Impact of Bisphenol A and its alternatives on oocyte health: a scoping review

Peters, Alexandra E; Ford, Emmalee A; Roman, Shaun D; Bromfield, Elizabeth G; Nixon, Brett; Pringle, Kirsty G; Sutherland, Jessie M

doi:10.1093/humupd/dmae025

Human Reproduction Update

2024

DOI: 10.1093/humupd/dmae025

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Impact of Bisphenol A and its alternatives on oocyte health: a scoping review

Alexandra E Peters,

Emmalee A Ford,

Shaun D Roman

et al.

Abstract: BACKGROUND Bisphenol A (BPA) is an endocrine disrupting chemical released from plastic materials, including food packaging and dental sealants, persisting in the environment and ubiquitously contaminating ecosystems and human populations. BPA can elicit an array of damaging health effects and, alarmingly, ‘BPA-free’ alternatives mirror these harmful effects. Bisphenol exposure can negatively impact female fertility, damaging both the ovary and oocytes therein. Such damage can diminish reprodu… Show more

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2024

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Cited by 2 publications

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Damage mechanisms of bisphenols on the quality of mammalian oocytes

Pandey,

Yadav,

Premkumar

et al. 2024

Human Reproduction

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The extensive use of bisphenols in the plastics industry globally is a major growing concern for human health. Bisphenol compounds are easily leached out from plastic containers to food, beverages, and drinking water and contaminate the natural environment. Daily exposure of bisphenol compounds increases their load and impairs various organs, including the reproductive system. Bisphenol compounds directly or indirectly affect ovarian functions, such as folliculogenesis, steroidogenesis, oogenesis, and thereby oocyte quality. Bisphenol A (BPA) and its structural analogues act as endocrine disruptors and induce generation of reactive oxygen species (ROS) within the ovary. Excess levels of ROS induce death pathways in follicular steroidogenic cells and affect ovarian steroidogenesis. The reduced level of estradiol-17β impairs follicular growth and development that reduces the number and quality of oocytes. In addition, excess levels of ROS in follicular fluid trigger meiotic instability, which further deteriorates oocyte quality. The high level of ROS generates oxidative stress that triggers various death pathways in germ cells as well as in oocytes, induces follicular atresia, and depletes ovarian reserve. Although growing evidence indicates the destructive effects of bisphenol compounds at the level of ovary, potential effects and underlying mechanisms that deteriorate oocyte quality remain poorly understood. Therefore, this review summarizes the mechanisms by which bisphenols cause damage to the ovary, impair oocyte quality, and affect women's fertility.

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Damage mechanisms of bisphenols on the quality of mammalian oocytes

Pandey,

Yadav,

Premkumar

et al. 2024

Human Reproduction

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Abnormalities of Oocyte Maturation: Mechanisms and Implications

Baldini,

Lot,

Malvasi

et al. 2024

IJMS

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The elucidation of oocyte maturation mechanisms is paramount for advancing embryo development within the scope of assisted reproductive technologies (ART). Both cytoplasmic and nuclear maturation represent intricate processes governed by tightly regulated cellular pathways, which are essential for ensuring the oocyte’s competence for fertilization and subsequent embryogenesis. A comprehensive grasp of these mechanisms is vital, as the maturation stage of the oocyte significantly influences chromosomal integrity, spindle formation, and its ability to support the initial stages of embryonic development. By leveraging this knowledge, we can enhance in vitro fertilization (IVF) protocols, refining ovarian stimulation regimens and culture conditions to improve oocyte quality. This, in turn, has the potential to boost pregnancy rates and outcomes. Further research in this area will contribute to the development of novel interventions that aim to increase the efficacy of preimplantation embryonic development, offering new opportunities for individuals undergoing fertility treatments.

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Impact of Bisphenol A and its alternatives on oocyte health: a scoping review

Cited by 2 publications

References 174 publications

Damage mechanisms of bisphenols on the quality of mammalian oocytes

Damage mechanisms of bisphenols on the quality of mammalian oocytes

Abnormalities of Oocyte Maturation: Mechanisms and Implications

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