Vincent: A “please” would be nice.
Winston Wolf: Come again?
Vincent: I said a “please” would be nice.
Winston Wolf: Get it straight, Buster. I’m not here to say “please”. I’m here to tell you what to do. And if self-preservation is an instinct you possess, you better fucking do it and do it quick. I’m here to help. If my help’s not appreciated, lots of luck, gentlemen.
Jules: No no, Mr. Wolfe, it’s not like that. Your help is definitely appreciated.
Vincent: Look, Mr. Wolfe, I respect you. I just don’t like people barking orders at me, that’s all.
Winston Wolf: If I’m curt with you, it’s because time is a factor. I think fast, I talk fast, and I need you two guys to act fast if you want to get out of this. So pretty please, with sugar on top, clean the fucking car.
From “Pulp Fiction”, by Quentin Tarantino, 1994
(Harvey Keitel as Winston Wolf in “Pulp Fiction”, by Quentin Tarantino, 1994)
THE MECHANISMS BY WHICH MICROWAVE RADIATION DRIVES SCHIZOPHRENIA
Now we’ll dig down into the mechanisms by which microwave radiation drives schizophrenia, or what used to be plainspokenly known in the old days as demonic possession.
We’re going to begin by investigating how microwave radiation interacts with the human nervous system.
The process of evolutionary changes in an organism depends primarily on the fluctuations of the electromagnetic field which surrounds it.
Organisms are normally integrated with their electromagnet environments to a striking degree.
It is changes in a magnetic field (which are often confounded with intensity) which affect living things, rather than the stable intensity of the field. The variance and pattern of geomagnetic fields is as, or more important than their intensity.
I believe that this shows why the data packets going constantly to and fro between the towers and repeaters of our wireless communication systems are so crucial to the efficacy of the great Death energy network which we’re analyzing here.
Humans and every other living system are all extraordinarily sensitive to magnetic fields.
In the human, nuclear magnetic resonance within the body allows it to detect very small magnetic gradients of .3 to .5 oersteds per meter, as demonstrated by the art of “dowsing”, or seeking underground water sources with the assistance of a forked stick.
Low-wavelength microwave radiation interacts directly with neuroelectric processes via intracranial electric fields of about 200 volt/meter, which is identical to that found in nerve cells.
In humans, skeletal muscles generate a magnetic field over the frequency range from 0-300 Hz.
The human brain’s 8 to 13 Hz alpha-rhythm currents generate a fluctuating magnetic field of 1 x10 to the negative ninth power.
Fluctuating magnetic fields from Wi-Fi and other sources of long wavelength microwave radiation are usually far more than 5 x 10 to the negative 4 gauss (rms) in a bandwidth of 0-40 Hz, while the human heart’s field at maximum is 5 x 10 to the negative seventh gauss.
While discussing the harmful nature of the purportedly-harmless non-ionizing radiation from what we collectively refer to as “wireless technology”, it is crucial to mention that oxygen, a paramagnetic molecule, becomes toxic within a magnetic field.
The damage caused by low-intensity electromagnetic radiation is restricted to the microwave range. Some important type of molecule is disrupted through a microwave “resonance” mechanism.
Low-wavelength microwave radiation disturbs nervous function and behavior by inducing transmembrane potentials in nerve cells. The electric field of 200 volts/meter, oscillating at 108 cycles per second, induces a current of about 36 mw/cm2 in the intracellular fluid. If even half of this current penetrates a given nerve cell, a transmembrane potential of about 0~2 mv results, which influences neuroelectric behavior. Higher potentials than this pertain to many well-documented adverse effects of microwave radiation. For a peak intensity of 1000 mw/cm2, the impact increases by a factor of ten.
Microwave radiation exposure causes central nervous system effects, autonomic system effects, psychological disorders, behavioral changes and EEG changes.
The correlations between microwave bioeffects and schizophrenia are extensive.
Studies of microwave bioeffects and schizophrenia show congruent short-term and spatial memory deficit, time estimation changes, deficits in sequencing, coordination deficit, numerous electrophysiologic changes, startle decrease, neurotransmitter changes, hormone alterations, immune alterations, mitochondria deficits, lipid phosphorylation decrease, lipid peroxidation, deleterious histologic change in disease reduced brain areas, activation of hallucination involved brain areas, and ocular disease.
Accidental and/or occupational 1-10GHz excess radar exposure exhibits frontal lobe neuropsychiatric symptoms.
Microwave exposed rats exhibited changes in emotion and integrative function from which parallels to schizophrenia can be drawn.
Thus, microwave radiation drives schizophrenia in both humans and rats.
So, what, specifically, are the mechanisms by which microwave radiation drives schizophrenia?
Microwave radiation drives schizophrenia by:
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increasing delta waves and beta frequencies, making subjects “hear sounds in their heads”. These sounds are referred to as “auditory brain stem responses”
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decreasing Phosphomonesters (lipid building blocks) in the brain, increasing Phosphodiesters (lipid degradation products) in the brain;
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increasing lipid peroxidation in the brain;
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atrophy or shrinking of the brain’s hippocampal-amygdala complex, the hippocampus, hypothalamus and cortex
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deforming and shrinking mitochondria in the hippocampus and hypothalamus;
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shrinking the brain’s prefrontal and parietal lobes by apoptosis via the Fas pathway in Jarkat T cells, degrading higher-order decision making, planning and organizing for the future, and orchestrating the brain’s activity for intelligent regulation of behavior, thought and emotion;
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shrinking or atrophying the thalamus
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neuron degradation in/shrinking of the cerebellum;
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decreasing GABA receptor binding in the cerebellum;
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decreasing serotonin, dopamine and melatonin levels in the brain;
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increasing brain blood flow (acute psychosis and delusion are accompanied by increased global brain blood flow);
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impairing the blood-brain barrier;
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increasing cortisol levels;
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impairing startle response;
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inhibiting galvanic skin response;
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degrading memory for temporal order and spatial working memory;
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degrading time estimation;
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degrading motor competence;
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decreasing aerobic-anaerobic threshold;
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increasing B lymphocyte production in the spleen;
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increasing Tumor Necrosis Factor (TNF) levels in peritoneal macrophages and spleen T cells;
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increasing anti-brain antibodies and reactions to brain antigens;
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increasing Cytokine interleukin-6 (IL-6) levels in the brain/increasing autoimmune disease;
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increasing neurodegenerative diseases which include Parkinsonism, Alzheimers, amyotrophic lateral sclerocis (ALS) and dementia.
1a - INCREASING DELTA WAVES
Schizophrenics have increased delta or slow brain waves.
The corpus callosum connects the two hemispheres of the brain. Microwave radiation increases delta waves by a mechanism known as corpus callous tract fatigue, which takes this vital pathway offline, leading to the corticospinal and spinocortical tract to revert to its predominant delta rhythm. This decreased brain activity leads, in turn, to “abnormal brain area activation”, which is a cover-meme for what was known correctly in the old days as demonic possession.
Delta waves in schizophrenics increase immediately prior to auditory hallucinations.
Hallucinations in schizophrenics show temporal lobe activation in 85% of cases. The temporal lobe sits above the cerebellum.
Hallucinations and paranoia in schizophrenics are accompanied by higher left temporal delta wave dipole density.
Hallucinations in schizophrenics are accompanied by thalamic activity.
Microwave radiation increases delta or slow brain waves in rabbits.
Magnetic fields increase delta or slow brain waves in humans.
Microwave radiation exposure increases delta or slow brain waves in humans.
Cell phones increase delta or slow brain waves in adults and children.
Rats exposed to microwave radiation at 1/3 the strength of the US population exposure standard for seven hours per day had increased delta waves after ten to fifteen days.
Rats exposed to microwave radiation at 1/30th of the strength of the US population exposure standard took one month to begin to produce increased delta waves.
Continuous wave microwave radiation in rats induces delta or slow brain waves in the left hemisphere of their brains.
Modulated microwave radiation in rats induces delta or slow brain waves in the right hemisphere of their brains.
Increased delta brainwave power correlates with psychomotor poverty.
If schizophrenics have increased delta or slow brain waves, and microwave radiation increases delta or slow brain waves, then microwave radiation drives schizophrenia.
1b - INCREASING BETA FREQUENCIES
Schizophrenics have increased beta frequencies which are more anterior and superficial than controls.
Superficial brain tissue is on the surface, just under the skull.
Microwave exposure increases beta frequencies in the rat.
Intermittent long-term occupational exposure to microwaves increases EEG beta frequencies.
Superficial brain tissue absorbs more microwave energy than the deep tissues of the brain. It’s easier for the penetrating microwaves to reach.
Auditory hallucinations in schizophrenics are accompanied by MEG frequencies in the beta band.
Intermittent long-term occupational exposure to microwave radiation increases beta frequencies.
Pulsed microwaves are utilized to make subjects “hear sounds in their heads”. These sounds are referred to as “auditory brain stem responses” or “the hearing effect”.
Auditory brain stem responses in schizophrenics having hallucinations have latent peaks or missing peaks.
Cell phones increase latency in auditory brain stem responses.
If cell phones increase latency in auditory brain stem responses, and brain stem responses in schizophrenics have latent peaks, then cell phones drive schizophrenia.
Acute microwave exposure in rats pulsed for the hearing effect increased brain glucose metabolism, with particular prominence in auditory related structures of the inferior colliculus, and medial geniculate body, as well as the cochlear nucleus and the superior olivary complex within the brain stem or associated structures.
The inferior colliculus is a part of the midbrain that serves as a main auditory (sound) center for the body.
The medial geniculate nucleus (MGN) or medial geniculate body (MGB) is part of the auditory thalamus and represents the thalamic relay between the inferior colliculus (IC) and the auditory cortex (AC).
The cochlear nuclear (CN) complex comprises two cranial nerve nuclei in the human brainstem.
The superior olivary complex (SOC) or superior olive is a collection of brainstem nuclei that is located in pons, functions in multiple aspects of hearing and is an important component of the ascending and descending auditory pathways of the auditory system.
Continuous microwave radiation activates auditory brain structures and elevates hearing threshold.
Perceptual processing is usually lateralized to the left hemisphere of the brain, the dominant hemisphere.
Schizophrenics have fewer increases in blood flow in dominant areas of the brain than controls.
The right hemisphere of the brain, the less-dominant hemisphere, is normally activated for pitch discrimination, non-verbal, and degenerate sounds.
Microwave radiation pulsed for hearing effect is akin to degenerate or non-verbal sound.
Schizophrenics have more increases in blood flow in non-dominant areas of the brain than controls.
If schizophrenics have increased beta frequencies, and intermittent long-term occupational exposure to microwave radiation increases beta frequencies, and hallucinations in schizophrenia occupy the beta band, then pulsed microwave radiation drives hallucinations in schizophrenics.
2. DECREASED LIPID BUILDING BLOCKS/INCREASED LIPID DEGRADATION PRODUCTS
Phosphomonesters, or lipid building blocks, are decreased in schizophrenics.
Phosphodiesters, or lipid degradation products, are increased in schizophrenics.
Microwave exposed rabbits have decreased P32 incorporation into brain lipids.
If schizophrenics have decreased Phosphomonesters, or lipid building blocks, and if schizophrenics have increased Phosphodiesters, or lipid degradation products, and microwave radiation degrades brain lipid production, then microwave radiation drives schizophrenia.
Here we can see how the fats that comprise the brain are broken down by microwave radiation, leading inexorably to the condition which we define as schizophrenia. This also clarifies the cause of the epidemic of Alzheimer’s and Parkinson’s disease which we are currently experiencing.
3. DECREASED LIPID PEROXIDATION
Lipid peroxidation is increased in schizophrenics.
Microwave exposure causes lipid peroxidation, which leads to receptor shedding, decreases in membrane fluidity and readily increased reactive oxygen species.
Magnetic field stabilization of electron triplet increases free radical formation, which drives lipid peroxidation, which react with mono- and polyunsaturated fatty acids that are required for maintaining membrane fluidity and permeability characteristics.
If schizophrenics have increased brain lipid degradation, and microwave radiation creates free radicals and degrades brain lipids, then microwave radiation drives schizophrenia.
4. ATROPHY OR SHRINKING OF THE BRAIN’S HIPPOCAMPUS-AMYGDALA COMPLEX
In 74% of schizophrenics, the hippocampal-amygdala complex is shrunken, reduced in size.
The hippocampus is a limbic structure prominent in schizophrenia pathogenesis.
Psychotic schizophrenics have decreases in acetylcholine and damaged hippocampuses.
Western medicine has hidden demonic possession under the cover-meme “Lewy body Syndrome”, which features a decrease in the α 7-nicotinic acetylcholine receptor in the hippocampal and frontal areas of schizophrenics, which indicates decreased acetylcholine levels.
Cell phone irradiation causes brain atrophy in rats.
Microwave radiation causes brain atrophy mice in vivo in thymocytes.
Rats whose hippocampuses were exposed to purportedly-harmless long wavelength microwave radiation had decreased releases of acetylcholine.
Rats whose hippocampuses were exposed to an extreme amount of long wavelength microwave radiation had decreases in sodium dependent choline uptake, the rate limiting step in hippocampal choline uptake, especially in frontal cortex followed by the striatum on either pulsed or continuous wave, but only pulsation decreased hippocampal choline uptake.
Hamster 15 day microwave exposure shrinks neurons in the hippocampus, hypothalamus and cortex.
Rat GSM cell phone exposures shrinks neurons in the hippocampus, basal ganglia and cortex.
High power microwave radiation causes atrophy in the rat hippocampus.
In 2013 and 2016, researchers discovered Alzheimer’s-specific changes in the brains of rats exposed to EMF pulses. These changes occurred in the hippocampus, a brain region which Alzheimer’s has a destructive impact on.
If the hippocampus is a limbic structure prominent in schizophrenia pathogenesis, and psychotic schizophrenics have decreases in acetylcholine and damaged hippocampuses, and long wavelength microwave radiation decreases acetylcholine and damages your hippocampus, then microwave radiation drives schizophrenia.
If schizophrenics have shrunken/atrophied hippocampal-amygdala complexes, and microwave radiation causes atrophy in the hippocampus, then microwave radiation drives schizophrenia.
5. MITOCHONDRIAL ALTERATIONS IN THE HIPPOCAMPUS AND HYPOTHALAMUS
“Now the red eyes and the light above seemed to bore into Charles, and again the pupils of the little boy’s eyes contracted. When the final point of black was lost in blue he turned away from the red eyes, looked at Meg, and smiled sweetly, but the smile was not Charles Wallaces smile.”
― From “A Wrinkle in Time”, by Madeleine L’Engle, 1962
(IT, from the cover of “A Wrinkle In Time”, by Madeleine L’Engle, 1962)
Mitochondria are deformed and reduced in size and number in the brains of twenty to thirty three percent of those with schizophrenia.
Cytochrome c oxidase, an agent of the mitochondria’s oxidative phorylation system, is 30% to 63% lower in the brains of schizophrenics.
Acute microwave radiation exposure decreases mitochondria matrix density.
Adenosine triphosphate (ATP) and creatine phosphate (CP) levels depend on oxidative phosphorylation, which requires electron transport components of mitochondria cristae.
Acute microwave radiation exposure causes cristae degeneration in vitro for liver cells.
Very brief (5 minute) whole body exposure to microwave radiation significantly decreased rat brain ATP and CP levels.
Mouse hippocampus mitochondrial activity is decreased on microwave exposure.
Three hour microwave exposure decreases mitochondrial marker enzymes of succinate dehydrogenase and monoamine oxidase in the hippocampus and hypothalamus of the mouse.
Microwave radiation creates mitochondrial membrane breaks in neuroblastoma cells.
If schizophrenics have mitochondria which are deformed and reduced in size and number, and Cytochrome c oxidase, an agent of the mitochondria’s oxidative phorylation system, is 30% to 63% lower in the brains of schizophrenics, and microwave radiation exposure decreases mitochondria matrix density, and mouse hippocampus mitochondrial activity is decreased on microwave exposure, then mouse hippocampus mitochondrial activity is decreased on microwave exposure.
In Madeleine L’Engle’s “a Wrinkle In Time”, written in 1962, “Meg and Charles Wallace Murry and their new friend Calvin O’Keefe learn about the “Black Thing”, a cloud of evil that shadows many planets, including Earth. They encounter a Brain named IT, which controls the minds of people. At one point in the story, IT possesses Charles Wallace into evil (who is redeemed through Meg’s love after she comes back to the planet).”
Charles Wallace has blue eyes. Calvin O’Keefe is tall, has orange hair, freckles and blue eyes.
The red hair and blue eyes of the protagonists clearly identify them as members of the distinct and separate species of human which we know as Homo neanderthalensis.
In 2008, sciencedaily.com said “Blue-eyed humans have a single, common ancestor”.
A current article on eupdia says “Neanderthals are believed to have had blue or green eyes, as well as fair skin and light hair.”
Since we know that the highest percentage of Neanderthal DNA (40%) is found in the O haplogroup Eastern Chinese, we can see how this broad generalization hides the Asiatic nature of the Neanderthal behind the latecomer “Europoid” nature of the R1b haplogroup of the race.
In April 2001, the U.K.'s Daily Mail said “The ginger gene revealed”, and goes on to say “They say their discovery points to the (ginger) gene (for red hair - ed) having originated in Neanderthal man.”
It’s true. The mutation for red hair and blue eyes took place just ten thousand years ago, in an Asiatic Neanderthal race whose existence goes back at least 60,000 years. Specifically, in 8,000 B.C., Adam and the she-demon Lilith produced the red-haired, blue-eyed R1b haplogroup “Line of Cain”.
When Cain killed and ate his Homo sapiens half-brother, he became the namesake of the Neanderthal rituals of human sacrifice and cannibalism.
Charles Wallace’s possession by IT describes schizophrenia. Schizophrenia is a modern cover-meme to obscure what used to be correctly known in the old days as “demonic possession”.
Schizophrenia is an inherited condition of the distinct and separate species of human which we know as Homo neanderthalensis.
As proven by the fact that the 40.7%-greater rate of schizophrenia in East Asia, or China vs. that in high income North America and the 40%-greater preponderance of Neanderthal DNA among the O-haplogroup Chinese vs. R1b haplogroup Europeans are statistically identical.
Charles Wallace was also telepathic. I believe that telepathy is also inherited, and thus also a Neanderthal trait, however I have not done any work on the subject.
The fact that the just-barely-hidden “I.T.” of Information Technology is the driver of Charles Wallace’s possession is signal.
Complete-it.co.uk says “The term IT was first published in the 1958 Harvard Business Review when authors Harold J. Leavitt and Thomas C. Whisler said “The new technology does not yet have a single established name. We shall call it information technology.”
1958, right at the time Madeleine L’Engle was writing “A Wrinkle In Time”, published in 1962.
In the second book of the trilogy, “a Wind in the Door”, from 1973, Cosmic evil is connected with evil on a cellular level, and Meg, Calvin and the disagreeable school principal Mr. Jenkins have to travel inside one of Charles Wallace’s mitochondria to save him from a deadly disease. That mitochondrial disease is being driven by the Echthroi (the Ancient Greek word for “enemies”). The Echthroi are powerful, evil creatures whose desire is to X (i.e. extinguish, unname) creation. For a time, Mr. Jenkins is invaded by his Echthros doubles.
Author Calvin Miller writes that the Echthroi are "demonic spirits”.
Quite clearly, the red-haired, blue-eyed Homo neanderthalensis protagonists are fighting against Charles Wallace being possessed by the demons that are the Echthroi. Both Charles Wallace and Mr. Jenkins are afflicted by the inherited condition known by the West under the cover-meme “schizophrenia”.
6. ATROPHY OR SHRINKING OF THE BRAIN’S PREFRONTAL AND PARIETAL LOBES
60% of schizophrenics have shrunken prefrontal and parietal lobes.
In schizophrenics, prefrontal blood flow in the frontal lobe is particularly deficient while performing asks specific to this region include higher-order decision making, planning and organizing for the future, and orchestrating the brain’s activity for intelligent regulation of behavior, thought and emotion.
Schizophrenics exhibit lower glucose utilization in the frontal lobes relative to either occipital lobe or whole brain.
Extended microwave exposure produces myelin degeneration in quinea pig and rabbit cortexes.
Microwave radiation decreases frontal lobe choline uptake.
Microwave radiation causes brain atrophy in the human by apoptosis via the Fas pathway in Jarkat T cells.
If schizophrenics have shrunken prefrontal and parietal lobes, and extended microwave exposure produces myelin degeneration in quinea pig and rabbit cortexes, and microwave radiation causes brain atrophy in the human by apoptosis via the Fas pathway in Jarkat T cells, then microwave radiation drives schizophrenia.
7. ATROPHY OR SHRINKING OF THE THALAMUS
42% of schizophrenics have shrunken hypothalamuses with lower numbers of neurons.
Hamster 22 day microwave exposure caused neuron degradation in the thalamus.
If schizophrenics have shrunken hypothalamuses containing fewer neurons, and microwave radiation destroys neurons in the thalamus, then microwave radiation drives schizophrenia.
8. NEURON DEGRADATION IN/SHRINKING OF THE CEREBELLUM
31% of neuroimaging studies show shrinkage of and damage to the cerebellum, notably Purkinje cell loss.
Rat and quail pre-natal prolonged microwave exposure produces purkinje cell loss and damage at the cellular level.
Rat post-natal microwave exposure produces purkinje cell decrease and damage at the cellular level.
Pulsed microwaves damaged the cerebellum in rats and inhibited their ability to balance.
If schizophrenics have shrunken cerebellums with lower numbers of Purkinje cells, and microwave radiation destroys Purkinje cells in the cerebellum, then microwave radiation drives schizophrenia.
9. DECREASED GABA RECEPTOR BINDING IN THE CEREBELLUM
The list of ways in which microwave radiation drives schizophrenia continues with decreasing GABA receptor binding.
Schizophrenics have decreased uptake and release of Cortical synaptosome γ-aminobutyric acid (GABA).
Rats exposed to microwave radiation had decreases in GABA receptor binding (by 3H-muscimol) and in cellular GABA content in Purkinje cells of the cerebellum.
If microwave radiation decreases GABA receptor binding, and schizophrenics have decreased GABA receptor binding, then microwave radiation drives schizophrenia.
10a - DECREASING SERATONIN LEVELS
One of the way that microwave radiation drives schizophrenia is by lowering brain serotonin levels.
Decreased serotonin in schizophrenics is documented by brain postmortem tissue analysis, cerebrospinal fluid and drug studies.
Rats exposed to microwave radiation from birth to 15 days had decreased brain serotonin levels for the rest of their lives.
Seratonin levels in the human brain decrease on prolonged exposure to microwave radiation.
If microwave radiation lowers brain serotonin levels, and schizophrenics have lowered brain serotonin levels, then microwave radiation drives schizophrenia.
10b - DECREASING DOPAMINE LEVELS
It beggars the imagination, but the list goes on. The next way in which long wavelength microwave radiation drives schizophrenia is by decreasing dopamine levels in the brain.
Findings in schizophrenics with negative symptoms for dopamine metabolites and dopamine receptors and drug studies all indicated decreased dopamine.
Behavioral changes, drug study results and enzyme alterations all document that exposure to long wavelength microwave radiation causes brain dopamine alternations.
If schizophrenics have brain dopamine alterations, and exposure to long wavelength microwave radiation causes brain dopamine alternations, then exposure to long wavelength microwave radiation drives schizophrenia.
10c - DECREASING MELATONIN LEVELS
Microwave radiation drives schizophrenia by decreasing melatonin.
Decreased melatonin is consistently reported in schizophrenia.
Abnormal EEG and decreased melatonin are associated with pineal calcification.
Pineal calcification has a lower incidence in undeveloped societies.
(Pineal calcification, closing down the connection to the higher self, fluoride’s role in pineal calcification, expand)
Electromagnetic fields diminish melatonin in animals.
Microwave radiation decreases melatonin in humans in both lower frequency exposure and in cell phone use.
If decreased melatonin is consistently reported in schizophrenia, and microwave radiation decreases melatonin in humans in both lower frequency exposure and in cell phone use, then microwave radiation drives schizophrenia.
11. INCREASING BRAIN BLOOD FLOW
Schizophrenics have globally increased brain blood flow.
Acute psychosis and delusion are accompanied by increased global brain blood flow.
Rat microwave exposures increase brain blood flow.
Brief human cell phone exposure increases brain blood flow.
If schizophrenics have globally increased brain blood flow, and acute psychosis and delusion are accompanied by increased global brain blood flow, and brief human cell phone exposure increases brain blood flow, then brief cell phone exposure drives acute psychosis, delusion and schizophrenia.
12. BLOOD-BRAIN BARRIER IMPAIRMENT
18% to 29% of schizophrenics have blood-brain barrier impairment.
Microwave radiation’s impairment of the blood-brain barrier is consistently observed.
Increased brain temperature increases blood-brain barrier permeability.
Studies which have not showed that microwave radiation causes the blood-brain barrier to leak have utilized short exposures.
Microwave radiation causes the blood-brain barrier to leak through a heat shock protein phosphorylation process known as pinocytosis.
Heat shock protein antibodies in schizophrenics provide evidence for blood-brain impairment in schizophrenia.
If schizophrenics have blood-brain barrier impairment, and microwave radiation’s impairment of the blood-brain barrier through a heat shock protein phosphorylation process known as pinocytosis is consistently observed, then microwave radiation drives schizophrenia.
13. INCREASING CORTISOL LEVELS
The next way in which microwave radiation drives schizophrenia is by increasing cortisol levels in the blood.
Schizophrenics have increased blood cortisol levels, which causes them to lack sleep inhibition, be paranoid, and hallucinate.
Cell phone exposure transiently increases blood cortisol levels.
If schizophrenics have increased blood cortisol levels, and cell phone exposure transiently increase blood cortisol levels, then cell phone exposure transiently increases schizophrenia.
14. DECREASING STARTLE RESPONSE
Some schizophrenics have little or no startle response.
Rats exposed to pulsed and continuous microwave radiation have decreased startle response.
Pre-natal exposure to microwave radiation decreases startle response in female rats.
If startle response is impaired in schizophrenics, and microwave radiation impairs startle response, then microwave radiation drives schizophrenia.
15. INHIBITING GALVANIC SKIN RESPONSE
Some schizophrenics are hypo- or non-responders to orienting responses and normally evoked electrodermal activity.
Occupational exposure to microwave radiation inhibits galvanic skin response.
If schizophrenics have impaired galvanic skin response, and microwave radiation inhibits galvanic skin response, then microwave radiation drives schizophrenia.
16. DEGRADING MEMORY
Schizophrenics have deficits in multiple areas of working memory, specifically in spatial working memory.
Multiple human case reports exist of memory difficulty on excess microwave exposure.
Latvian children exposed to pulsed radar are deficient in short term memory compared to unexposed children.
The hippocampus has general importance to memory, specifically spatial, temporal and sequence memory.
In rodents, the hippocampus is one of the most responsive brain regions to microwave exposure.
Mouse hippocampus mitochondrial activity is decreased on microwave exposure.
Cell phones affect a magnetoencephelographic component of verbal memory encoding, suggesting interference.
Mobile phone use for 5 minutes can cause significant memory impairment in humans.
In February 2019, high exposure to RF-EMF produced by MPBSTs was associated with delayed fine and gross motor skills, spatial working memory, and attention in school adolescents compared to students who were exposed to low RF-EMF.
If microwave radiation impairs memory, and schizophrenics have impaired memory, then microwave radiation drives schizophrenia.
17. DEGRADING TIME ESTIMATION
Schizophrenics have deficits in memory for temporal order.
Time estimation is altered in schizophrenics.
Rats exposed to microwave radiation took longer to complete tasks and had an increased rate of non-response.
Rats exposed to microwave radiation exhibit analogous sequencing deficits.
If schizophrenics have deficits in memory for temporal order and altered time estimation, and microwave radiation alters time estimation, then microwave radiation drives schizophrenia.
18. DEGRADING MOTOR COMPETENCE
Schizophrenics have decreased ability in coordination tasks, and more instability in balance.
Pulsed microwaves damaged the cerebellum in rats and inhibited their ability to balance.
Rats exposed to microwave radiation are deficient in performance in a water maze.
Geomagnetic storms in Japan were accompanied by a 30% increase in accidents.
Geomagnetic storms in Japan were accompanied by a 39% increase in transport accidents.
Contingent negative variation, an electrophysiologic indicator of working memory, is decreased in schizophrenics.
Latvian children exposed to pulsed radar have less motor competence than unexposed children.
Cell phone radiation decreases contingent negative variation in humans.
If decreased contingent negative variation indicates decreased working memory, and cell phone radiation decreases contingent negative variation in humans, then cell phone radiation decreases working memory in humans.
If schizophrenics have decreased contingent negative variation/working memory, and cell phone radiation decreases contingent negative variation/working memory, then cell phone radiation drives schizophrenia.
In February 2019, high exposure to RF-EMF produced by MPBSTs was associated with delayed fine and gross motor skills in school adolescents compared to students who were exposed to low RF-EMF.
If schizophrenics have decreased ability in coordination tasks, and more instability in balance, and exposure to microwave radiation decreases motor competence and impairs balance, then exposure to microwave radiation drives schizophrenia.
19. DECREASING AEROBIC/ANAEROBIC THRESHOLD
Schizophrenics have an aerobic-anaerobic threshold one third that of non-schizophrenics.
High peak power pulsed microwave 25 minute exposures decreased rat treadmill running by about about one-third.
If schizophrenics have impaired aerobic-anaerobic thresholds, and microwave radiation decreases aerobic-anaerobic threshold, then microwave radiation drives schizophrenia.
20. INCREASING B LYMPHOCYTE LEVELS IN THE SPLEEN
B lymphocyte levels are 66.6% higher in schizophrenics.
Whole body microwave exposure increases B lymphocyte production in mouse spleens.
Microwaves induce human lymphocyte lymphoblastic transformation in vitro.
If schizophrenics have higher B lymphocyte levels, and microwave exposure increases B lymphocyte production, then microwave radiation drives schizophrenia.
21. INCREASED TUMOR NECROSIS FACTOR PRODUCTION IN THE BRAIN AND SPLEEN
Schizophrenics have high Tumor Necrosis Factor (TNF) levels.
Very low intensity microwave whole body exposure increases Tumor Necrosis Factor (TNF) production in peritoneal macrophages and spleen T cells.
Rats exposed to cell phone radiation in the U.S. Government’s $25 million NTP study developed Glioblastoma Multiforme (GBM), a type of glioma, which is the most aggressive form of brain cancer. Rats not exposed to cell phone radiation did not exhibit any cancers.
Gliomas are the most common cause of cancer-related deaths in adolescents and young adults aged 15-39 and the most common cancer occurring among 15-19 year olds.
Using your cell phone a half hour a day increases your risk of a brain tumor by 40%.
A US study on 29 cases of neuroepithelial tumors indicated a near tripling in the risk of neuroepithelial tumors through cell phone use.
The published results were revised to reflect a doubling of risk, which was then reported as “not statistically significant’.
If schizophrenics have high Tumor Necrosis Factor (TNF) levels in peritoneal macrophages and spleen T cells, and microwave radiation increases Tumor Necrosis Factor (TNF) production, then microwave radiation drives schizophrenia.
From 1995 to 2018, Glioblastoma Multiforme brain tumors in the U.K. increased by 140%, or by more than two times, from 1,250 to 3,000.
From 2002 to 2017, Glioblastomas in the U.S. and Europe increased by between 22% and 45%, while rates of all other brain tumors decreased.
From 2007 to 2018, a steady one in five women got non-malignant brain tumors, which, despite their lack of malignancy, still easily killed them in many or most cases, nonetheless. Or certainly made them wish they were dead after their skull was cut open and the brain surgeon dug the tumor out.
From 2007 to 2018, the rate of non-malignant brain tumors was 59% higher in females than it was among males (20.3% vs. 12.8%).
From 2008 to 2013, the number of Swedes under age 70 who died of a brain tumor “of an unknown nature” increased by 1,071%, or by more than eleven times, from 7 to 82.
22. INCREASED ANTI-BRAIN ANTIBODIES
Schizophrenics have abnormally high antibodies against brain and somatic antigens.
Microwave radiation exposure causes increases in anti-brain antibodies.
Microwave radiation exposure causes increases in reaction to brain antigens.
If schizophrenics have abnormally high antibodies against brain and somatic antigens, and microwave radiation causes increases in anti-brain antibodies and reaction to brain antigens, then microwave radiation drives schizophrenia.
23. ALTERATIONS IN THE IMMUNE SYSTEM
Schizophrenics have greater rates of autoimmune disease.
Autoimmune diseases feature increased levels of cytokine interleukin-6 (IL-6).
Cytokine interleukin-6 (IL-6) levels are 66% greater in schizophrenics.
In humans, monocytes are the most important producer of these cytokines.
Cytokine production in human monocytes exposed to electromagnetic fields was dramatically increased. (Find this percentage)
If Cytokine interleukin-6 (IL-6) levels are 66% greater in schizophrenics, and autoimmune diseases feature increased levels of cytokine interleukin-6 (IL-6), and Cytokine production in human monocytes exposed to electromagnetic fields was dramatically increased, then electromagnetic fields drive schizophrenia and autoimmune disease.
24. NEURODEGENERATIVE DISEASES - PARKINSONISM, ALZHEIMERS, ALS AND DEMENTIA
Psychosis is frequently a component of neurodegenerative diseases which include Parkinsonism, Alzheimers, amyotrophic lateral sclerocis (ALS) and dementia.
Schizophrenia is consistently coexistent in patients developing ALS, with both these syndromes linked to chromosome 21q22.
Chromosome linkage 6q25 is linked to both ALS and schizophrenia.
Chromosome linkage 9q25 is linked to familial ALS, frontotemporal dementia and schizophrenia
It is crucial to note here that ALS is familial. It is genetic, it is hereditary, it is passed down through the generations
If ALS is familial, and ALS and schizophrenia are linked to chromosome linkage 9q25, then schizophrenia is genetic, it is hereditary, it is passed down through the generations.
They are afflictions of the distinct and separate human species known as Homo neanderthalensis.
Chromosome linkage 6q25 is linked to tardive dyskinesia. Notably, this is not consistent for populations from less developed countries. That’s because those populations in less developed countries have lower exposures to purportedly-harmless non-ionizing radiation, and also because they have lower proportions of the Homo neanderthalensis DNA which is required for the manifestation of the inherited syndrome.
Electromagnetic field exposure is linked to neurodegenerative diseases which include Parkinsonism, Alzheimers and amyotrophic lateral sclerocis, or ALS.
Oxidative stress plays a role in neurodegenerative diseases which include Parkinsonism, Alzheimers and amyotrophic lateral sclerocis, or ALS.
Electromagnetic field exposure is strongly associated with Alzheimers disease.
The rate of cognitive decline is 32% greater in cities than in rural areas.
If schizophrenia is frequently a component of Alzheimers disease, and electromagnetic field exposure is strongly associated with Alzheimers disease, hen electromagnetic field exposure drives schizophrenia .
If psychosis is frequently a component of neurodegenerative diseases which include Parkinsonism, Alzheimers, amyotrophic lateral sclerocis (ALS) and dementia, and schizophrenia is consistently coexistent in patients developing ALS, and if chromosome linkage 6q25 is linked to both ALS and schizophrenia, and if chromosome linkage 9q25 is linked to familial ALS, frontotemporal dementia and schizophrenia, and if ALS and schizophrenia are bth hereditary, then schizophrenia, Parkinsonism, Alzheimers, amyotrophic lateral sclerocis (ALS) and dementia are all code memes for the same condition, namely what was known in the old days as demonic possession.
From between 1976 and 1985 to between 1996 and 2005, parkinsonism in men increased by 44%.
From 1999 to 2014, Alzheimer’s deaths in the U.S. increased by 50%.
From 2000 to 2022, Alzheimer’s disease increased by 89%, or nearly doubled.
In 2008, two hours of daily exposure to low intensity mobile phone base station radiation led to “massive neurodegeneration” in young rat brains. Moreover, a third of the rats died within one month.
In 2013 and 2016, researchers discovered Alzheimer’s-specific changes in the brains of rats exposed to EMF pulses. These changes occurred in the hippocampus, a brain region which Alzheimer’s has a destructive impact on.
From 2014 to 2019, Parkinson’s disease in the U.K. increased by 14%.
From 2019 to 2020, Alzheimer’s deaths among senior citizens increased by 26%.
Dr. Elan Guterman, an assistant professor of neurology at the University of California, San Francisco said “the findings again show that COVID has affected how people live everyday life. People are more isolated. It’s harder to access medical care and community resources have changed.”
Jeff Miller, Pittsburgh, PA, March 29, 2025
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