scholarly journals The Physical Aura of Person during Life and after Death in Physics with Real Magnetic Charges

2021 ◽  
Vol 3 (5) ◽  
pp. 47-50
Author(s):  
Robert A. Sizov
Keyword(s):  
Nervous System ◽  
Human Body ◽  
Cellular Level ◽  
The Body ◽  
Mass Composition ◽  
Deceased Person ◽  
Dead State ◽  
Surrounding Space ◽  
Exclusive Property ◽  
Deceased People

The discovery and study of real magnetic charges, as well as true anti-electrons in the structures of substance and their inclusion in basic physical concepts, allowed the author to establish that two physical images correspond to a person: a real human body, i.e., his mass composition (atoms, nucleons, etc.) and the spinor image in the form of its biofield, displayed in the Energo-medium (Energo-ether) that and is the physical Aura. The spinor image or Aura of person is not a simple “photograph” but represents a system of real physical states or fractals in the Energo-medium, which, at the cellular level, are connected with the human body and interact with it at all stages of its existence. It is the physical Aura that is responsible for all the power reactions manifested by the body, providing, for example, “force service” of the activity of the central and autonomic nervous system. The article shows the conditions for the transformation of the Aura into a dead state after the death of a person, and also notes some fractals in its composition that are able to maintain former vital reactions for some time. The external manifestations of such “long-lived” fractals of the Aura, meeting the conditions of identity with a deceased person, can be perceived by some sensitive people. It is the last circumstance that can explain the numerous observations of ghosts and images of deceased people, emerging both in a dream and in reality. At the same time, the ability to form the marked fractals is not an exclusive property of the Aura of dying or deceased people. Such fractals capable of emitting and the quite healthy people in some of life situations. These latter fractals in the surrounding space can be perceived by some people and showing in ordinary dreams.

scholarly journals CO-Releasing Materials: An Emphasis on Therapeutic Implications, as Release and Subsequent Cytotoxicity Are the Part of Therapy

Materials ◽  
2019 ◽  
Vol 12 (10) ◽  
pp. 1643 ◽  
Author(s):  
Muhammad Faizan ◽  
Niaz Muhammad ◽  
Kifayat Ullah Khan Niazi ◽  
Yongxia Hu ◽  
Yanyan Wang ◽  
...  
Keyword(s):  
Human Body ◽  
Metal Carbonyl ◽  
Cellular Level ◽  
The Body ◽  
Carbonyl Complexes ◽  
Toxic Activity ◽  
Cellular Targets ◽  
Therapeutic Implications ◽  
Therapeutic Drugs ◽  
Co Insertion

The CO-releasing materials (CORMats) are used as substances for producing CO molecules for therapeutic purposes. Carbon monoxide (CO) imparts toxic effects to biological organisms at higher concentration. If this characteristic is utilized in a controlled manner, it can act as a cell-signaling agent for important pathological and pharmacokinetic functions; hence offering many new applications and treatments. Recently, research on therapeutic applications using the CO treatment has gained much attention due to its nontoxic nature, and its injection into the human body using several conjugate systems. Mainly, there are two types of CO insertion techniques into the human body, i.e., direct and indirect CO insertion. Indirect CO insertion offers an advantage of avoiding toxicity as compared to direct CO insertion. For the indirect CO inhalation method, developers are facing certain problems, such as its inability to achieve the specific cellular targets and how to control the dosage of CO. To address these issues, researchers have adopted alternative strategies regarded as CO-releasing molecules (CORMs). CO is covalently attached with metal carbonyl complexes (MCCs), which generate various CORMs such as CORM-1, CORM-2, CORM-3, ALF492, CORM-A1 and ALF186. When these molecules are inserted into the human body, CO is released from these compounds at a controlled rate under certain conditions or/and triggers. Such reactions are helpful in achieving cellular level targets with a controlled release of the CO amount. However on the other hand, CORMs also produce a metal residue (termed as i-CORMs) upon degradation that can initiate harmful toxic activity inside the body. To improve the performance of the CO precursor with the restricted development of i-CORMs, several new CORMats have been developed such as micellization, peptide, vitamins, MOFs, polymerization, nanoparticles, protein, metallodendrimer, nanosheet and nanodiamond, etc. In this review article, we shall describe modern ways of CO administration; focusing primarily on exclusive features of CORM’s tissue accumulations and their toxicities. This report also elaborates on the kinetic profile of the CO gas. The comprehension of developmental phases of CORMats shall be useful for exploring the ideal CO therapeutic drugs in the future of medical sciences.

scholarly journals Temperature of representative areas of the breast department of the vegetative nervous system as the index of human organism functional state

2017 ◽  
Vol 23 (2) ◽  
pp. 27-33
Author(s):  
S. Goncharevskyi ◽  
M. Makarchuk ◽  
V. Martynyuk
Keyword(s):  
Myocardial Infarction ◽  
Nervous System ◽  
Autonomic Nervous System ◽  
Functional State ◽  
Human Body ◽  
The Body ◽  
Human Organism ◽  
Autonomic Nervous ◽  
Significant Difference ◽  
The Right

Almost all processes in the human body in one way or another connected with the autonomic nervous system. That's why it is real to evaluate the functional state of the person by temperature characteristics of representative points of the autonomic nervous system. Location and information of these points are confirmed by fundamental research. However, simply measuring the temperature at some points may not be sufficient to establish any systematic changes in the human body. The establishment of such changes requires systematic assessment of interdependent significant relationships between these parameters.The main aim of our research was to study effects of myocardial infarction in the thoracic region of the autonomic nervous system. The temperature of representative areas of the thoracic autonomic nervous system we measured by infrared thermometer (Medisana FTO D-53340 , with an accuracy of 0.1 degree Celsius). Statistical analysis was conducted in the packet Statistics 10. The presence of a difference in the temperature coefficients of representative areas (p<0,05). For the left side of the spine characterized by a difference in Th1–Th5 segments, which confirms their diagnosis: Th1 – 0,931,12 (control) and -0,797,49 (experiment), Th2 – 1,571,12 and -0,486,70, Th3 – 1,582611,12325 and -0,663,36, Th4 – 0,85913 0,92611 and -1,74,64, Th5 – 0,923480,75469 and-1,615,73 respectively. For the right side of the thoracic spines: Th6 – 0,850,73 (control) and -0,797,49 (experiment), Th7 – -1,000,79 and -1,370,69, Th8 – -0,960,73 and -0,990,68, Th9 – -0,120,64 and -0,380,83, Th10 – -0,921,14 and -1,031,00, Th11 – -1,691,05 and -1,861,06, Th12- -1,651,15 and -1,961,12 respectively. We found that myocardial infarction is manifested in the thoracic spine. In an experimental group there is significant difference of temperature in all segments. We can also notice asymmetry of temperatue between the right and left side of the spine. In the test group there are a deviation from the normal temperature in the first five thoracic segments on the left side, which confirms their diagnosis. On the right side of the spine there are a deviation in the last seven segments, which may indicate the compensatory mechanisms of regulation of the system. We can observe the temperature asymmetry, which in long-term exposure can negatively affect to the body.

The Velocity of Nerve-Force

1867 ◽  
Vol 13 (63) ◽  
pp. 331-334
Author(s):  
J. R. G.
Keyword(s):  
Nervous System ◽  
Human Body ◽  
The Body ◽  
Locomotive Engine ◽  
The Will ◽  
The Brain

The nerve-current which transmits sensations to the brain, and the orders of the will to the extremities of the body, requires a certain time to travel in. Impressions coming from without are not perceived at the instant they are produced, they travel along the nerves at the rate of 20 to 30 métres (25 to 40 yards) in a second, which is the same speed as that of the carrier pigeon, of a hurricane, or of a locomotive engine at its quickest, but very much less than that of a cannon ball. For instance, we can only be conscious of an injury to one of our feet about one twentieth of a second after it has actually occurred, and the commands of the will proceed equally lowly from the centre to the peripheries of the nervous system. In he human body the time thus occupied is unimportant, but let us take the case of a whale, where the telegraphic network of the nervous system is far more extensive. A boat attacks the whale, and a harpoon is driven into its tail. The impression thus produced has totravel over some forty yards before reaching the head-quarters of the will; a second is thus lost. How long a time is then required for reflection? That must depend upon circumstances; but at any rate it is certain that the will has need of some definite amount of time for its decision. The order to capsize the boat is despatched to the tail, but another second must elapse before the telegram reaches its destination, and in the time thus employed the whaling boat has pulled off and escaped the danger.

scholarly journals What Strategy Central Nervous System Uses to Perform a Movement Balanced? Biomechatronical Simulation of Human Lifting

2013 ◽  
Vol 10 (2-3) ◽  
pp. 113-124 ◽  
Author(s):  
Ali Leylavi Shoushtari
Keyword(s):  
Central Nervous System ◽  
Nervous System ◽  
Human Body ◽  
Inverse Dynamics ◽  
Lower Boundary ◽  
Optimal Solution ◽  
Inequality Constraint ◽  
The Body ◽  
System Control ◽  
Nonlinear Inequality

How does the central nervous system control the body posture during various tasks despite a redundancy? It's a well-known question existed in such fields of study as biomechanics and bioengineering. Some techniques based on muscle and torques synergies are presented to study the function which Central Nervous System uses to addresses the kinetic redundancy in musculoskeletal system. The human body with its whole numerous joints considered as a hyper redundant structure which caused to be seemed that it is impossible for CNS to control and signal such system. To solve the kinematic redundancy in previous studies it is hypothesize that CNS functions as an optimizer, such of that are the task-based algorithms which search to find optimal solution for each specific task. In this research a new objective function based on ankle torques during movement is implemented to guarantee the stability of motion. A 2D 5DOF biomechatronical model of human body is subjected to lifting task simulation. The simulation process implements inverse dynamics as major constraint to consider the dynamics of motion for predicted postures. In the previous optimization-based techniques which are used to simulate the human movements, the motion stability was guaranteed by a nonlinear inequality constraint which restricts the total moment arm of the links to an upper and lower boundary. In this method, there is no need to use this constraint. The results show that the simulated postures are normal and the predicted motion is performed completely balanced.

Balance Maintaining by Human

2016 ◽  
Vol 248 ◽  
pp. 155-160
Author(s):  
Andrzej Kot ◽  
Agata Nawrocka
Keyword(s):  
Nervous System ◽  
Human Body ◽  
Degrees Of Freedom ◽  
Inverted Pendulum ◽  
Balance Control ◽  
Human Motion ◽  
The Body ◽  
Posture Control ◽  
Body Parts ◽  
Receptor System

Harmonious cooperation of the skeletal, muscular and nervous systems, forming a human motion organ, is responsible for all undertaken movement activities. Motion organ in the illustrated embodiment responsible not only for two basic motion activities, locomotion and manipulation, but also for maintaining the posture of the human body. Standing posture control makes a particular dimension of physical activity, because correct, stable posture determines the ability to perform most human movements. In the case of a man to maintain a balance in a standing position seems to be something obvious and does not require much effort, but with the advent of lesions or aging we begin to see how complex it is the process of balance control. The changes lead to impaired balance control which in turn can lead to the appearance of postural instability and in extreme circumstances, even to collapse. Maintaining a stable posture it is primarily associated with motor control provided by the human nervous system. The nervous system acts as an posture control system and most of all giving to a body well-defined silhouette. This control relies heavily on the integration of information from the human receptor system. Muscle, joint, tendon and skin receptors communicate first to the brain information about the movement and position of individual body parts and then feedback these signals to the muscles, causing reflex reactions allowing for correction of posture and thus return the center of gravity to a position that maintaining equilibrium. Subdivide those human body into segments linked closely with the system osteoarthritis limbs and trunk can create a system of interconnected pendulums with many degrees of freedom. In the case of standing it will be largely complicated inverted pendulums system by which activities phenomena associated with maintaining balance and locomotion can be modeled. If additionally in an upright position, taking into account the natural motion restrictions movements in all joints except the ankles will be blocked, the body will be a close approximation behave like a rigid body. So we can assume that for supporting the human body at the ankle, it will behave like an inverted pendulum. The article presents the ways of describing the equilibrium of man as an inverted pendulum.

scholarly journals Stikstofoksied en die senuweestelsel

1996 ◽  
Vol 15 (2) ◽  
pp. 58-63
Author(s):  
H. S. Meij
Keyword(s):  
Nitric Oxide ◽  
Nervous System ◽  
Cardiovascular System ◽  
Human Body ◽  
Biological Systems ◽  
Short Review ◽  
The Body ◽  
Fundamental Part ◽  
Gas Molecule ◽  
Almost All

It was discovered fairly recently that nitric oxide (NO), a poisonous gas molecule, can act as a cellular messenger in biological systems. In the human body it is produced and released by several types of cells in a number of different organs, and it appar­ently plays a fundamental part in the functions of almost all the body systems. Nitric oxide seems to be significantly involved in the cardiovascular system (especially in vasodilation), the defence systems of the body (destruction of pathogens) and in the nervous system as neurotransmitter and -modulator. In this short review aspects regarding the synthesis and possible actions of NO are described, and the importance of this gas molecule in the nervous system is summarised.

scholarly journals A metaphysical and neuropsychological assessment of musical tones to affect the brain, relax the mind and heal the body

2017 ◽  
Vol 38 (1) ◽  
Author(s):  
Mark Pretorius
Keyword(s):  
Nervous System ◽  
Neuropsychological Assessment ◽  
Human Body ◽  
Empirical Studies ◽  
Science And Religion ◽  
The Body ◽  
Special Role ◽  
The Subject ◽  
The Mind ◽  
The Brain

It has been empirically established through many controlled studies that one of the most rewarding experiences known to humanity is listening to music, especially because it affects various parts of the brain and causes emotional arousal. The aim of this article is to do a succinct study on music and its effect on, especially, the nervous system, by referring to various empirical studies undertaken on the subject. The article, therefore, has a twofold purpose: (1) to show that throughout history, music has played a special role in various cultures and religions, especially as a healing tool and (2) to demonstrate that sound frequencies and vibrations found in music have the potential to realign the emotions of the nervous system and bring the body back into harmony by reducing stress.Intradisciplinary and/or interdisciplinary implications: The article�s challenge and purpose are to show that science and religion are not in conflict, but rather that together they can benefit both disciplines and make better sense of complicated topics, especially those related to how natural science and religion deal with the human body and health, and its relationship to the mind.

scholarly journals Gıdalarda Bulunan L-Triptofan, Serotonin, Melatonin Profilleri ve Sağlık Üzerine Etkileri

2015 ◽  
Vol 3 (11) ◽  
pp. 877
Author(s):  
Seda Kurtulmuş ◽  
Tuğba Kök Taş
Keyword(s):  
Amino Acids ◽  
Central Nervous System ◽  
Nervous System ◽  
Human Health ◽  
Human Body ◽  
Biological Effects ◽  
Essential Amino Acids ◽  
The Body ◽  
Human Nutrition ◽  
Pressure Balance

Nowadays, depending on the progress of science and technology, our eating habits have changed. The shape and quality of nutrition is important for human health. Especially, some food components have various effect on central nervous system such as depression, anxiety, sleep, appetite. Food constituents are transported into the central nervous system via the neutral amino acids such as phenylalanine, leucine, isoleucine, tyrosine and valine. Amino acids have an important role in human nutrition. It cannot be synthesized in the body and one of the essential amino acids that must be taken outside, trytophan, is indispensable in human nutrition because of it has the many functions. In recent years, scientific community concentrated on the various functions of L-Trytophan (L-Trp) as pioneer in the secretion of the hormones serotonin and melatoninin in the human body. The hormones serotonin and melatonin is responsible for activities such as psychology, sleep, body temperature, blood pressure balance, antioxidant effect, cancer inhibitor, sexuality, autism and circadian rhythms in human body that they are available in various foods such as milk, kefir, yogurt, orange, strawberry, grape, olive oil, walnut, prune, nut, pomegranate, coffee, kiwi and banana. In this study, L-Trp, serotonin and melatonin biosynthesis and metabolism, food profiles and in terms of their physiological and biological effects on human health has been compiled.

Neuron-glia relationship during the early postembryonic development of the nervous system in some oligochaetes

1978 ◽  
Vol 36 (2) ◽  
pp. 600-601
Author(s):  
Wiktor Djaczenko ◽  
Carmen Calenda Cimmino
Keyword(s):  
Nervous System ◽  
Glial Cells ◽  
Early Period ◽  
Postembryonic Development ◽  
Ruthenium Red ◽  
The Body ◽  
Tubifex Tubifex ◽  
Growth Stages ◽  
Cell Processes ◽  
Cytoplasmic Processes

The simplicity of the developing nervous system of oligochaetes makes of it an excellent model for the study of the relationships between glia and neurons. In the present communication we describe the relationships between glia and neurons in the early periods of post-embryonic development in some species of oligochaetes.Tubifex tubifex (Mull. ) and Octolasium complanatum (Dugès) specimens starting from 0. 3 mm of body length were collected from laboratory cultures divided into three groups each group fixed separately by one of the following methods: (a) 4% glutaraldehyde and 1% acrolein fixation followed by osmium tetroxide, (b) TAPO technique, (c) ruthenium red method.Our observations concern the early period of the postembryonic development of the nervous system in oligochaetes. During this period neurons occupy fixed positions in the body the only observable change being the increase in volume of their perikaryons. Perikaryons of glial cells were located at some distance from neurons. Long cytoplasmic processes of glial cells tended to approach the neurons. The superimposed contours of glial cell processes designed from electron micrographs, taken at the same magnification, typical for five successive growth stages of the nervous system of Octolasium complanatum are shown in Fig. 1. Neuron is designed symbolically to facilitate the understanding of the kinetics of the growth process.

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