Five patients with 45,X/46,XY mosaicism ranging from 8% to 66% of 46, XY lymphocytes in the peripheral blood were studied. Their age when chromosome studies were performed ranged from a few days to 37 yr. The phenotypic presentations were two females with gonadal dysgenesis and Turner syndrome features (cases 1 and 2), two males with ambiguous genitalia and mixed gonadal dysgenesis (cases 3 and 4), and an infertile male with an atrophic testis (case 5). Fluorescence in situ hybridization (FISH) using dual-color X and Y probes on paraffin-embedded sections of the gonads was performed to assess mosaicism. A mosaic cell line with a Y chromosome was present in the streak ovary, dysgenetic gonad, and testis. In the mixed gonadal dysgenesis cases (cases 3 and 4), the testis had a higher percentage (greater than two fold) of XY cells than the ovary had. However, the highest ratio of cells with a Y chromosome was in the atrophic testis of the infertile male (case 5). The distribution of mosaic clones in the different gonadal cell types was examined. Both females (cases 1 and 2) with dysgenetic gonads had scant ovarian stroma and nests of Leydig or hilus cells. In FISH studies, the coelomic epithelial cells were predominantly 46,XY; in comparison, the Leydig and hilus cells had a lower percentage and the ovarian stroma the least number of cells with a Y signal. A mixed gonadal dysgenesis case (case 3) possessed a right testis with an XY complement in approximately 21% of Sertoli cells and approximately 14% of Leydig cells. The infertile male had an atrophic testis with interstitial hyperplasia (case 5). His testis contained Sertoli cells but no evidence of spermatogenesis. FISH detected a Y signal in about 50-60% of the Sertoli and Leydig cells.

Low stature in males with normal phenotype and 45,X/46,XY mosaicism. An Pediatr (Barc). 2008 Feb;68(2):140-2.

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.

Detection of gonadal mosaicism in parents of children with Down syndrome.Tsitol Genet. 2007 Sep-Oct;41(5):36-42.

The paper presents results of a revision of data of both conventional chromosome testing and a study of cytogenetic (QFQ) markers in families with Down syndrome. Retrospective analysis of 151 families found eight families with a carrier of gonadal mosaicism. In all cases, the mother was younger than 35 years old. Therefore a prevalence of parental mosaicism in young couples was estimated to be 6.5% (8/123). Conventional diagnostic testing, not followed by analysis of segregation of QHQ markers, would have resulted in a prevalence of only 1%. A comparison of the results ofcytogenetic analysis with those expected using molecular polymorphisms suggests that cytogenetic testing cannot be entirely replaced by molecular testing. A combination of both methods should be applied when gonadal mosaicism is suspected.