I have a sense when 5 G is released this blog will be the most important one people will search for. Why? It has most of the key mito-hacks that one will need to consider to offset electromagnetic diseases linked to 5G exposure.
Blood is a magnetohydrodynamic fluid. What does this mean to the 'mitochondria'?? Oxygenated blood is repelled by magnets. This means oxygenated blood is diamagnetic within the hemoglobin molecule.

Diamagnetic materials are repelled by a magnetic field; an applied magnetic field creates an induced magnetic field in them in the opposite direction, causing a repulsive force. You saw this visually above. Water is a diamagnetic material. It makes up 93% of blood. Superconductors are considered perfect diamagnets (χv = −1), because they expel all fields (except in a thin surface layer) due to the Meissner effect. When water 'gains the ability' to absorb more electric or magnetic flux from sunlight it becomes like a superconductor. This helps man when he steps barefooted on Earth and when his surfaces are exposed to the sun. The result is always seen in the shape of the curve of his cortisol and melatonin curves on an adrenal stress index.
People in medicine now know that children have an innate advantage to remain healthy and young because their blood is MORE magnetically sensitive to sunlight and to a connection with the planet. This makes it more able to bond to oxygen and deliver oxygen to mitochondria. This is the basis of all parabiotic studies. Blood transfusions from younger people are beneficial for oxygen delivery. These abilities are linked to size and shape changes in red blood cells (RBCs) that have specific names tied to altered cell membrane changes.
Shape variations of RBCs are known to occur upon exposure to various drugs (MB) or under diseased conditions. The commonly observed shapes are called discocytic, echinocytic, and stomatocytic.
Echinocytes in human biology, refer to a form of red blood cell that has an abnormal cell membrane characterized by many small, evenly spaced thorny projections as the arrows below show.

Echinocytes in human biology and medicine, refer to a form of red blood cell that has an abnormal cell membrane characterized by many small, evenly spaced thorny projections. The liver is the organ Dr. Doug Wallace has likened to the sun inside the human system because it is a giant hydrogen fuel source. Echinocytes are found in hyperlipidemia caused by liver dysfunction because the lipids themselves do not integrate into the membrane. It appears the electromagnetic footprint of the environment is magnetically stored in the HDL/LDL level of the blood plasma. High HDL levels tell us that our liver and blood can harness more magnetic flux from the sun via the sun by way of the skin and eyes. IT appears that cell surface receptors on the red blood cells bind with HDL cholesterol which induces the shape change of echinocytes.
These cells have been also shown to develop in vivo during human hemodialysis. They disappear immediately at the end of the procedure. The level of echinocytosis appeared to be related to the increase in blood viscosity that occurs during hemodialysis. This tells us that dialysis at its core is an electromagnetic treatment. Most nephrologists appear to be unaware of this. A quantum clinician should be aware of it. Dialysis might be a key treatment in a 5G world. Adding a teenager's blood during the treatment will extend the effect.

The formation of echinocytes is seriously determined by electric field pulses from the environment. Why do I have a deep disdain for Tesla? AC currents are devastating to blood cells and this is why the power grid exposures are linked to so many leukemia’s and lymphoma's. This was the basis of Dr. Judy Wertheimer's studies in Denver in the 1970s mentioned in Dr. Becker's books. Alternating electric current produces modifications in the membranes of red blood cells, attributed to a higher permeability to water and a decreased tonicity, leading to the transformation into echinocytes. This is why excessive use of salt, and DDW water might be a key strategy in a 5G world to help the quantum biology in your blood with disease and clotting.

The discocytic RBCs can be transformed into echinocytic or stomatocytic shapes under different electromagnetic conditions in the environment. This has huge implications to the quantum clinician. We can see the evidence of redox changes in mitochondria in patients by knowing what to look for in their RBC morphology. This is evidence of a change in their redox potential and the zeta potential in their blood. Right now only dark field microscopy has made a presence in medicine, but this is a very crude way to tell the clinician about changes in the viscosity of blood and changes in the electromagnetic potential of platelets and RBCs in the circulatory system. There is a better way to examine blood that I believe will become imperative in a 5G blue-lit world. The use of Raman spectroscopy will become very popular in future virtual private hospitals run by quantum clinicians because of the information in this blog.
The Raman spectra of the three major shape variations, namely discocyte, echinocyte, and stomatocyte, of RBCs were studied while subjecting the cells to oxygenated and deoxygenated conditions. Analysis of the recorded spectra I've examined has suggested to me that an increased level of hemoglobin (Hb)-oxygen affinity is present for the echinocytic RBCs. Also, some level of Hb degradation can be noticed for the deoxygenated echinocytes that develop in an environment with high power density. The effects may arise from a reduced level of intracellular adenosine triphosphate in echinocytic cells and an increased fraction of submembrane Hb. This tells us that electromagnetic power density is sensed via our blood cells and water in our blood.
Metabolism in a tissue creates a change in the magnetic flux in tissues. This is the quantum clue that blood uses to operate in us to bring sunlight and oxygen to mitochondria struggling to breathe. As the metabolic rate rises more oxygen is needed and the ATPase must spin fastest. This means oxygen tensions and deuterium fractions in the mitochondrial matrix are quantized to solar exposure of our skin and eyes. This metabolic increase in our tissues will require additional oxygen. Therefore, there will be an increase in oxygenated blood flow (oxyhemoglobin) to the local brain area that is active. Oxyhemoglobin differs in its magnetic properties from deoxyhemoglobin. Oxyhemoglobin is diamagnetic like water and cellular tissue. It seeks out mitochondria with lower magnetic strength. This means the ATPase Fo head is not spinning enough to make enough ATP. This lowers the P/O ratio and draws oxygen-rich blood to tissues with diminished mitochondrial function.
These mitochondria would be described as pseudohypoxic. Pseudohypoxia is a phenomenon that expands in natural aging as mitochondrial function declines. As this happens NAD+ decreases compared to NADH levels at cytochrome 1 because not enough protons are being moved from the matrix to the outer membrane space in mitochondria as the Fo head spin rate slows for any reason (ie: deuterium fractions increase). De-oxygenated blood attracts the magnet. The oxidation state of oxidation state or iron actually determines this. This means that oxygen transport in humans is functionally an electromagnetic quantum phenomenon. This means that de-oxy hemoglobin is more paramagnetic in blood returning to the heart. As blood loses its electromagnetic capabilities the results are seen in our arterial walls and the levels of nitric oxide we release.

Ask yourself why nature would build a life this way. Where are the magnets to draw venous-like blood? Those magnetic fields are in the mitochondria of the heart. Most mitochondria in any tissue are located in the heart. The second most common density is found in the brain. Oxygen comes to us from our lungs. Oxygen is a paramagnetic atom on the periodic table. The reason that it is paramagnetic is because the oxygen molecule has two unpaired electrons in its valence shell. This means de-oxy blood has this atomic arrangement in hemoglobin. Electrons not only go around the atom in their orbitals, they also spin (quantum spin), which creates a magnetic field. Unpaired electrons spin in the same direction as each other, which increases the magnetic field effect. We use this effect in neurosurgery when we use a test called BOLD for functional MRI scanning. BOLD is a contrast we use to develop proton images in MRI. Deoxyhemoglobin is due to 4 unpaired electrons at each iron center.

The presence of paramagnetic deoxyhemoglobin within red blood cells creates local magnetic field distortions (susceptibility gradients) in and around blood vessels that create electric and magnetic fields within the blood vessel to provide an electromagnetic stimulus that precedes physiologic changes in the circulatory system. As the cell membrane changes in RBC so does the quantum actions in the pi-electron cloud of DHA in the RBC membrane. This underpins the size and shape changes in RBCs in animals.

SUMMARY
Under physiological conditions, a normal human RBC assumes a biconcave discoid (discocyte) shape ≈8 μm in diameter. It has been known for more than 62 years that a variety of agents can modify this shape systematically and reversibly at constant area and volume.
One set of agents, including anionic amphipaths, high salt, high pH, ATP depletion, cholesterol enrichment, and proximity to a glass surface (hydrophilic), induces a series of crenated shapes, called echinocytes, characterized by convex rounded protrusions or spicules. Under further loading, the spicules become smaller and more numerous and eventually (in a process that we shall not discuss further here) bud off irreversibly, forming extracellular vesicles composed of plasma membrane materials and leaving behind a more or less spherical body with reduced area and volume (the sphero-echinocyte).
Another set of agents, including cationic amphipaths, low salt, low pH, and cholesterol depletion, induces concave shapes called stomatocytes. On further loading, multiple concave invaginations are produced, which eventually bud off to form interior vesicles and leave a sphero-stomatocyte.
This “main sequence” is universal in the animal kingdom in blood in the sense that the shapes seen and their order of appearance do not depend on which echinocytogenic or stomatocytogenic agent is used. Other shapes outside of this main sequence are also seen under certain conditions related to the electromagnetic environment. More than likely these initial electromagnetic changes are likely precursors to methylation changes in DNA and RNA we've now seen in astronauts twins. (Scott Kelly)
CITES:
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2963995/
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2998922/
https://leapsmag.com/anti-aging-pioneer-aubrey-de-grey-people-middle-age-now-fair-chance/
Ponder E., (1948) Hemolysis and Related Phenomena (Grune & Stratton, New York)
Penelope Pappas
2019-03-11 20:04:36 +0000 UTCDr. Jack Kruse
2019-03-03 12:47:44 +0000 UTCPaweł Rein
2019-03-03 09:31:34 +0000 UTCDr. Jack Kruse
2019-01-15 19:43:54 +0000 UTCDawn
2018-03-06 15:36:10 +0000 UTCDr. Jack Kruse
2018-02-20 21:35:44 +0000 UTCJC
2018-02-19 22:08:19 +0000 UTCDr. Jack Kruse
2018-02-16 23:41:40 +0000 UTCLucien Burke
2018-02-16 22:48:44 +0000 UTCDr. Jack Kruse
2018-02-11 20:11:37 +0000 UTCDr. Jack Kruse
2018-02-11 20:11:11 +0000 UTCVal Zimmer
2018-02-10 23:34:39 +0000 UTCDr. Jack Kruse
2018-02-08 22:06:51 +0000 UTCPenelope Pappas
2018-02-08 00:11:21 +0000 UTCDr. Jack Kruse
2018-02-07 20:37:14 +0000 UTCPenelope Pappas
2018-02-07 19:54:37 +0000 UTCPenelope Pappas
2018-02-07 19:54:33 +0000 UTCDr. Jack Kruse
2018-02-07 15:58:05 +0000 UTCDr. Jack Kruse
2018-02-07 15:57:39 +0000 UTCDr. Jack Kruse
2018-02-07 15:53:14 +0000 UTCDr. Jack Kruse
2018-02-07 15:48:09 +0000 UTCDr. Jack Kruse
2018-02-07 15:47:19 +0000 UTCDr. Jack Kruse
2018-02-07 15:46:13 +0000 UTCDr. Jack Kruse
2018-02-07 15:44:35 +0000 UTCDr. Jack Kruse
2018-02-07 15:41:46 +0000 UTC