Bulk/Bottle Diindolylmethane Capsule DIM Capsule CAS 1968-05-4
Products Description
DIM (Diindolylmethane) is naturally synthesized in the body from a compound known as indole-3-carbinol, which is found in cruciferous vegetables such as cauliflower, cabbage, and broccoli. Research has found that DIM acts as a mild aromatase inhibitor helping to reduce the rate at which testosterone is aromatized into estrogen and thus to support a healthy balance of testosterone and estrogen.
Basic analysis
Item |
Specification |
Results |
Method |
Active Ingredients (Each 1 Capsule Contains) |
|||
DlM (Diindolyimethane) |
200 mg |
206 mg |
HPLC |
Microbial Analysis |
|||
Total Plate Count |
<1,000 CFU/g |
<1,000 CFU/g |
LAB200 |
Coliforms |
< 10 CFU/g |
< 10 CFU/g |
LAB200 |
Yeast & Mold |
< 100 CFU/g |
< 100 CFU/g |
LAB200 |
E. Coli |
Absent10g |
Absent10g |
LAB200 |
Salmonella |
Absent/10g |
Absent/10g |
LAB200 |
Staphylococcus aureus |
Absent/10g |
Absent/10g |
LAB200 |
Heavy Metal Analysis |
|||
Arsenic |
<10 mcg/serving |
<0.100 mcg/svg |
ICP-MS |
Cadmium |
<4.1 mcg/serving |
<0.100 mcg/svg |
ICP-MS |
Mercury |
<2.0 mcg/serving |
<0.100 mcg/svg |
ICP-MS |
Lead |
<0.5 mcg/serving |
<0.100 mcg/svg |
ICP-MS |
Function
- DIM ESTROGEN BLOCKER FOR MEN AND WOMEN: By inhibiting the enzyme aromatase, which is responsible for converting testosterone into estrogen, DIM supplements help support healthy levels of estrogen in both men and women
- HORMONAL ACNE TREATMENT: Hormonal acne results from an imbalance of testosterone and estrogens. DIM may help maintain this balance by blocking androgen pathways to help reduce hormonal acne. DIM is one of the top hormonal acne supplements for both men and women
- NOT JUST FOR WOMEN: Men can also benefit from supplementing with DIM. DIM can also help block abnormally high levels of estrogen in men
Recommended Usage
As a supplement for hormonal balance, we recommend taking 1-2 capsules (200 – 400 mg) per day with or without food. We do not recommend exceeding the recommended dosage as side effects are more likely at higher doses.