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Is There an Increased Incidence of Aneuploid Embryos in Cases of Obstructive and Non-Obstructive Azoospermia?

Background: Current evidence supports that males with low spermatozoa concentrations, as well as obstructive azoospermia (OA) or non-obstructive azoospermia (NOA), present with high rates of aneuploid spermatozoa. This issue could potentially lead to an increased number of aneuploid embryos in subse...

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Bibliographic Details
Published in:Fertility & reproduction 2022-09, Vol.4 (3n04), p.210-210
Main Authors: SOLE, Sally, WILLATS, Elissa, GREEN, Mark, ROMBAUTS, Luk, KATZ, Darren, ZANDER-FOX, Deirdre, HORTA, Fabrizzio
Format: Article
Language:English
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Summary:Background: Current evidence supports that males with low spermatozoa concentrations, as well as obstructive azoospermia (OA) or non-obstructive azoospermia (NOA), present with high rates of aneuploid spermatozoa. This issue could potentially lead to an increased number of aneuploid embryos in subsequent ICSI cycles using surgically retrieved spermatozoa, however, azoospermia is not routinely considered to be a clinical indication for pre-implantation genetic testing for aneuploidies (PGT-A). Aim: To identify the incidence of aneuploid embryos in PGT-A cycles that used testicular spermatozoa extracted through surgical sperm retrieval (SSR). In addition, whether aneuploidy rates differed between embryos fertilised with SSR compared with ejaculated spermatozoa. Method: A retrospective study of OA and NOA patients who underwent SSR between March 2017 and September 2020 and had PGT-A cycles. Next-generation sequencing was employed to detect embryo aneuploidies. Data were compared and analysed using a chi-square test with PGT-A cycles using ejaculated spermatozoa within the same time-period. Results: A total of 57 males underwent SSR, leading to 68 cycles that included the use of PGT-A. A total of 152 embryos with conclusive results identified there to be 57.2% euploid embryos (87/152) and 38.2% aneuploid embryos (58/152) in the SSR group. In comparison, the ejaculated spermatozoa group resulted in 59.2% (2115/3677) euploid embryos and 35.7% (1312/3677) aneuploid embryos. The incidence of aneuploid embryos (38.2%) in the SSR group was not statistically significant [Odds ratio: 1.11 (0.79-1.56) p=0.53]. Importantly, there were no differences for mean maternal age for both study groups (SSR female partners: 36.7 years; ejaculated spermatozoa female partners: 37.1 years; p>0.1). Conclusion: The current outcomes indicate there is not an increased incidence of aneuploid embryos in PGT-A cycles of men who underwent to SSR compared with men using ejaculated spermatozoa.
ISSN:2661-3182
2661-3174
DOI:10.1142/S2661318222741212