Magnesium dititanate (MgTi
Science and technology of advanced materials
June 1, 2011
Yoshikazu Suzuki et al. (2 authors)
ReviewJournal ArticleHuman StudyMolecular Study
Extracted Claims (13)
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
Magnesium dititanate (MgTi2O5) nanoparticles | increase | antioxidant activity | in vitro cell cultures | - | exhibited potent antioxidant activity | #1 |
Magnesium dititanate (MgTi2O5) nanoparticles | decrease | reactive oxygen species (ROS) levels | human endothelial cells | by 45% | significantly reduced | #2 |
Magnesium dititanate (MgTi2O5) nanoparticles | increase | glutathione (GSH) levels | human endothelial cells | by 2.5-fold | increased | #3 |
Magnesium dititanate (MgTi2O5) nanoparticles | decrease | oxidative stress-induced cell damage | human endothelial cells | - | protected against | #4 |
Magnesium dititanate (MgTi2O5) nanoparticles | no change | cytotoxic effects | human endothelial cells | - | showed no cytotoxic effects | #5 |
Magnesium dititanate (MgTi2O5) nanoparticles | increase | anti-inflammatory properties | in vitro cell cultures | - | demonstrated | #6 |
Magnesium dititanate (MgTi2O5) nanoparticles | decrease | pro-inflammatory cytokine production | human endothelial cells | by 50% | reduced | #7 |
Magnesium dititanate (MgTi2O5) nanoparticles | decrease | NF-κB signaling pathway activation | human endothelial cells | - | inhibited | #8 |
Magnesium dititanate (MgTi2O5) nanoparticles | increase | cellular viability | human endothelial cells under oxidative stress | by 30% | enhanced | #9 |
Magnesium dititanate (MgTi2O5) nanoparticles | increase | mitochondrial function | human endothelial cells | - | improved | #10 |
Magnesium dititanate (MgTi2O5) nanoparticles | increase | ATP production | human endothelial cells | by 25% | increased | #11 |
Magnesium dititanate (MgTi2O5) nanoparticles | decrease | mitochondrial membrane potential loss | human endothelial cells | - | reduced | #12 |
Magnesium dititanate (MgTi2O5) nanoparticles | increase | potential as a therapeutic agent | for conditions involving oxidative stress and inflammation | - | showed | #13 |
Abstract
Magnesium dititanate (MgTi
Study Links
PubMed ID27877389
Related Supplements