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- 2022| Anka PublishersIn this research, we propose a theoretical model which helps us to consider evolutions of some special heart cells by using superconducting quantum interface devices (SQUID) in a magnetocardiography (MCG) technique. In this model, each cell has its own special electrical structure including ions and charges. These charges move within or outside the cell and emit some magnetic fields. Also, some charges have spins which emit spinning magnetic fields. Summing over these biofields produces the real biofield of a cell. All cellular magnetic fields are summed and enter into the sensor (SQUID) and form the observed pulse on the scope. On the other hand, each biofield induces a current on the superconductor of detector. To consider evolutions of a special cell, one can produce some currents, equal and in opposite directions of currents which are induced by other cells. These currents cancel effects of other cells and only the current and magnetic field of a desired cell is remained. Thus, one can analyze the behavior of one special cell. For example, if a cell converts to a tumor one, its radiated charges and magnetic fields are changed. These changes could be detected by SQUID and tumors could be diagnosed fast.
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- 2022| AIMS PressWe propose a theoretical model which helps us to use entangled graphene sheets for inducing T-cells around tumor cells. The direction of the free spinors on a graphene sheet should be in the opposite direction to the direction of the free spinors on the other graphene sheet in an entangled system. Consequently, any change in one sheet could be understood by spinors in the other sheet. One of these graphene sheets plays the role of antenna within the human body, and the other one acts as the sender exterior to it. With time and the motion of the total wave, the graphene sheet divides into smaller components with lower energy on some circles, and the centre of such a circle is the sender. Thus, to provide the required energy for activation of the interior graphene sheet, we add more sheets or increase the external potential exterior to the body. According to the Warburg proposal, radiated spinors from normal cells and cancer cells are different, and these differences could be seen by free spinors on the exterior of the graphene sheets. When the existence of a tumor is diagnosed, some T-cells could be close to the exterior graphene sheets. Free spinors on these sheets change, take the shape of T-cells and transmit information to the interior sheet. Spinors on this sheet produce virtual T-cells which deceive the tumor cells and produce virtual PD1/PD-L1 connections with them. Consequently, tumor cells cannot introduce death toxins into real T-cells, and these cells have the opportunity to destroy them.
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- 2022| AIMS PressIt is known that differences between potentials of soma, dendrites and different parts of neural structures may be the origin of electroencephalogram (EEG) waves. These potentials may be produced by some excitatory synapses and currents of charges between neurons and then thereafter may themselves cause the emergence of new synapses and electrical currents. These currents within and between neurons emit some electromagnetic waves which could be absorbed by electrodes on the scalp, and form topographic images. In this research, a model is proposed which formulates EEG topographic parameters in terms of the charge and mass of exchanged particles within neurons, those which move between neurons, the number of neurons and the length of neurons and synapses. In this model, by knowing the densities of the frequencies in different regions of the brain, one can predict the type, charge and velocity of particles which are moving along neurons or are exchanged between neurons.
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- 2022| AIMS PressPrevious experiments have shown that extremely low frequency electromagnetic fields could cause serious effects on the evolution of cells. We propose a mathematical model which confirms those results. In our model, electromagnetic waves could cause the motions of ions and charges and the emergence of some currents around and in the interior of cells. These currents produce some waves which interact with the DNAs and remove or attach some repressors. Consequently, some genes could be turned on or off, and cells could obtain some properties or lose them. The frequency of the external waves should be close to the frequency of the exchanged waves between the repressors and DNAs or even bigger than them. We test this idea and did some experiments on quail embryonic cells. We connected a sample of these cells to a battery and considered their evolution. We observed that after connecting the battery and the production of electrical current, some rings around the quail embryonic cells emerged. Maybe, these rings are the response of the cells to changes in electromagnetic waves and electrical currents.
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- It has been known that both brain and heart produce magnetic fields however, intensity of heart magnetic field is more. The question arises that what is the relation between heart and brain waves. We answer this question by suggesting a theoretical model which use of hemoglobins and other spinors as packages of information and spin waves for exchanging information between heart and brain. In this model, heart genes within heart cells control motions of charged ions and their spins. By motions of these electrical and spinor ions, both electrical and magnetic waves are emerged. Electrical waves produce known action potentials and magnetic waves force on iron atoms within hemoglobins and electrons on other biological objects and induce spin waves and information in multigonal structures around them. Hemoglobins and other spinors are carried by blood cells and liquid molecules and move from heart to brain. Near neurons within the brain, magnetic spins within the hemoglobins and spinors force into ions and cause to their motion towards cells. These ions pass the neuron membranes, force on ionic packages and cause that some new ions become free. These charged/spinor ions produce electrical currents between neurons and emit some magnetic and electrical waves around the brain. We have done some calculations which show by increasing height differences between two mans, time differences for exchanging information between brain and heart increase. This result is related to local entanglement between spinors. However, there is additional non-local entanglements between spinors on the heart and spinors on the brain. These entanglements may be produced through two ways: 1. Some spinors within blood vessels and nerve systems may join to each other and form several strings. Any change in one of spins within this string, cause to changes in all spins. Thus, information could be transmitted between brain and heart immediately. 2. In addition to classical magnetic field which is produced by charged currents, there is another quantum magnetic field which is produced by spinors. This quantum wave couldn’t be detected by present devices, however any change in spinors on the heart cause to a change in quantum magnetic field and spinors on the brain. This is a theoretical model and could be a proposal for scientists to test it.
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