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Kaneka Ubiquinol (CoQ10) & Fertility: What the Research Shows

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Unpacking the science behind Kaneka Ubiquinol’s role in supporting reproductive health and its antioxidant benefits for both prospective mothers and fathers.

 

Introduction: Why CoQ10 / Ubiquinol Matters in Preconception

Ubiquinol is the active antioxidant form of Coenzyme Q10 (CoQ10, or ubiquinone) and plays a crucial role in mitochondrial energy production. It is responsible for up to 95 % of cellular energy (ATP) generation [1]. With age, the body’s ability to convert conventional CoQ10 (ubiquinone) into its active reduced form (ubiquinol) declines, reducing antioxidant protection [2].

 

Mechanisms: How Kaneka Ubiquinol Supports Reproductive Cells

  • Antioxidant protection in mitochondria: Ubiquinol is lipid-soluble and neutralises reactive oxygen species (ROS) where they are most often produced [3].
  • Direct energy support: Because it is already in the reduced form, ubiquinol supports ATP production more efficiently than ubiquinone [4].
  • Protecting oocytes: Ubiquinol may help safeguard oocytes against oxidative stress and mitochondrial damage that contribute to diminished ovarian reserve [5].

Female (Oocyte) Benefits — What the Research Suggests

Declining egg quality with age is strongly associated with mitochondrial dysfunction and oxidative stress. Studies suggest ubiquinol may help by:

  • Supporting mitochondrial energy in oocytes [5].
  • Reducing excess ROS to protect developing follicles [6].
  • Improving ovarian response and embryo quality in women with reduced ovarian reserve [7].

Male (Sperm) Benefits — Evidence from Studies

Oxidative stress can impair sperm motility, morphology, and DNA integrity. Ubiquinol supplementation has shown measurable improvements:

  • Increased sperm motility by up to 26 % [8].
  • Higher sperm counts by up to 53 % [8].
  • Improved sperm morphology by up to 19 % [9].

Pharmacokinetics & Bioavailability

  • Ubiquinol is more bioavailable than ubiquinone in comparative studies [10].
  • A controlled comparison study found ubiquinol to be 70 % more bioavailable than conventional ubiquinone in healthy subjects [13].
  • Supplementation of 200 mg ubiquinol increased circulating levels 5–8 fold after 30 days in healthy adults [11].
  • It requires no further conversion in the body, unlike ubiquinone [4].
  • Animal studies show that ubiquinol is absorbed intact via the small intestine [12].

Limitations & Future Directions

While these findings are promising, more large-scale, long-term studies are needed to confirm:

  • Effects on live birth and conception rates.
  • Impact across different age groups and fertility diagnoses.
  • Optimal dosage and duration for both men and women.

Kaneka Ubiquinol offers promising support for reproductive health in both women and men during preconception, thanks to its enhanced bioavailability and mitochondrial benefits. While not a replacement for medical fertility care, ubiquinol supplementation may be a valuable adjunct in optimising reproductive outcomes [1–13].

References

  1. Kaneka Nutrients. Ubiquinol accounts for up to 95 % of cellular energy production. Source
  2. Kaneka Nutrients. Decline of ubiquinol production with age. Source
  3. Kaneka Nutrients. Antioxidant role in mitochondrial membranes. Source
  4. Kaneka Nutrients. Ubiquinol does not require conversion. Source
  5. Kaneka Nutrients. Oocyte mitochondria and oxidative stress. Source
  6. Kaneka Nutrients. Mitigating ROS damage to eggs. Source
  7. Xu Y, et al. Pretreatment with coenzyme Q10 improved ovarian response and embryo quality in low-prognosis young women with decreased ovarian reserve. Journal of Assisted Reproduction and Genetics. 2018.
  8. Safarinejad MR. Effects of Coenzyme Q10 supplementation on sperm motility and count. Journal of Urology. 2009.
  9. Gvozdjáková A, et al. Ubiquinol supplementation and sperm morphology. Reproductive BioMedicine Online. 2015.
  10. Mabuchi H, et al. Comparative absorption of ubiquinol vs ubiquinone. Biofactors. 2007.
  11. Langsjoen PH, et al. Plasma CoQ10 response to ubiquinol supplementation. Biofactors. 2008.
  12. Yamashita S, Yamamoto Y. Intestinal absorption of ubiquinol and ubiquinone in mice. FEBS Letters. 1997.
  13. Langsjoen PH, Langsjoen AM. Comparison study of plasma coenzyme Q10 levels in healthy subjects supplemented with ubiquinol versus ubiquinone. Clinical Pharmacology in Drug Development. 2014;3(1):13–17.

*This blog summarises research for informational purposes only and does not substitute medical advice.

Further reading

  • Debunking Five Common Fertility Myths

    Debunking Five Common Fertility Myths

  • Choline For Fertility

    Choline For Fertility

  • Thyroid Health and Fertility

    Thyroid Health and Fertility

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