DNA Hormone

DNA Hormone

The estrogen hormone is present in both women and men, although its level is higher in women and is also referred to as the “female hormone.” Its deficiency or excess can affect health. Therefore, maintaining the balance of estrogen hormone in the body is crucial for both women and men’s health. The estrogen hormone, which is vital for regulating the reproductive system in women, also affects various aspects of health, such as bone health, hair and skin health, heart and vascular diseases, and sexual health.

Studies have shown that the duration of exposure to estrogen is a significant risk factor for the development of breast cancer. Variations in certain genes help identify individuals who are exposed to estrogen, estrogen metabolites, and other carcinogens throughout their lifetime. The dnaOestrogen test analyzes genes that influence how estrogen is metabolized, guiding women with estrogen-related sensitivities, including the management of breast cancer risk. It also provides guidance on necessary changes in diet and lifestyle.

dnaOestrogen provides genetic analysis in the following areas:

  • Phase 1 detoxification
  • Phase 2 detoxification
  • Oxidative stress
  • Personal risk factors associated with HRT, oral contraceptives, bioidentical supplements, and in vitro fertilization
  • Risk management strategies for individuals at risk

Managing Estrogen Metabolism with dnaOestrogen

The dnaOestrogen test analyzes an individual’s genetic profile in estrogen metabolism, identifying necessary changes in diet and lifestyle and guiding hormone interventions. It reveals potential deficiencies in estrogen detoxification due to genetic variations and offers personalized support recommendations.

Estrogen metabolism and function are critically important for both men and women. The dnaOestrogen test provides guidance on nutrition, lifestyle, and hormone interventions by analyzing estrogen metabolism and detoxification.

Areas Analyzed by the dnaOestrogen Test:

  • Oxidative stress: Oxidative stress is a leading cause of bone loss. Studies have shown that a decrease in estrogen levels leads to the accumulation of reactive oxygen species in cells, suppresses the antioxidant defense system, and initiates osteoclast activation, resulting in bone resorption.
  • Detoxification: Besides being a hormone, estrogen also serves as an antioxidant that protects bone tissue against oxidative reactions. Research suggests that decreased levels of certain antioxidant molecules are associated with osteoporosis and bone loss.
  • Methylation: DNA methylation is one of the fundamental epigenetic mechanisms. Analyzing methylation has facilitated the discovery of its various roles, particularly in relation to diseases. Chemical changes in DNA can underlie many diseases, and analyzing DNA methylation contributes to understanding the pathogenesis of these diseases.

The dnaOestrogen test analyzes scientifically proven and significant genes in the following areas:

  • Metabolism
  • Detoxification
  • Inflammation
  • Oxidative stress
  • Methylation