# Next-Generation Dietary Antioxidants in Women’s Reproductive Health: Mechanisms, Reproductive Outcomes, and Therapeutic Potential

**Authors:** Md Ataur Rahman, Maroua Jalouli, Mohammed Al-Zharani, Abdel Halim Harrath

PMC · DOI: 10.3390/antiox15030319 · Antioxidants · 2026-03-03

## TL;DR

This review explores how next-generation dietary antioxidants can improve women's reproductive health by reducing oxidative stress and supporting fertility and pregnancy outcomes.

## Contribution

The paper introduces a framework for understanding how modern dietary antioxidants modulate redox-sensitive pathways in female reproduction.

## Key findings

- Next-generation antioxidants modulate redox-sensitive pathways like autophagy and apoptosis.
- These compounds improve oocyte quality, ovarian reserve, and pregnancy success.
- They show therapeutic potential for conditions like infertility and endometriosis.

## Abstract

Oxidative stress has emerged as a key factor regulating female fertility, reproductive aging, and the development of various gynecologic and pregnancy-associated diseases. While physiological concentrations of reactive oxygen species play a fundamental role in many aspects of normal reproduction such as folliculogenesis, oocyte maturation, implantation, and placental development, abnormal or chronic oxidative stress impairs redox homeostasis and promotes mitochondrial dysfunction, inflammation, DNA damage, and cellular senescence. Recent research interest has shifted toward next-generation dietary antioxidants, including bioactive polyphenols, carotenoids, micronutrients, and nutraceutical combinations with improved bioavailability and molecular targets. These compounds go beyond classical free-radical scavenging activity and modulate a network of redox-sensitive signaling pathways involved in autophagy, apoptosis, endocrine regulation, and immunological balance. In this review, we integrate current mechanistic advances into a cohesive framework that illustrates the regulation of key cellular processes affecting female reproductive physiology by next-generation dietary antioxidants. We also critically evaluate experimental, translational, and clinical data supporting their role in promoting reproductive outcomes, including oocyte quality, ovarian reserve, pregnancy success, and mitigation of age-related reproductive decline. We highlight their potential in the therapeutic intervention of oxidative stress-related conditions such as infertility, polycystic ovary syndrome, endometriosis, early ovarian insufficiency, and menopause-associated disorders. Finally, we discuss the current challenges associated with dosage optimization, bioavailability, long-term safety, and interindividual variability. We conclude by highlighting next-generation dietary antioxidants as a promising, widely available, and non-invasive approach to improve women’s reproductive health and promote fertility throughout their lifespan.

## Linked entities

- **Chemicals:** carotenoids (PubChem CID 11227325)
- **Diseases:** polycystic ovary syndrome (MONDO:0008487), endometriosis (MONDO:0005133)

## Full-text entities

- **Diseases:** polycystic ovary syndrome (MESH:D011085), ovarian insufficiency (MESH:D010051), inflammation (MESH:D007249), endometriosis (MESH:D004715), mitochondrial dysfunction (MESH:D028361), gynecologic and pregnancy-associated diseases (MESH:D005831), infertility (MESH:D007246)
- **Chemicals:** reactive oxygen species (MESH:D017382), polyphenols (MESH:D059808), carotenoids (MESH:D002338)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

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## References

154 references — full list in the complete paper: https://tomesphere.com/paper/PMC13023996/full.md

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Source: https://tomesphere.com/paper/PMC13023996