1. Pathology
1.1. Damage to capillaries
1.2. ROS Superoxide
1.2.1. Oxidative Therapy
1.2.1.1. Ozone
1.2.1.2. Successful in Spain
1.2.2. Glutathione
1.2.2.1. Converts superoxide to water
1.2.2.2. Can be reset
1.2.2.2.1. Lipoid acid
1.2.2.2.2. Other antioxidants
1.2.2.3. Low values associated with severity
1.2.2.4. We will
1.2.3. Lipoic Acid
1.2.3.1. Reduces glutathione
1.2.3.2. Number one deficiency
2. Vitamin E
3. Reduce Viral replication
4. Pro-Inflammatory AT II Increased
4.1. Damage to membranes
5. Viral Load
5.1. Increases ROS
6. AT 1,7 Decreased
7. Dr Horowitz
7.1. No clinical trials
7.2. Causes Von Willebrand factor to increase causing capillary clotting
7.3. Case Study Pubmed
7.3.1. Remdesivir
8. Binds to ACE Receptor
9. upregulaters ROS production
9.1. Main cause of patholoy
10. UV blood irradiation
10.1. Works in the early viral reproduction stage
11. Hyrdoxychloroquine
12. Has heart issues in many patients
12.1. glutathione
13. Dose by Weight
13.1. Dose once weekly
14. covid19criticalcare.com
15. Ivermectin
15.1. Multiple Studies
16. Controlled by Antioxidant System
16.1. NAC
17. induces inflammatory cytokines
18. Lipoic Acid 500 mg
19. Vitamin C
20. MAH major autohemotherapy
21. Treatment
21.1. Reduce Oxidative Stress
21.1.1. Works Rapidly within 24 hours
21.1.1.1. Glutathione
21.1.1.2. Hydrogen Peroxide IV
21.1.1.2.1. Using in flu pandemic of 1918
21.1.1.3. Agents
21.1.1.3.1. Lipoic Acid
21.1.1.4. NAC
21.1.1.5. IV therapy
21.1.1.5.1. Vitamin C
21.1.1.5.2. thousands of peer reviewed studies done
21.1.1.5.3. Safe
21.1.1.5.4. Our IV Protocol
21.1.1.5.5. Used early
21.1.2. Symptomatic if ROS exceeds anti-oxidant capacitiy
21.2. Inhaler therapy
21.2.1. Agents
21.2.1.1. lipoic acid
21.2.1.2. Japan
21.2.2. Successful
21.2.2.1. Taiwan