In the pursuit of overall well-being and longevity, females must pay special attention to the health of their reproductive system. Ovaries are frequently given cursory attention or overlooked in discussions about enhancing healthspan and lifespan. Proper ovarian function is handled and studied typically as an isolated issue in regards to fertility. But it is important to remember, all of your organs and systems work together for your vitality. The ovaries are an integral part of every female’s long-term health as these crucial organs play a pivotal role in reproductive function and hormonal balance, two markers of youthful vitality.
So, what is key to keeping your ovarian function youthful? While various factors influence ovarian health, one key aspect is the role of mitochondria—the powerhouse of the cell. Mitochondria are abundant in the ovaries, responsible for energy production and DNA repair, making their optimal function vital for overall ovarian health.
In this blog, I will explore the intricate relationship between nutrition, mitochondrial health, and ovarian function, providing studies to reference and practical recommendations for women seeking to both enhance their fertility and include ovarian health in their longevity-focused protocol.
How Should Properly Functioning Ovaries Work?
The ovaries are essential organs in the female reproductive system responsible for producing eggs (oocytes) and female sex hormones, primarily estrogen and progesterone. Each ovary is located on either side of the uterus and is connected to the fallopian tubes, which transport eggs from the ovaries to the uterus.
The ovaries consist of several structures, including follicles, which are fluid-filled sacs that contain immature eggs. During each menstrual cycle, a group of follicles begins to develop in response to hormonal signals from the brain. Eventually, one dominant follicle matures and releases a mature egg through a process called ovulation. The remaining follicles either regress or become cysts.
Healthy ovarian function relies on a delicate balance of hormones and proper communication between the ovaries and other parts of the reproductive system. Hormonal fluctuations throughout the menstrual cycle, regulated by the hypothalamus, pituitary gland, and ovaries themselves, control the development and release of eggs and prepare the uterine lining for potential pregnancy. Healthy ovaries also play a role in maintaining overall hormonal balance, which influences various aspects of women’s health, including menstruation, fertility, bone health, and cardiovascular health.
Health Issues Linked To Poor Ovarian Health
In humans, female fertility typically declines between the ages of 32-37, corresponding to decreases in the quality of oocytes (egg cells). Despite ongoing research, there is still a lack of comprehensive understanding regarding the cellular changes that occur in the aging ovary, particularly in identifying early factors contributing to ovarian decline.
Poor ovarian function is associated with hormonal imbalances and diminished fertility, as well as issues like PCOS and endometriosis. In terms of longevity, the ovaries are linked to major health concerns like degenerative brain function and metabolic disorders. Estrogen, in particular, has neuroprotective effects and is involved in various brain functions, including memory, mood regulation, and neuroplasticity. Here are other health issues linked to ovarian health.
- Infertility
- Menstrual irregularities
- Premature menopause
- Decreased quantity and lower quality eggs
- Mood swings, hot flashes, and changes in libido
- Osteoporosis from reduced estrogen levels
- Cardiovascular disease from reduced estrogen levels
- High stress, anxiety, or depression from hormonal fluctuations
- Increased risk of certain cancers
Ongoing research, along with a few informative recent studies, have pinpointed optimizing cellular health as a way to heal the ovaries and the associated issues.
Understanding the Role of Mitochondria in Ovarian Health
Mitochondria are not only vital for cellular energy production, but also play a crucial role in maintaining ovarian function and fertility. The ovaries contain a high concentration of mitochondria, and these mitochondria are significant in supporting follicle development, oocyte maturation, and hormone synthesis.
With ovarian health being a huge concern for women wanting to have children later in life and unable, and even some in their 20’s and early 30’s, early ovarian aging is often deemed a root cause. Nearly 20% of patients seeking infertility treatment exhibit signs of premature ovarian aging. As modern society trends towards delayed childbearing, age-related ovarian dysfunction becomes more prevalent, posing challenges for assisted reproductive technology and increasing economic, medical, and societal costs associated with fertility treatments.
Ovarian aging is not only associated with a decline in fertility and dysregulation of hormonal signaling, but also may lead to increased susceptibility to chronic diseases. These effects begin to manifest before complete depletion of ovarian follicles, emphasizing the importance of understanding early drivers of ovarian decline.
Mitochondria, the powerhouse of the cell, are central to follicular atresia (degeneration) and are believed to be a primary target of factors within the oocyte that influence oocyte quality, particularly affected by aging. The oocyte, being rich in mitochondria, heavily relies on these organelles for fertilization competency and early embryonic development. Additionally, the oocyte is responsible for the transmission and stability of the mitochondrial genome across generations. Mitochondrial biogenesis, the process of generating new mitochondria, is identified as crucial during oogenesis (egg development) to ensure normal early embryonic development by providing the necessary energy for cellular processes. Proper regulation of mitochondrial biogenesis is essential to maintain optimal mitochondrial function and support the energetic demands of developing oocytes and early embryos. Furthermore, ovarian aging affects the dynamic nature of mitochondrial biogenesis in surrounding granulosa cells, potentially serving as alternative biomarkers of oocyte quality.
Increased epigenetic age acceleration in blood is significantly associated with earlier menopause and bilateral oophorectomy (removal of both ovaries). This suggests that women who experience menopause earlier exhibit accelerated aging at the epigenetic level in their blood.
Nutritional Strategies for Supporting Mitochondrial Health
Great news! The nutrients you consume can help create thriving, fertile, minimally inflamed, properly functioning, balanced cells and systems. Specific macro and micro nutrients may be crucial in improving mitochondrial protection and function for healthy ovaries.
- Amino acids from protein. Try Love My Aminos.
- L-Arginine: This amino acid promotes nitric oxide production, enhancing blood flow to the ovaries and supporting follicle development. Incorporate arginine-rich foods such as nuts, seeds, and legumes into your diet or consider supplementation.
- L-Carnitine: L-Carnitine aids in fatty acid metabolism and energy production within the cell, supporting ovarian function and egg quality.
- Healthy fats in avocados, nuts, seeds, and olive oil. These fats provide anti-inflammatory support and help maintain the integrity of mitochondrial membranes.
- Vitamin D: Adequate vitamin D levels are essential for ovarian function and fertility. Consider supplementing with my potent combo of vitamin D + vitamin K in Ultimate D. And incorporate vitamin D-rich foods such as fatty fish, liver, and fortified dairy products into your diet.
- Antioxidants that support energy production, protect from oxidative stress, and promote mitochondrial biogenesis may be regenerative for ovarian health.
- Alpha-lipoic acid supports energy production. Try Be My Berberine or Maximize My Mito.
- Coenzyme Q10 (CoQ10) supports ATP production and mitochondrial function. Consider supplementing with CoQ10, particularly in the ubiquinol form, to support ovarian reserve and enhance egg quality.
- Glutathione helps boost your glutathione levels. Consider supplementing with Optimize Me NAC.
- Cruciferous vegetables: such as cauliflower, cabbage, broccoli, or Brussels sprouts
- Sulfur-rich foods: such as nuts, seeds, whole grains, leafy greens, legumes, and others
- Non-Starchy vegetables for essential vitamins, minerals, and phytonutrients that support ovarian health.
You may also consider implementing intermittent fasting or time-restricted eating to promote mitochondrial health and reduce oxidative stress. Limiting your eating window to 8 hours daily can help minimize mitochondrial free radical production and support overall cellular function.
In Conclusion…
Optimizing nutrition is a powerful tool for supporting long-term ovarian health and enhancing fertility. By prioritizing nutrient-dense foods, supporting mitochondrial function, and incorporating key supplements, women can take proactive steps towards promoting reproductive vitality and overall well-being.
Remember, every bite you take is an opportunity to nourish your body and support the intricate biological processes that contribute to ovarian health and longevity. Let us embrace the power of nutrition as we embark on a journey towards vibrant health and vitality!