism. Turner stigmata have not previously been reported in DMPH. The present patient is an intermediate case between mixed gonodal dysgenesis and typical DMPH, and this indicates that 45,X/ 46,X +mar karyotype abnormality can result in a wide range of phenotype such as DMPH, mixed gonodal dysgenesis and Turner's syndrome.     

Y Chromosome Specific DNA Probe in the Diagnosis of a Patient with mos 45, X/46, XYnf

In a patient with mos 45,X/46,XYnf, the diagnosis was confirmed with a Y chromosome-specific DNA probe, Y-190. The patient was a phenotypic female without Turner syndrome stigmata other than short stature. She showed some evidence of virilization and high serum testosterone. Her peripheral blood karyotype was mos 45,X/46X, +mar. Although this marker chromosome resembled a Y chromosome, there was no quinacrine bright region on its long arm. Southern blot analysis of her peripheral blood mononuclear cell DNA with Y-190 as a probe showed strong hybridization with this probe. Gonadectomy was performed, and bilateral gonadoblastomas were found.     

Low stature in males with normal phenotype and 45,X/46,XY mosaicism

There is wide variation in the clinical expression of 45,X/46,XY mosaicism. Ninety percent of prenatally diagnosed boys have normal male phenotype at birth, while those diagnosed postnatally show a wide spectrum of phenotypes, ranging from Turner syndrome, mixed gonadal dysgenesis, and male pseudohermaphroditism to apparent normality. We report the clinical, cytogenetic, endocrinologic and histologic findings in three boys with an apparently normal male phenotype and 45,X/46,XY mosaicism who were diagnosed postnatally because of their short stature. With the exception of one patient with Turner stigmata, no other abnormal features were found. No correlation between the proportion of 45,X/46,XY cell lines in blood, gonads and phenotype was found. Both prenatally and postnatally diagnosed boys with normal male phenotype must be followed-up because they can develop late-onset abnormalities, such as dysgenetic testes leading to infertility or neoplastic transformation, and short stature, which could be improved with growth hormone therapy.     

45,X/47,XY,+13 mosaicism and Crohn's disease

The unusual karyotype 45,X/47,XY,+13 in an 8.5-year-old girl with the Turner phenotype is described. She displayed none of the phenotypic manifestations of trisomy 13. The patient suffered from Crohn's disease, which is known to be associated with the Turner syndrome. To our knowledge this is the first reported case of Crohn's disease in a patient with 45,X and Y chromosome mosaicism.     

45,X/47,XY,+ 13 Mosaicism and Crohn's Disease

ABSTRACT. The unusual karyotype 4S,X/47,XY,+13 in an 8.5-year-old girl with the Turner phenotype is described. She displayed none of the phenotypic manifestations of trisomy 13. The patient suffered from Crohn's disease, which is known to be associated with the Turner syndrome. To our knowledge this is the first reported case of Crohn's disease in a patient with 45,X and Y chromosome mosaicism.     

Down's/Turner's mosaicism. Double aneuploidy as a rare cause of missed prenatal diagnosis of chromosomal abnormality.

Two babies with Down''s/Turner''s mosaic karyotype are reported. In each, because of advanced maternal age, chromosomal analysis had been carried out on the fluid obtained by amniocentesis in early pregnancy. Only the 46,X+ 21 cell line grew in the specimens and the extra 21 chromosome was wrongly identified as a Y chromosome, so that the fetus was thought to have a normal male karyotype, 46,XY. At birth both babies were phenotypically female with features predominantly of Down''s syndrome and the correct karyotype was then identified. Twenty cases of this rare chromosomal abnormality are reviewed and one other living child who had been similarly wrongly diagnosed is reported.     

45,X/46,XY mosaicism

The clinical findings in ten patients with 45,X/46,XY mosaicism are described. Three girls presented with short stature, delayed sexual development or Turner-like stigmata without signs of virilization. Bilaterally gonadoblastomas were found in two girls, and the gonads in one of these girls also contained mucinous cystadenomas. The remaining seven patients were raised as boys. Three had scrotal hypospadias and mixed gonadal dysgenesis. Three presented as male pseudohermaphrodites with scrotal or penoscrotal hypospadias and bilateral testes. One male was diagnosed in adulthood because of gynecomastia, but had normal male external genitals. The clinical findings illustrate the wide spectrum of phenotypic manifestations of 45,X/46,XY mosaicism, ranging from females with Turner-like phenotypes, phenotypic males and females with mixed gonadal dysgenesis, male pseudohermaphroditism to almost phenotypic normal males.     

The clinical and genetic heterogeneity of mixed gonadal dysgenesis: does “disorders of sexual development (DSD)” classification based on new Chicago consensus cover all sex chromosome DSD?

Clinical findings illustrate the wide spectrum of the phenotypic manifestations of 45,X/46,XY mosaicism in the sex chromosome disorders of sex differentiation (DSD). The objective of study is to evaluate the characteristics of 45,X/46,XY patients and questioning of their place within the DSD categorization. The clinical findings of 11 patients with 45,X/46,XY mosaicism are described including the presentation, gonadal morphology, genital anatomy, and the hormone levels among 285 patients with DSD evaluated. Sixty-seven patients were diagnosed with sex chromosome DSD (50 Turner, three Klinefelter, ten 45,X/46,XY gonadal disgenesis, one 45X/46,XY ovotesticular DSD, one 47,XYY ovotesticular DSD, and two 46,XX/46,XY ovotesticular DSD). The type and the percentage of patients with 45,X/46,XY mosaicism were as follows: Four cases of mix gonadal dysgenesis, four cases of partial gonadal dysgenesis, two cases of complete gonadal dysgenesis, one case of ovotesticular DSD. On the other hand, another patient that has 45,X/46,XX mosaicism was diagnosed with MGD with the presence of the streak gonad on the right side and the testis on the other side. Conclusion: We suggest that sex chromosome DSD categorization can include 45,X/46,XY PGD and 45,X/46,XY CGD. Mixed gonadal dysgenesis may be also placed among the disorders of testicular differentiation of 46,XY DSD subdivision.     

45，X/46，X，+mar男性患儿临床及遗传学分析

目的分析45,X/46,X,+mar男性患儿的临床及遗传学特征。方法回顾分析2例确诊45,X/46,X,+mar男性患儿的临床资料,并复习相关文献。结果2例男性患儿,年龄分别为10岁7个月和3岁1个月,均有矮小表现,且伴有性腺发育落后。例1合并精索静脉曲张,头颅磁共振成像示部分空蝶鞍,外周血染色体核型分析为45,X[31]/46,X,+mar[69],二代测序检测提示Y染色体短臂SRY基因拷贝数重复,长臂USP9Y基因整体缺失。例2外周血染色体核型分析也为45,X[5]/46,X,+mar[75],全基因组CNV检测提示染色体核型为46,XY,Y染色体AZFb+AZFc区域完全缺失。结论矮小症患儿应密切关注其外生殖器的形态及功能,必要时进行遗传学分析。     

Association of Turner's syndrome and Swyer's syndrome in the same family

We report two phenotypically and genetically different diseases in the same family. One patient presented with Turner phenotype as a result of chromosomal mosaicism 45,X/46,X, inv(X)(q21;q24) (30%/70%). Her father's sister showed 46,XY female gonadal dysgenesis (Swyer's syndrome) as a result of a point mutation in the SRY gene on her Y chromosome. DNA sequencing revealed a G-->C transversion (nucleotide position 693) resulting in a change from glycine95 to arginine (G95R). Here we report for the first time an association of Turner's syndrome and Swyer's syndrome in the same family.     

Final height of girls with Turner's syndrome: correlation with karyotype and parental height

Final height of 75 adults with Turner's syndrome (45 Israeli, 30 Italian), never treated with GH, was examined to see if a relationship with karyotype patterns and parental height existed. Patients were divided into five groups according to their chromosome pattern, as follows: group A = 45,X karyotype (34 patients); group B = mosaicism (11 with karyotype 45,X/46,XX and 7 with karyotype 45,X/ 46,XY); group C = deletion of all or part of Xp (19 patients); subgroup CI = 6 with complete deletion of Xp; subgroup C2 = 9 with mosaicism 45,X/46,X,i(Xq); subgroup C3 = 4 with 45,X/46,X,ring(X); group D = deletion of Xq (4 patients); pure gonadal dysgenesis (PGD) group = 9 patients with pure 46,XX gonadal dysgenesis. No statistical difference was noted between the mean height of the two national populations studied (Italian 142.2 ±5.7 and Israeli 143.0 ±7.2 cm). The mean heights of group D (148.9 cm; range 147–166.2) and the PGD group (156.0 cm; 141–171.5) were found to be significantly higher than those observed in groups A, B and C ( p <0.03, p < 0.02 and p <0.02, respectively), even though gonadal distinction existed in all five groups. Subgroup CI, where a deletion of the entire Xp segment [46,X,i(Xq)] was present, was found to be the shortest group (median height 134.5; range 131.9–138 cm). No fixed pattern of correlation between final height and parental height was found within any of the groups studied but if we consider the mean final height of all Turner patients studied, without division into groups, it correlates well, but only with mothers'height and not with fathers'height. These data provide further confirmation that short stature in Turner's syndrome is multifactorial and depends on the deletion of the distal portion of the short arm of chromosome X, on the lack of sex hormone secretion and, in part, on parental height.     

Prepubertal gonadoblastoma in a 46,XY female patient with features of Turner syndrome

46,XY gonadal dysgenesis was diagnosed in a 5.5-year-old phenotypically female patient who had physical and somatic stigmata of Turner syndrome such as webbed neck, low hairline, widely spaced nipples, cubitus valgus and coarctation of the aorta. Bilateral streak gonads were removed and an unsuspected gonadoblastoma was found in right gonad.     

Carcinoma in situ of the testis in children with 45,X/46,XY gonadal dysgenesis

The frequency of gonadal tumors in intersex patients with a karyotype including a Y chromosome is very high. In other at-risk groups, testicular germ cell tumors have been shown to be preceded by carcinoma in situ (CIS) changes. We investigated gonadal tissue from four children, aged 1 month to 18 years, with 45,X/46,XY gonadal dysgenesis, and with male or ambiguous genitalia, for the presence of CIS germ cells. Twelve gonadal biopsies and gonadectomy specimens were analyzed by means of conventional histology and densitometric DNA measurements. CIS changes were detected in specimens from all four patients, and aneuploid DNA distributions of the CIS germ cells confirmed the malignant potential of these cells. In one case, electron microscopic analysis revealed the same ultrastructural features of the CIS germ cells as previously described in seminoma cells. These observations indicate that in all patients with 45,X/46XY gonadal dysgenesis and a male phenotype, gonadal biopsies should be considered as soon as the syndrome is diagnosed. We believe that the finding of CIS warrants gonadectomy.     

Clinical and gonadal features and early surgical management of 45,X/46,XY and 45,X/47,XYY chromosomal mosaicism presenting with genital anomalies

ObjectiveThe 45,X/46,XY and 45,X/47,XYY group of patients includes some of those previously diagnosed with ‘mixed gonadal dysgenesis’. Our aim was to establish the clinical and gonadal spectrum, and early surgical management, of patients with chromosomal mosaicism presenting with genital anomalies.Patients and methodsWe performed a retrospective review of patients with 45,X/46,XY or 45,X/47,XYY mosaicism presenting with genital ambiguity between 1988 and 2009. At least one gonadal biopsy or gonadectomy specimen was available for each patient. Gonadal histology was re-evaluated by a paediatric pathologist.ResultsOf 31 patients with 45,X/46,XY (n = 28) or 45,X/47,XYY (n = 3) mosaicism and genital anomalies, 19 (61%) were raised male. Histology of 46 gonads was available from patients who had undergone a gonadectomy or gonadal biopsy, at a median age of 9.5 months. 18 gonads were palpable at presentation, including 5 (28%) histologically unremarkable testes, 2 streak gonads, and 1 dysgenetic gonad with distinct areas of testicular and ovarian stroma but no oocytes. All intra-abdominal gonads were found to be dysgenetic testes (of which 2 were noted to have pre-malignant changes) or streaks, apart from 1 histologically unremarkable testis. 15 (48%) patients had other anomalies, most commonly cardiac and renal; 4 (13%) had a Turner phenotype.ConclusionThe anatomy and gonadal histology of 45,X/46,XY and 45,X/47,XYY individuals with genital ambiguity do not conform to a set pattern, and hence management of each patient should be individualized according to detailed anatomical and histological assessment.     

A 45 X/46 X dic (Yq) puberal male without genital ambiguity. Critical study of the peculiarities of his phenotype]

A boy with a chromosomal mosaic 45 X/46 X dic Yq is described. The unusual features were a Turner phenotype with normal genitalia and he was in puberty. It is apparent that it is not possible to blame alterations in the Y chromosome when this mosaic is associated with ambiguous genitalia or the stigmata of Turner's syndrome.     

Description of children with 45,X/46,XY karyotype

We hypothesized that because 45,X/46,XY (X/XY) children share a cell line with Turner syndrome (TS), they also share co-morbidities described in TS. In addition, the presence of the Y chromosome in brain and in other body tissues would influence their function. On the basis of our findings, we aimed to establish optimal procedures for clinical evaluation, management, and follow-up of these children. Sixteen X/XY children were evaluated and managed at a single institution as part of standard clinical care as established at the time between 1969 and 2009. In January of 2005, we started retrospective record review of all X/XY children in combination with cohort follow-up (of those who had not reached adult height) until August of 2009. The study included review of clinical presentation, clinical characteristics, diagnostic measures, radiologic studies, karyotype studies, psycho-endocrinology evaluation, and growth-promoting treatments. There was no specific intervention. Phenotype reflected cell line distribution. The presence of 45,X cell line explains how X/XY children have abnormalities similar to girls with TS, while presence of Y chromosome explains why they have tomboyish behavior. In conclusion, these children require clinical evaluation similar to that performed in female children with TS, including cardiovascular, renal, endocrine, growth and development, autoimmune, psychological, and educational evaluation. Specific management needs to be tailored to the presence of Y chromosomal material.     

Y chromosome sequences in Turner's syndrome: association with virilization and gonadoblastoma

The presence of Y chromosome fragments in patients with Turner's syndrome is known to increase the risk of gonadoblastoma and virilization. Y chromosome material is detected in up to 6% of patients with Turner's syndrome by karyotype. By DNA analysis, Y chromosome sequences have been reported in 0-60% of patients. The putative gonadoblastoma gene has been mapped to the pericentromeric region of the Y chromosome increasing the interest in studying these sequences. AIMS: 1. To determine the frequency of occult Y chromosome sequences in patients with Turner's syndrome. 2. To analyze the clinical implications of Y sequences detected by karyotype and occult Y sequences. STUDY DESIGN: Cross-sectional study of 58 patients with Turner's syndrome (30 45,X; two with structural anomalies; 26 mosaic [two of whom were 45,X/46,XY]). SRY, TSPY and DYZ3 sequences were amplified by PCR using genomic DNA from peripheral blood. RESULTS: All three Y chromosome sequences were found in one out of 56 patients whose karyotype was not suggestive of having Y chromosome material and in one patient with 45,X/46,Xr(X) karyotype. The patients with the ring chromosome and 45,X/46,XY karyotype underwent surgery and were found to have a gonadoblastoma and dysgerminoma. The four patients with Y chromosome material had non-virilized female genitalia. CONCLUSIONS: Analysis by PCR was more sensitive in detecting Y chromosome sequences than conventional karyotype. The presence of Y material was not associated with virilization. We confirmed the association of Y fragments and gonadoblastoma at an early age.     

Risk of gonadoblastoma in female patients with Y chromosome abnormalities and dysgenetic gonads

We report two female patients with gonadal dysgenesis and sex chromosome mosaicism involving the Y chromosome. Conventional karyotyping was supplemented with fluorescent in situ hybridisation techniques in order to confirm the presence of Y chromosomes. One patient is a phenotypic female with karyotype 45,X/46,X,idic(Y)(q11.2). She underwent a laparoscopic gonadectomy at which streak ovaries without evidence of gonadoblastoma were removed. The second patient presented as a virilised female with karyotype 45,X/47,XYY. At laparoscopy, she was found to have mixed gonadal dysgenesis with a gonadoblastoma in situ. We recommend early gonadectomy in female children presenting with gonadal dysgenesis and the presence of a Y chromosome although once the gonadoblastoma locus on Y chromosome gene has been cloned it may be possible to identify those patients who have a low risk of developing gonadoblastoma.     

Mixed gonadal dysgenesis in a patient with de novo tas(Y;19)(p11.3;q13.4) and 45,X mosaicism

We report a patient with a de novo telomeric association between chromosomes 19 and Y in conjunction with mixed gonadal dysgenesis. The patient was first admitted to the clinic because of abnormal external genitalia. Laparoscopic evaluation revealed (1) a rudimentary uterus, one fallopian tube, and a small gonad resembling an ovary on the right side, and (2) an immature fallopian tube, a vas deferens, and a gonad resembling a testis on the left side. Conventional cytogenetic analysis performed on cultivated peripheral blood cells, and tissue obtained from the phallus and a gonadal structure which resembled a testis revealed two different cell lines with the 46,X,tas (Y;19)(p11.3;q13.4) and 45,X karyotype. Y chromosome microdeletion analysis showed that the patient did not have any genomic deletions in the AZFa, b, c, or SRY regions on the long arm of the Y chromosome. This is the first report of a patient with mixed gonadal dysgenesis that is accompanied by a telomeric association between chromosomes 19 and Y with 45,X mosaicism.     

A 45,X/46,XY DSD (Disorder of Sexual Development) case with an extremely uneven distribution of 46,XY cells between lymphocytes and gonads

In 45,X/46,XY DSDs, the proportion of the two cell lineages is uneven in different organs and tissues, and 45,X and 46,XY cells can be found throughout the body. The gonadal development of 45,X/46,XY patients depends on the population of 46,XY cells in the gonads and the clinical features are variable. We had a 45,X/46,XY DSD patient whose 46,XY population in peripheral blood was extremely low, less than 0.2%, and was not detected by FISH analysis. However, the patient showed bilateral testicular development and more than 50% of the cells in the gonads had the 46,XY karyotype. This case suggests that a drastically imbalanced distribution could occur in 45,X/46,XY DSD cases.