dc.identifier.citation |
RACOVITA, Stela, HADJIU, Svetlana, REVENCO, Ninel, CALCII, Cornelia, CUZNET, Ludmila, et al. Neurogenetic aspects in men with Klinefelter’s syndrome. In: The Moldovan Medical Journal. 2021, vol. 64, no 3 (Neuro Congress Issue), p. 55. ISSN 2537-6381. |
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dc.description.abstract |
Background: Klinefelter’s syndrome (KS) is the presence of one or more supernumerary X chromosomes. The aim was the investigation of the
cytogenetic variant in men with KS, for the assessment of neurological phenotypes.
Material and methods: Were investigated 98 men with infertility, having as selection criteria, lack of sperm in the ejaculate, elevated values of
Follicle-stimulating hormone (FSH), Luteinizing Hormone (LH), and the following phenotypic aspects: small testes, hypogonadism, cryptorchidism,
waist high and disproportionate, gynecomastia, mental retardation, psychosocial problems. Karyotyping was performed according to standard
methods G-banding.
Results: The most common cytogenetic variant diagnosed in 25 (25.5%; [95 CI 21.1 – 29.9], p = 0.05) patients with SK was homogeneous free
trisomy 47, XXY (22 cases – 88%), followed by: mosaic form (47, XXY / 46, XY: 1 case), polysomies X – Y variants (48, XXYY and 49, XXXXY: 2
cases). In the patients with variant 47, XXY the classical and mosaic forms showed a mild to moderate mental retardation (36.0%; [95 CI 26.4 –
45.6], p = 0.05), language disorders with cognitive-verbal retardation (48.0%; [95 CI 38.01 – 57.99], p = 0.05), slow motor development (20.0%;
[95 CI 12.0 – 28.0], p = 0.05), coordination disorders (8.0%; [95 CI 2.57 – 13.43], p = 0.05), immature behavior (60.0%; [95 CI 50.2 – 69.8], p =
0.05). In patients with variants 48, XXYY and 49, XXXXY, moderate to severe mental retardation (50.0%; [95 CI 14.64 – 85.36], p = 0.05), severe
cognitive-verbal retardation (50.0%; [95 CI 14.64 – 85.36], p = 0.05), behavioral problems and life-threatening problems were found in 100%.
Conclusions: The cytogenetic variant of KS depends on the number of supernumerary X chromosomes, being determinant in the characteristic
of neurological phenotypes. |
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