Congenital heart disease in patients with Turner's syndrome. Italian Study Group for Turner Syndrome (ISGTS).

OBJECTIVE: There is a high prevalence of congenital heart defects in patients with Turner's syndrome. Few studies have reported echocardiographic data in unselected patients according to the different chromosomal patterns. The aim of our study was to evaluate a large series of patients with Turner's syndrome, comparing these data with those of the general population. METHODS: Five hundred ninety-four patients with Turner's syndrome, aged 1 month to 24 years, in the Italian Study Group for Turner Syndrome underwent full cardiologic evaluation. Karyotype distribution was: 45,X (54%), X-mosaicism (13%), and X-structural abnormalities (33%). RESULTS: The prevalence of cardiac malformations was 23%. Bicuspid aortic valve (12.5%), aortic coarctation (6.9%), and aortic valve disease (3.2%) were the most prevalent malformations. In comparison with the general population, partial anomalous pulmonary venous drainage had the highest relative risk. A correlation was found between type of congenital heart defect and karyotype. The patients with 45,X karyotype had the greatest prevalence of partial anomalous pulmonary venous drainage and aortic coarctation, whereas bicuspid aortic valve and aortic valve disease were more common in the patients with X-structural abnormalities. The patients with severe dysmorphic signs showed a significantly higher relative risk of cardiac malformations. CONCLUSION: X-linked factors may be involved in determining cardiac defects in Turner's syndrome.

Pelvic ultrasonography in patients with Turner syndrome: age-related findings in different karyotypes.

Real-time ultrasonography was performed in 142 patients with Turner syndrome, aged 0.57 to 21 years, with different karyotypes (45,X [4896], X mosaicism [17%], and X structural abnormalities [35%]). Ovarian and uterine volumes were calculated and the data collected in a mixed longitudinal and cross-sectional mode. Thirty-eight patients were followed longitudinally during pubertal age (10 to 18 years bone age) for ovarian data. Patients with Turner syndrome were divided into two groups according to the presence or absence of detectable ovaries. Patients with Turner syndrome with detectable ovaries showed the first increase in ovarian volume at about 9 years of bone age; this increase was continuous and more evident only after 14 years of age and appeared later than in control subjects. When followed longitudinally during puberty, the ovaries showed a hormonal function in some cases. Girls with X mosaicism had the highest percentage of bilateral detectable ovaries and the greatest total ovarian volume; about 50% of them had spontaneous breast appearance and 38.5% had spontaneous menarche. They showed also the lowest gonadotropin levels, when bilateral ovaries were present during puberty. On the contrary, patients with the 45,X karyotype had the lowest percentage of detectable ovaries, ovarian volume, and spontaneous breast appearance. In our patients with Turner syndrome, uterine measures increased significantly with age and this was more evident in subjects with detectable ovaries after 13 years of bone age. Compared with control subjects, they showed significantly lower uterine measures, and patients with X mosaicism had greater and more progressive increments. In conclusion, pelvic ultrasonography in Turner syndrome is particularly useful in detecting ovaries and their possible increase in volume. These data, linked with karyotype pattern and gonadotropin levels, have prognostic value in predicting the future sexual development of these patients.