Warburg effect-damping of electromagnetic oscillations

Abstract

Overview

Mitochondrial dysfunction is a central defect in cells leading to the Warburg and reverse Warburg effect cancers. The connection between mitochondrial dysfunction and cancer development is yet to be fully elucidated.

Findings

• Decrease of mitochondrial oxidative energy production by approximately 50% in cancer cells compared to healthy cells.
• Possible causes include inhibition of pyruvate transfer into the mitochondrial matrix and disturbed H+ ion transfer.
• Lowering of the mitochondrial inner membrane potential and pH shifts lead to reorganization of the water layer at the membrane.
• This reorganized water layer releases electrons, thereby damping the electromagnetic activity of cancer cells.

Conclusion

Electromagnetic activity in Warburg effect cancer cells and associated fibroblasts in reverse Warburg effect cancer cells is reduced, leading to a disturbance in coherence and an increase in oscillation frequency, ultimately reducing the level of biological functions.