Hormone Balance For Women | Blackstone Labs Harmonize (Can also be used as a PCT for women)
Blackstone Labs Harmonize is a Hormone support supplement formulated specifically for women! The blend of ingredients behind Harmonize help boost Hormone balance, healthy Skin and complexion, weight management, and mood. Harmonize contains ingredients such as Maca Root Powder, Turmeric Root, DHEA, and more that are studied and known for balancing Hormone levels and more, especially Maca and DHEA. So if you're looking for a Hormone support supplement created specifically with women in mind, try Blackstone Labs Harmonize!
Blackstone Labs Harmonize Benefits
- Helps To Balance Out The Hormones
- Helps with Weight Management
- 100% All Natural & Certified Organic
- Easy For On-The-Go Capsule Bottle
- Mood Enhancing Formula Overall
- Boosts Skin/Complexion Health
- Helps Increase Libido Over Time
How Do I Take Blackstone Labs Harmonize?
Blackstone Labs recommends taking (4) Capsules daily upon waking up, or 15-20 minutes before engaging in Sexual activity. Do not exceed four (4) Capsules daily.
If you are using this as a PCT after your prohormone cycle, take as directed starting the day after your prohormone cycle has ended. Take Harmonize for one month. Learn more about Harmonize for prohormone use.
Blackstone Labs Harmonize Ingredients
Blackstone Labs Harmonize Side Effects & Warnings
Keep out of reach of children. For use by healthy adults only, not recommended for persons under the age of 18. Do not use if you are pregnant or nursing. Seek advice from a Healthcare Professional if you have any preexisting medical condition to ensure it is safe to take this product.
Brooks NA, Wilcox G, Walker KZ, Ashton JF, Cox MB, Stojanovska L. - Beneficial effects of Lepidium meyenii (Maca) on psychological symptoms and measures of sexual dysfunction in postmenopausal women are not related to estrogen or androgen content. 2008.
Kwon M, Jung J, Yu H, Lee D. HIDEEP: a systems approach to predict hormone impacts on drug efficacy based on effect paths. Sci Rep. 2017;7(1):16600. Published 2017 Nov 30. doi:10.1038/s41598-017-16855-8