TAILIEUCHUNG - The Electrical Properties of Cancer Cells

This updated edition of Improving Outcomes in Breast Cancer is based on the Manual published by the Department of Health in 1996. Additional material, based on recent reviews of research evidence and discussions by a reconstituted Editorial Group, has been inserted in a larger font size (12 point as opposed to 10 point) so that it can be distinguished from earlier text. In the original guidance references were given at the end of each section, these have been retained in this document. For the updated material footnotes have been used throughout the text to avoid confusion | http The Electrical Properties of Cancer Cells By Steve Haltiwanger . . Sections 1. Introduction 2. Electricity charge carriers and electrical properties of cells. 3. Cellular electrical properties and electromagnetic fields EMF . 4. Attunement. 5. More details about the electrical roles of membranes and mitochondria. 6. What structures are involved in cancerous transformation 7. Electronic roles of the cell membrane and the electrical charge of cell surface coats. 8. Cells actually have a number of discrete electrical zones. 9. The electrical properties of cancer cells part 1. 10. The electrical properties of cancer cells part 2. 11. Anatomical concepts The intravascular space and its components The cell membrane covering of cells and the attached glycocalyx Chemical and anatomical roles of the cell membrane. The extracellular space and the components of the extracellular matrix ECM connect to the cytoskeleton of the cells The electronic functions of the cells and the ECM are involved in healing and tissue regeneration. The ECM-glycocalyx-membrane interface The intracellular space 12. Signaling mechanisms may be either chemically or resonantly mediated. 13. Resonance communication mechanisms. 14. The Bioelectrical control system. 15. Electrical properties of the ECM 16. Pathology of the ECM. 17. Mineral and water abnormalities in cancerous and injured tissues sodium potassium magnesium and calcium their effect on cell membrane potential. 18. Tumor cell differentiation tumor hypoxia and low cellular pH can affect gene expression genetic stability genetic repair protein structures protein activity intracellular mineral concentrations and types of metabolic pathways used for energy production. 19. Tumor cells express several adaptations in order to sustain their sugar addiction and metabolic strategies to address this issue. 20. Tumor acidification versus tumor alkalization. 21. The pH of the intracellular and extracellular

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