Why Ovulation Matters: From Fertility to Lifelong Health
~2 minute read
If you're trying to conceive, ovulation is essential. Without ovulation, natural pregnancy cannot occur. It's no surprise that many women only start thinking about ovulation when they're trying for a baby.
But that's only part of the story.
Whether you're trying to conceive, simply living with a monthly cycle that sometimes feels more like an inconvenience than a blessing, or navigating perimenopause and looking for ways to support your long-term health, ovulation remains an important part of your biology.
Ovulation isn't only about getting pregnant. Research has shown that it matters for fertility, progesterone production and bone health, while large population studies have associated a longer reproductive lifespan with lower risks of cardiovascular disease, dementia and better long-term health outcomes. Researchers are now investigating the biological mechanisms behind these associations.
In this article, we'll look at what science already knows, what researchers are still exploring, and where exercise—and the Aviva Method—fit into the picture.
Key Takeaways
Ovulation is essential for natural conception.
When it comes to ovulation, more isn't always better. Research suggests that moderate exercise may support healthy ovulatory function, while excessive training—particularly when combined with inadequate energy intake—can interfere with normal ovulation in some women.
The Aviva Method is a moderate-intensity movement programme designed specifically for women's reproductive and pelvic health. That's why many women choose to practise it throughout different stages of life—from trying to conceive to supporting their reproductive health and navigating perimenopause.
Ovulation triggers your body's natural production of progesterone.
Healthy ovulatory cycles contribute to normal bone health.
Large population studies have associated a longer reproductive lifespan with lower risks of cardiovascular disease, dementia and better long-term health outcomes. Researchers are investigating the biological mechanisms behind these associations.