KoACT® is a patented chelated compound of calcium and hydrolyzed collagen peptides (collagen I) that was shown to increase bone mineral density and bone strength in a Tokyo university animal study. The KoACT® results were significantly better than calcium or a simple mixture of calcium and collagen.

The Tokyo University of Agriculture and Technology examined the effect of KoACT® on bone mineral density and bone strength using the osteoporosis rat model.

Major Results

A. Effects of KoACT® on Bone Mineral Density (BMD)

The KoACT® dosage group increased bone mineral density (BMD) by approximately 3.5% as compared to the Control Ca group fed the same amount of calcium. The KoACT® 10X dosage group increased BMD by 11.1% as compared to Control Ca group.

The HC group (hydrolyzed collagen mixed with calcium that has not been reacted and is in the form of CaCO3 ) did not increase BMD significantly as compared to the Control Ca group.


B. Effects of KoACT® on Bone Strength

The KoACT® group increased femur bone strength by about 9.9% as compared to the Control Ca group fed the same amount of calcium (Ovx Control Ca). KoACT® 10X group increased BMD by 25% as compared to the Control Ca group. The HC group, which contains the same amount of calcium and collagen as the KoACT® group, showed no increase in femur bone strength compared to the Control Ca group.

Conclusion

The study has shown that KoACT® dose-dependently increased femur bone strength and bone mineral density in this animal model of osteoporosis. KoACT® can provide an additive effect on femur bone strength and bone mineral density from its unique calcium and hydrolyzed collagen composition. This unique property of KoACT® is not observed with calcium alone (the Control Ca group) or a simple calcium and collagen mixture (the HC group).

For more information about this study or on-going KoACT® research please contact AIDP.

*These statements have not been evaluated by the Food and Drug Administration. This product is not intended to diagnose, treat, cure or prevent any disease.