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* To whom correspondence should be addressed. E-mail: douglas.carrell{at}hsc.utah.edu.
Severe male infertility has been shown to be associated with improper meiotic recombination and elevated sperm chromosome aneuploidy. Elevated sperm aneuploidy increases the risk of embryo lethality or fetal anomalies. Although difficulties in interpreting aneuploidy data still exist, advances in fluorescent in situ hybridization (FISH) technology have facilitated the study of sperm from patients with severe spermatogenesis defects, which has demonstrated the prudence of evaluating sperm chromosome aneuploidy in men with severe male factor infertility, such as nonobstructive azoospermia or severe ultrastructure defects, especially in cases of previous repeated IVF/ICSI failure. Testing is also advisable in men with chromosome translocations and unexplained recurrent pregnancy loss, and may be beneficial in patients with unexplained, repeated IVF failure. Automated FISH-imaging and analysis technology is now available and is beneficial in reducing technician time analyzing sperm aneuploidy. Emerging technologies, such comparative genomic hybridization (CGH), may be beneficial in further improving the quality of data derived from aneuploidy analysis and reducing the cost of the assay.
Key words: Infertility •
Reproductive Genetics •
FISH •
aneuploidy •
recombination
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