The causes of primary sterility are complex and frequently difficult to elucidate. Cytogenetic anomalies are responsible for sterility in 5-10% infertile couples.
Objectives: Analysis of genetic background of primary sterility in 35 infertile couples.
Materials and methods: 72h cultures of peripheral blood lymphocytes, GTG and CBG banding, fluorescence in situ hybrydization (FISH) with whole chromosome painting (WCP) probes. Karyotype analysis was performed in each patient out of 35 infertile couples referred to genetic counsel. SRY and CFTR gene mutation analysis by PCR was performed in all men with abnormal sperm.
Results: Chromosome aberrations were found in 6 couples. Klinefelter syndrome (47,XXY) was disclosed in 2 men. Isochromosome i(Xq) was found in 1 woman. The structural balanced translocations were found in 2 men; t(15;16)(q13;p13.3), t(1;19)(p35;q13.3) and a robertsonian translocation t(14;21)(q10;q10) in one. All men with chromosome aberrations had sperm anomalies: oligozoospermia, astenozoospermia, cryptozoospermia or azoospermia. There was a CFTR mutation, deltaF508, in one man and no SRY mutation in molecularly examined men with sperm abnormalities.
Conclusions: In couples with primary sterility mainly the men are carriers of chromosome aberrations (CA). Because of 17.14% risk of the presence of chromosome aberrations in these couples, cytogenetic analysis should be an obligatory element of infertility diagnosis.