Contribution of chromosomal imbalance to sperm selection and pre-implantation loss in translocation-heterozygous Chinese hamsters

Sonta, Shin-ichi

doi:10.1159/000077500

Cited by 2 publications

(2 citation statements)

References 30 publications

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“…However, it remains possible that aneuploidy for other chromosomes and other types of chromosomal abnormalities may affect sperm maturation and fertilizing capacity. Indeed, results obtained with translocation carriers in Chinese hamsters suggested that sperm carrying specific chromosomal imbalances failed to participate in fertilization (Sonta et al, 1991; Sonta, 2004).…”

Section: Methods For Investigating Paternally‐transmitted Chromosomalmentioning

confidence: 99%

Mechanisms and consequences of paternally‐transmitted chromosomal abnormalities

Marchetti

Wyrobek

2005

Birth Defects Research Pt C

121

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Paternally transmitted chromosomal damage has been associated with pregnancy loss, developmental and morphological defects, infant mortality, infertility, and genetic diseases in the offspring including cancer. There is epidemiological evidence linking paternal exposure to occupational or environmental agents with an increased risk of abnormal reproductive outcomes.There is also a large body of literature on germ cell mutagenesis in rodents showing that treatment of male germ cells with mutagens has dramatic consequences on reproduction producing effects such as those observed in human epidemiological studies. However, we know very little about the etiology, transmission and early embryonic consequences of paternallyderived chromosomal abnormalities. The available evidence suggests that: 1) there are distinct patterns of germ cell-stage differences in the sensitivity of induction of transmissible genetic damage with male postmeiotic cells being the most sensitive; 2) cytogenetic abnormalities at first metaphase after fertilization are critical intermediates between paternal exposure and abnormal reproductive outcomes; and, 3) there are maternally susceptibility factors that may have profound effects on the amount of sperm DNA damage that is converted into chromosomal aberrations in the zygote and directly affect the risk for abnormal reproductive outcomes.

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Section: Methods For Investigating Paternally‐transmitted Chromosomalmentioning

confidence: 99%

Mechanisms and consequences of paternally‐transmitted chromosomal abnormalities

Marchetti

Wyrobek

2005

Birth Defects Research Pt C

121

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“…Chromosomal abnormalities may lead not only to meiotic disturbances and gameto genic disruption, but also to the production of chromo somally unbalanced gametes. Normally, gametes with chromosomal abnormalities have reduced reproductive potential, since the natural selection reduces the proba bility of fertilization, embryonic cell division and implantation of embryos with some types of chromo somal abnormalities [8][9][10]. ART utilization, espe cially intracytoplasmic sperm injection, bypasses this natural barrier to fertilization, increasing the risk of 1 The article was translated by the authors.…”

Section: Introductionmentioning

confidence: 99%

Chromosomal abnormalities in patients with infertility

et al. 2015

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The results of cytogenetic studies of 3414 patients with infertility (1741 women and 1673 men) were analyzed retrospectively to estimate the frequency and types of chromosomal abnormalities in infertile patients. Chromosomal abnormalities were detected in 2.37% of cases (81/3414), corresponding to an abnor mality frequency of 2.79% among men and 1.95% among women. Balanced structural chromosomal rear rangements were predominant in the studied group, constituting 80.2% of all chromosomal abnormalities. Gonosomal abnormalities comprised 23.5% of the detected chromosomal pathology (19/81) and were pre sented by gonosomal aneuploidies in 84% of cases (16/19) and structural rearrangements of chromosome Y in 16% of cases (3/19). The frequency of sex chromosome low level mosaicism was 0.55%. Our results high light the importance of cytogenetic studies in patients with infertility before the start of infertility treatment programs with assisted reproduction techniques, since the detection of chromosomal abnormalities makes it possible to identify infertility etiology as well as change the treatment approaches.

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Contribution of chromosomal imbalance to sperm selection and pre-implantation loss in translocation-heterozygous Chinese hamsters

Cited by 2 publications

References 30 publications

Mechanisms and consequences of paternally‐transmitted chromosomal abnormalities

Mechanisms and consequences of paternally‐transmitted chromosomal abnormalities

Chromosomal abnormalities in patients with infertility

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