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EMFand
Biological Effects:Proposed Mechanisms
EFFECTS ON MOLECULAR BONDS
EFFECTS IN GENE FUNCTION AND STRUCTURE
EFFECTS ON SPECIFIC SUBCELLULAR ELEMENTS
EFFECTS AT LEVEL OF MEMBRANE
GROUP CELL BEHAVIOR
ELECTRICAL EFFECTS ON CELLS, SYNAPSES
PULSED, MAGNETIC EFFECTS ON CELLS, SYNAPSES
EFFECTS ON PROTEINS, HORMONES AND NEUROTRANSMITTERS
SPECIES EFFECTS, TROPHIC CASCADE EFFECTS, LOSS OF BIODIVERSITY
"No known mechanism" -- "So What?"
BREAKAGE, OXIDATION MW/RF, MDA, brain
Oxidative DNA damage
NOS relationship effects
Oxidative mechansims of RF
ELF-EMF, oxidative stress, cell death
LIVING ANTENNAS, ARTIFICIAL EMF
GENETIC FUNCTIONALCHANGES, DAMAGE
FREE RADICAL DAMAGE, NUTRIENT DEPLETION
DNA as a fractal antenna
HAARP interference with bee homing
Up and down-regulation of genes
Heroux Unified Theory, DNA and MF
Oxidation and antioxidant depletion
Osmolarity affects threshold field effects
Triage nutrients diverted, stress response
MAGNETIC FIELD EFFECT ON MAGNETITE
EMF, INTERFACIAL WATER
CHANGES TO CRYPTOCHROME MOLECULE
ATP FORMATION AND MAGNETIC SPIN
MITOCHONDRIA, COHERENCE ALTERATION
Magnetite in human tissues
ELF and biologic magnetite
Cell death, ferromagnetic transduction
Overview: Susak et al
Overview: Ramazzini Institute
Effect on ATPS due to water effect
Living Rainbow H20, Mae-Wan Ho
Intracellular water dynames and NIR
Cryptochromes EMF
Cryptochrome mediates magnetosensitivity
Ion-radical process, magnetic moment
EM field disturbance of mitochondria
BLOOD FLOW, VESSEL DAMAGE
STATIC MAGNETIC FIELDPLUS EMF PUSHING MOLECULES
CALCIUM EFFLUX,MEMBRANE/RECEPTOR EFFECTS
INTRODUCTION OF "NOISE"
MEMBRANE PORATION
Disrupted cerebral blood flow
Albumin leakage, barrier breech
Induction of cyclotron resonance
Calcium ion, cyclotron resonance, MF
RF, receptor clustering
Rouleau formation, MW
Ion channel transduction
Calcium channels, apoptosis
Membrane nanopore formation
Activation voltage gated calcium channels
EM Biocompatibility: Compensatory Magnetic Oscillation
Induction of stochastic resonance
Stochastic resonance, voltage-gated channels, EMF
Electroporation
THERMOELASTIC WAVE EFFECT
ORGAN AND TISSUE FUNCTION
INTERFERENCE WITH NEURONAL OSCILLATIONS
Microwave auditory effect
Thermoelastic theory, MW
MW, heart rate variability
Decrease in band coherence
Appearance of EEG slow waves
More anterior alpha, less posterior
Neuronal network firing/burst rate changes
INDUCED E CURRENTS,INCREASED BODY VOLTAGE
DISRUPTION, ENDOGENOUS EM OSCILLATIONS
CHANGES INPOLARIZATION, SYNAPSES
DENSITY OF PHOTONS EFFECT
Electric currents, A.L.S.
Body voltage information
Transients, BV, phys-ion movement
EM interaction and well-being
Electrical fields, polarization of neurons
Gap junction changes, tumor promotion
Plarization, difference natural/unnatural
Voltage transients interfere with gap junctions
High photon density, dielectric effect of MW
Bioelectric phenomena and photon aggregation
EFFECT ON NON-EXCITABLE CELLSPEMF mechanisms
Possible novel mechanisms of AM
ALTERATION OF MATRIX
DEFICIENCY OF NATURAL EMF
HEAT SHOCK PROTEINS
DENATURATION OF PROTEINS
CIRCADIAN RHYTHM EFFECTS
Melatonin hypothesis
Increased beta-amyloid
Increased production, release, histamine
Digital stress,global EM toxicity
Stress protein synthesis
Hsp70, mobile phone stress marker
ELF, protein proton relaxation
EMF and the folding of egg protein
Chrononodisruptive effects
Alteration of blood characteristics
Power lines and nocturnal melatonin
EFFECTS ON BEES, POLLINATORS
EFFECTS ON TREES, OTHER PLANTS
Barrie Trower, Bees, 2010
Massive destruction of nature by EMF
EMF and Tree Damage
ELF, pea roots, calcium disruption
RF, tomato plants, stress response, mRNA
HOW DO ARTIFICIAL NON-IONIZING ELECTROMAGNETIC FIELDS INTERFERE WITH BIOLOGICAL TISSUE FUNCTIONS AND STRUCTURES? MANY MECHANISMS HAVE BEEN PROPOSED. THEY ARE NOT EXCLUSIVE OF EACH OTHER. THEY ARE NOT EQUALLY WELL STUDIED OR SUPPORTED. SOME OF THE EFFECTS ARE MORE UPSTREAM PHYSIOLOGICALLY, AND THEREFORE CAUSE OTHERS. THE EFFECTS ON ANY GIVEN INDIVIDUAL DEPEND UPON THE TYPE OF EXPOSURE AS WELL AS THE SPECIES, GENDER, HEALTH, AGE OR TISSUE(S) INVOLVED. MECHANISMS DIFFER FROM SIGNS OF PATHOLOGY OR SYMPTOMS OF ILLNESS; RATHER, THEY EXPLAIN HOW SIGNS AND SYMPTOMS ARE INITIATED.
Home: OscillatoriumNewest version this mapDate of this update: 11-25-15
CELLULAR FUNCTIONS AND BEHAVIORS
Orientation of magnetite"Switching" of cryptochrome molecule
Enzyme functions, methionine synthaseGene expression, stress proteins, apoptosis
Clumping of some cells, movements of others
CELLULAR STRUCTURES
Molecular bonds of DNA, RNAAlterations in ATP production, different mechanisms
Membranes, cellular, subcellularResonance changes within fluid compartments
Receptors/channels within membranesConcentrations of ions, molecules, nutrients
TISSUE EFFECTS
Decreased integrity of blood-brain barrierBrain dysfunction: brainwaves, sensory disturbance
Brain developmental issues: autismBrain structural changes, beta-amyloid, tumors
Brain function, cognitive effects, abnormal proteinsCircadian changes in hormonal releases
Cardiovascular rhythm changesImmune response alterations
CASCADING MECHANISMSMOLECULAR TO MULTI-SPECIES
Free radical cascadesCalcium influx and cellular activity
Field reorientation of ions, cellsSingle species gene pool disruptions
Multi-species trophic cascade