DIM + I3C by Seeking Health provides a concentrated blend of naturally derived compounds found in cruciferous vegetables like broccoli and cabbage — formulated to support normal estrogen metabolism, cellular integrity, and liver function.
This broad-spectrum formula combines diindolylmethane (DIM) and indole-3-carbinol (I3C), delivering comprehensive support for hormone metabolism and overall well-being.
Potential Benefits
- Contributes to normal estrogen metabolism
- Supports cellular function and overall vitality
- Helps maintain normal liver function
- Provides antioxidant protection with added PQQ (Pyrroloquinoline quinone)
- Completes a balanced diet and healthy lifestyle
How It Works
Cruciferous vegetables are rich in blends such as I3C and DIM, which play a natural role in hormone metabolism and cellular protection.
When digested, I3C converts into DIM, supporting the body’s natural ability to maintain balance within estrogen metabolism pathways.
This formula provides a broad spectrum of mixtures to more closely resemble the complex nutritional profile found in whole vegetables — offering nutritional support for hormonal and cellular balance without altering the body’s natural hormone production.
Key Ingredients & Features
- Indole-3-Carbinol (I3C) – A naturally occurring compound found in cruciferous vegetables that supports normal hormone metabolism.
- Diindolylmethane (DIM) – A metabolite of I3C that provides synergistic support for healthy metabolic pathways.
- Pyrroloquinoline Quinone (PQQ) – Acts as an antioxidant, helping protect cells from oxidative stress and supporting overall vitality.
Together, these nutrients promote balanced hormone metabolism and liver function, especially when combined with a nutrient-rich diet and healthy lifestyle.
Who It’s For
DIM + I3C is ideal for adults who:
- Wish to support natural hormone metabolism and overall balance
- Follow a diet low in cruciferous vegetables
- Want to maintain cellular health and antioxidant defense
- Are looking for nutritional support for normal liver and metabolic processes
