Mechanisms and clinical correlates of sperm DNA damage

Lara Tamburrino; Sara Marchiani; Margarita Montoya; Francesco Elia Marino; Ilaria Natali; Marta Cambi; Gianni Forti; Elisabetta Baldi; Monica Muratori

doi:10.1038/aja.2011.59

Mechanisms and clinical correlates of sperm DNA damage

Lara Tamburrino, Sara Marchiani, Margarita Montoya, Francesco Elia Marino, Ilaria Natali, Marta Cambi, Gianni Forti, Elisabetta Baldi^*, Monica Muratori

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

111 Citations (Scopus)

Abstract

Among the different DNA anomalies that can be present in the male gamete, DNA fragmentation is the most frequent, particularly in infertile subjects. There is now consistent evidence that a sperm containing fragmented DNA can be alive, motile, morphologically normal and able to fertilize an oocyte. There is also evidence that the oocyte is able to repair DNA damage; however, the extent of this repair depends on the type of DNA damage present in the sperm, as well as on the quality of the oocyte. Thus, it is important to understand the possible consequences of sperm DNA fragmentation (SDF) for embryo development, implantation, pregnancy outcome and the health of progeny conceived, both naturally and by assisted reproductive technology (ART). At present, data on the consequences of SDF for reproduction are scarce and, in many ways, inconsistent. The differences in study conclusions might result from the different methods used to detect SDF, the study design and the inclusion criteria. Consequently, it is difficult to decide whether SDF testing should be carried out in fertility assessment and ART. It is clear that there is an urgent need for the standardisation of the methods and for additional clinical studies on the impact of SDF on ART outcomes.

Original language	English
Pages (from-to)	24-31
Number of pages	8
Journal	Asian Journal of Andrology
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/aja.2011.59
Publication status	Published - Jan 2012
Externally published	Yes

Keywords

assisted reproduction
COMET
DNA fragmentation
ICSI
in vitro fertilization-embryo transfer
sperm chromatin structure assay
spermatozoa
TUNEL

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10.1038/aja.2011.59

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title = "Mechanisms and clinical correlates of sperm DNA damage",

abstract = "Among the different DNA anomalies that can be present in the male gamete, DNA fragmentation is the most frequent, particularly in infertile subjects. There is now consistent evidence that a sperm containing fragmented DNA can be alive, motile, morphologically normal and able to fertilize an oocyte. There is also evidence that the oocyte is able to repair DNA damage; however, the extent of this repair depends on the type of DNA damage present in the sperm, as well as on the quality of the oocyte. Thus, it is important to understand the possible consequences of sperm DNA fragmentation (SDF) for embryo development, implantation, pregnancy outcome and the health of progeny conceived, both naturally and by assisted reproductive technology (ART). At present, data on the consequences of SDF for reproduction are scarce and, in many ways, inconsistent. The differences in study conclusions might result from the different methods used to detect SDF, the study design and the inclusion criteria. Consequently, it is difficult to decide whether SDF testing should be carried out in fertility assessment and ART. It is clear that there is an urgent need for the standardisation of the methods and for additional clinical studies on the impact of SDF on ART outcomes.",

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author = "Lara Tamburrino and Sara Marchiani and Margarita Montoya and {Elia Marino}, Francesco and Ilaria Natali and Marta Cambi and Gianni Forti and Elisabetta Baldi and Monica Muratori",

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AU - Marchiani, Sara

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AU - Elia Marino, Francesco

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AU - Forti, Gianni

AU - Baldi, Elisabetta

AU - Muratori, Monica

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AB - Among the different DNA anomalies that can be present in the male gamete, DNA fragmentation is the most frequent, particularly in infertile subjects. There is now consistent evidence that a sperm containing fragmented DNA can be alive, motile, morphologically normal and able to fertilize an oocyte. There is also evidence that the oocyte is able to repair DNA damage; however, the extent of this repair depends on the type of DNA damage present in the sperm, as well as on the quality of the oocyte. Thus, it is important to understand the possible consequences of sperm DNA fragmentation (SDF) for embryo development, implantation, pregnancy outcome and the health of progeny conceived, both naturally and by assisted reproductive technology (ART). At present, data on the consequences of SDF for reproduction are scarce and, in many ways, inconsistent. The differences in study conclusions might result from the different methods used to detect SDF, the study design and the inclusion criteria. Consequently, it is difficult to decide whether SDF testing should be carried out in fertility assessment and ART. It is clear that there is an urgent need for the standardisation of the methods and for additional clinical studies on the impact of SDF on ART outcomes.

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Mechanisms and clinical correlates of sperm DNA damage

Abstract

Keywords

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