Conceptual Premise
In the context of human activity, both in terms of knowledge and operation, when studying a system, first a global analysis is carried out and then an analysis of the details, privileging, in the initial phases, the analysis of the prevalent aspect. The study of human biology has defined the "man/woman" system in its components, assigning a prevalent role to body water, body water represents approximately 65% of the total weight, proteins are approximately 25% and the other constituent components are approximately 10%. If the evaluation of the "man/woman system" had followed the criterion of "study of the prevalent system", medical research would have had to focus first on the study of body water and then on proteins and other constituent elements. The answer to this anomaly is found in our inability to adequately study body water while it has been much easier to study proteins and other elements.
Key Components of Living Matter Hydrogen on the Front Line
Water as a chemical compound still holds many mysteries today but what has been clarified, without a shadow of a doubt, is that water uses chemical reactions, matter-mediated physical phenomena and energy-mediated (quantum) physical phenomena in its dynamics. If we analyze the matter that makes up the human organism, we find that over 90% is represented by carbon, nitrogen, oxygen and hydrogen. With good approximation, carbon and nitrogen can be defined as "structural elements", oxygen as an "energy mediator" and hydrogen (protium), the smallest element in Mendeleev's periodic table, as the wild card among these elements. In fact, it binds to carbon with four molecules, to nitrogen with three molecules and to oxygen with two molecules, playing various roles depending on the various types of chemical bond. In the bond with oxygen, generating mainly water, hydrogen creates a "physical selfishness" that makes the 3D molecule assume angles of about 105 degrees, versus about 109 degrees with carbon for example, this occurs also due to the intervention of quantum forces that allow water to acquire the ability to manifest all the extraordinary phenomena still being studied. Considering water a simple "support", as happened for nuclear proteins with respect to DNA, can no longer be shared. Moreover, the increase in knowledge on cellular biology can only confirm this paradigm, in fact proteins, those always and still studied most, in their conformation come into contact with intracellular water whose elements, oxygen and hydrogen, are often found in dissociated form playing a dynamic role in protein folding. From this it follows that proteins can be affected both negatively and positively by both oxygen and, to a greater extent, hydrogen. Human proteins are tertiary and quaternary, this means that after the assembly of amino acids by ribosomal RNA they must undergo at least two folding effects to become tertiary and to become quaternary two tertiary proteins must bind together, hydrogen being the prevalent binding element, this also applies to nucleotides, it is easy to understand how even the quantitative variation of this element in an unstable phase, as happens if the pH is lowered, can be decisive in making the folding correct or not. But it is also not difficult to understand how the physical characteristics of this element, like oxygen, can play a role in determining the hydrophobic part compared to the hydrophilic part, an essential condition for protein folding. It can become more complex to support other activities of these molecules starting from the assumption of "compartmentalization", both of the cell and of the organs that derive from them. In fact, in the biological field this has always been the vision, dividing the body into systems and apparatuses and even the clinical vision of the body has operated in this direction. The cell membrane and the organized structures of the various organs are considered "limiting" from a biological point of view, leaving the vascular and lymphatic systems, for example, the task of connecting for the necessary supplies. In reality, if the perspective of vision changed and we became aware that the non-material mediated physical characteristics exceed this limit, it would no longer be so difficult to understand how signals can ignore the concept of "compartmentalization".
Water: Its Secrets
It is precisely the body water with its dynamics that determines this condition. What is water? Why does it have characteristics that make it a unique substance? What does water look like? In the laboratory, water can be created by burning hydrogen in oxygen and if we consider the knowledge on the balance of electrons of the different energy levels, it is easy to understand how this phenomenon can occur in a linear vision. If we analyze the formation of the water molecule in a spatial vision, we find that the hydrogen electron, while it completes its orbit around the nucleus, generates a rotation sphere, a similar behavior is maintained by the electrons of the oxygen atom which however generate a rotation sphere containing two electrons, a condition for which the first energy orbit is complete. This leads the other six electrons to form the second energy orbital. The electrons of the second energy orbital give rise to four separate spatial structures, the first has a spherical shape that contains two electrons, similarly to what happens in the first energy orbital, the other three have a dumbbell shape with a spatial position of 90° between them generated by single electrons where in one of them the residual electron is inserted completing the electronic pair. Each of these three spatial structures must contain two electrons to enter into equilibrium. Therefore, remaining incomplete two dumbbell spatial structures generated by a single electron, these are each able to accept the single electron of the hydrogen atom that, having generated an incomplete rotation sphere, travels the first energy level around its nucleus. The electrons of the two hydrogen molecules, to insert themselves into the two accepting dumbbell spatial structures of oxygen and therefore form the water molecule, require energy. The energy needed for the phenomenon to occur makes the oxygen atom excited and unstable, generating a hybridization process of the spherical spatial structure and the three dumbbell spatial structures of the second energy level, which each assume a pear shape with an angle between them of about 105 degrees, the final shape of the water molecule. It is the electromagnetic and quantum forces that generate this non-linear shape. This, which represents one of the three-dimensional hypotheses of the water molecule, also generates a particular condition in the structures due to the oxygen nucleus having eight protons and the hydrogen nucleus having one proton. The negatively charged electronic clouds are more attracted by the greater positive charge of the oxygen nucleus, consequently the ends of the molecule containing hydrogen retain a part of the positive charge while the ends containing oxygen retain a part of the negative charge. This phenomenon determines the directional characteristics of the water molecule and its global behavior. But this explanation of how the water molecule is formed, which is shared by many, is not based only on the electrical characteristics of the linear vision and can therefore explain the magnetic-quantum actions that are believed to come into play. The study of these dynamics can help to understand what are still today the mysteries that water contains.
Water and Chemistry: A Conceptual Limit
Water molecules, in the traditional view, are considered "simple molecules", compared to any protein structure, linked together by electrostatic forces. These forces, however, cannot explain why steam can form or why water has a boiling point of 100 degrees centigrade. In classical physics, where atoms and molecules exist in a "passive space", their motion and change of configuration can only occur with the exogenous contribution of energy. In quantum physics, atoms and molecules are not placed in a "passive space" but in the "vacuum", not intended as "nothingness", in which, through energy ratios, oscillatory phenomena occur that can modify their motion and configuration. In a given expandable space, atoms and molecules can oscillate in phase, giving rise to the so-called "coherence domains". Water is a dipolar liquid crystal with induced dipole induced dipole or instantaneous dipole-instantaneous dipole interactions, being able to become permanent dipole-permanent dipole as when it assumes the structure of ice by reducing temperature. In liquid water there are structures similar to ice, which probably justify the maintenance of the dipole, and simpler structures called clusters that possess less ordered dynamics than those of ice and therefore with possible minor effects in maintaining the dipolar effect.
Water and its Biophysical Characteristics
Using a spectroscopic technique based on ultrafast laser sources, the European Laboratory for Nonlinear Spectroscopy (Lens), the National Institute of Optics-CNR and the University of Physics of Florence have demonstrated that water in the liquid state does not simply assume the shape of the container but the two forms described above. These, which have been defined as transient structures due to their aggregation and disaggregation in infinitesimal fractions of a second, could explain why the solid phase of water, ice, floats on the liquid phase, the only molecule that manifests this phenomenon. The presence of these aggregative modes has been confirmed, even more clearly, by putting water in a metastable state using particularly pure water brought to a temperature below the freezing point. This double aggregative mode makes water a complex element to describe through mathematical models but could explain its anomalous characteristics compared to all other liquids. Following these observations, what has been defined as the "memory of water" could become credible. In water, a phenomenon similar to that described for ultra-pure silicon occurs. Silicon is a crystal and a pure semiconductor that behaves practically as an insulator, conducting current in a negligible way. Silicon, like germanium and gallium arsenide other semiconductors, with the addition of impurities (doping) of arsenic, phosphorus, gallium or boron for example, is made more conductive if subjected to the action of an electric field, with exposure to light and other means. The conduction of current in a semiconductor occurs through "free electrons" and "holes". Doping a semiconductor, such as silicon, with impurity atoms, such as boron and phosphorus creates an unequal number of free electrons and holes. This leads, when the atoms present in a crystal are aggregated in coherence clusters, through specific pulses, to "memorization".
Water and the Demonstration of its Involvement in Biophysical Dynamics
In this way, the surface memory of the clusters and the electromagnetic fields of the atoms themselves with the relative spins of their electrons assign to the clusters the ability to receive information and memorize it to then release it at the right conditions and times. Water, including that of living beings, is an excellent conductor functionally comparable to doped silicon where domains of coherence can be evoked in which the clusters of water molecules come into play, which are formed, even with structures similar to ice, thanks to the relative atoms through specific pulses. In this way, the surface memory of the clusters and the electromagnetic fields of the atoms themselves with the relative spins of their electrons, also for water similarly to doped silicon, assign to the clusters the ability to receive information and memorize it to release it at the right time in the water or other solvent with which they come into contact and/or are nearby. In confirmation of this phenomenon, the Journal of Physic in 2013 published a research work, conducted by two separate study groups, the first French, coordinated by Prof. Luc Montagnier, Nobel Prize winner for medicine, with biologists Lavallè and Aissa, and the second Italian, coordinated by Prof. Emilio Del Giudice, physicist at the International Institute for Biophotonics in Neuss, Germany, with Dr. Giuseppe Vitiello, of the Department of Mathematics and Computer Science of the University of Salerno, and with Dr. Alberto Tedeschi, researcher at White HB in Milan, in which it is demonstrated how some DNA sequences induce low frequency electromagnetic signals in the highly diluted aqueous solution in which they are released, a solution that maintains and releases information with the characteristics of diluted DNA sequences. As with the behavior of ferromagnetic materials, water shows a "memory" of its history that cannot be attributed solely to the difference in molecular composition between the magnetized material and the normal one. : Various researchers have come to this conclusion given the now extensive physical and chemical evidence that water manifests so much as to attribute to it the ability to reveal a phenomenon similar to hysteresis through the clusters in which the in-form-ation is stored. This occurs at a sub-atomic and atomic level in every place where water is present including living organisms in which low frequency and intensity bio-electronic processes come into play, capable of triggering not only low energy atomic transmutations, conditioned by the electromagnetic fields existing in every atomic particle and conditioned by the terrestrial and universal electromagnetic field. The new science of structural biology is based on this knowledge and will significantly modify what is known in basic biology. We have demonstrated an example of this new way of studying biology with synthetic hemoglobin in which, even by replacing numerous amino acids but maintaining the three-dimensional structure unchanged, the function does not change. This phenomenon can occur in vivo because intracellular water shows a complex multilayer structure. This structural data has been highlighted using X-ray diffraction and neutron scattering methods, including QENS. This evidence has shown that biochemical reactions cannot occur by free diffusion. For the glycolytic pathway, for example, the metabolites linked to enzymes are channeled through structured water and similarly for proteins it has been shown that it is the interaction of structured water with biological macromolecules that causes their folding and therefore their function, unlike what was believed, until the recent past, in which proteins folded by other mechanisms were simply maintained in their configuration by water. This evidence has led to the definition of the water of living beings as “Biowater”.
“Biophysical” Water in Biological Dynamics
This “water cluster” system, which tends to deteriorate in cells over time, improves signal transduction by allowing one form of energy to be converted into another more quickly, an example of this is the light energy perceived by the human eye which translates into electronic signals for the brain. Biochemical research is discovering that intracellular water contains cluster formations organized in overlapping layers on the surface of both structural and functional proteins. They have also demonstrated that protein function is achieved and can vary thanks to the interaction between protein and structured water where the structural structure of water seems to prevail for the biological effect. The evidence has been so clear and convincing that the term Metabolon has been coined in biochemical research, meaning a metabolically active cluster. The BCS (Bioelectronic Connectional System) principle fits well into this new way of conceiving the cellular biological system, according to which it is believed that there is a functional continuity between the cytoskeleton, an intracellular protein structure, and the extracellular protein structures considered the morphological expressions of a coherent and cooperative communication system between cells through piezoelectric, electromagnetic interactions induced by photons, wave quanta, and sound interactions induced by phonons, wave quanta, all energies that propagate inside the crystal, in this case the water clusters. Structured water therefore acts in the system as a transducer induced by endogenous and exogenous elements, allowing the protein system, and not only, to optimally carry out its biological activity that is lost with advancing age due to the acquired dynamic rigidity of structured water. In this sense, the reacquisition of an "adequate cellular cluster hydration" has allowed an improvement in metabolic efficiency. However, adequate hydration does not simply mean increasing intracellular water but means inducing all related mechanisms in the context of the acquired clusters. What was expressed by Dr. John G Watterson correlates well with these principles, in fact the concept of force and work in the macroscopic are applicable up to the molecular level, where the prevalence of thermal energies is found. These energies still make the relationship between sea and protein, the first level of living matter, incomprehensible, but which do not prevent us from considering the water clusters as the binding elements of the molecules and the elements on which the atmospheric pressure defined at this hierarchical level as "pixel pressure" is exerted. Below this hierarchical level, the tension between the molecules prevails, a phenomenon that explains, for example, the stability and motor coordination that can be highlighted through the coherence demonstrated by the cell understood as a functional unit rather than as a set of independent processes. This concept, to better understand the new way of conceiving biological processes, seen in the cellular compartment, escapes the assumption of the compartmentalization of the human body and living beings in general. In fact, from the studies carried out, concrete evidence has emerged in favor of the participation of water molecules in the transfer of protons in various biochemical reactions and in the transfer, thanks to inter-molecular resonances, of photonic energy over long distances with efficiency, speed and without dissipation. It is essential to understand that living beings are an open system composed of numerous subsystems where if one subsystem does not work or works badly, the whole complex is affected. In the biological field, each subsystem participates directly or indirectly in the efficiency of cells, tissues, and organs of living beings.
Water: The Limits of the Classical Vision and Confirmations from Past Experiences
An example of what was stated above comes from the aerospace experiences that had to deal with an extremely serious pathology manifested by the first astronauts and due to the separation from the pulsating electromagnetic field of the earth. The astronauts at the time of departure did not present any pathology, upon their return, in addition to problems mainly related to the osteo-muscular system, one of the major imbalances detected was the "state of oxidative stress". This occurred, as emerged from subsequent studies, because the astronauts were deprived of the terrestrial electromagnetism during their stay in space, similarly to being locked in a "Faraday cage". The long-term consequences, as highlighted by subsequent studies, could lead to premature aging and the onset of cancer as well as death for various reasons among which the negative action on the bone marrow prevailed. To understand what was stated, it is enough to know that the earth has two magnetic poles, the north pole and the south pole, and that between these a magnetic field is generated that envelops the entire earth, this magnetic field is fundamental for living beings. The problem of moving away from the terrestrial electromagnetic pulsation is now solved because it is artificially reproduced inside spaceships, but a similar procedure is also implemented in the highest floors of very tall skyscrapers. The need to be inside the terrestrial electromagnetic field to keep the organism in the right balance demonstrates that it affects the dynamics of bio-clusters or metabolons. The stored electromagnetic information is an integral part of cellular function, so bio-clusters must be fed by correct and standard basic information for bio-resonance as occurs thanks to the terrestrial electromagnetic field. Based on these findings, it is less difficult to share the thesis that an adequately configured exogenous biocluster can favorably affect cellular dynamics by being able to maintain or restore the state of functional equilibrium.
Water a “Liquid Plasma”
To obtain the above, one must start from the concept that intracorporeal water is in fact a “liquid plasma”. David Bohm, doing research on plasma, considered the fourth state of matter (a globally neutral ionized gas containing high-density electrons and positive atoms), highlighted that when the electrons torn from their atoms are found in the plasma, they no longer behave individually but as interconnected sets, that is, as a coherent “multi-iono-electronic” system. Made up of charged particles, overall motions occur inside it, largely due to long-range electrical forces that, continually recreating themselves, tend to keep the plasma overall neutral, differently from ordinary gases where the motions of the particles are due to short-range electrical forces. These characteristics of plasma make it a good conductor of electricity and an element that reacts to electromagnetic fields. When water, liquid plasma or solvent, comes into contact with a certain introduced substance, electric force or solute, it tends to form “coherent clusters”, interconnected sets, similarly to plasma. These mechanisms lead, through collective excitation frequencies, to create cluster forms with the imprinting of the solute that stabilizes only in the electromagnetic fields of the atoms with spin modification, creating a surface memory. This solvent-solute bond assumes a vibrational state at certain modulated frequencies being able to maintain the acquired state by releasing it when a resonance relationship is established with other water plasma.
Water Study: Current Technology
This set of mechanisms allows the in-formed solvent and the solute to be transferred to specific bio-resonance sites. To study, detect and demonstrate these modulating and modulated frequencies, it is necessary to refer to the chemistry of the surfaces of atomic aggregates. To do this, it is necessary to perform optical spectroscopies in diffuse reflectance and luminescence or high-energy electronic spectroscopies such as XPS (Xray Photoelectron Spectroscopy), EXAFS (Extended Xray Absorption Fine Structure) or XANES (Xray Absorption Near Edge Spectroscopy). As further confirmation, recent discoveries made by researchers at the laboratory of complex fluids and molecular biophysics of the University of Milan (Italy), published in “Science”, have shown that the water in which DNA fragments are immersed has the “spontaneous” tendency to form liquid crystals, very ordered structures in which the molecules are placed in a regular way. The DNA fragments in turn tend to adhere to each other forming chains longer than the single molecules. This demonstrates the self-organizing properties of matter and could create the conditions for understanding the birth of the prebiotic world.
BioEnergem Arrival Points
: Strengthened by the innumerable evidence in favor that research has given on the dynamics of the water molecule, we have begun to evaluate the most significant data, in reference to human biology alone, taking the cell as an elementary reference. Given the most current research, while in the recent past it was believed that the stem cell carried out its prevalent biological task in intrauterine life, today we know that it is the stem cells that direct all the biological events during our life. It begins with the blastomeres, totipotent stem cells, as a replicative event of the zygote that is formed from the egg-sperm encounter, and ends with the unipotent stem cells, passing through the differentiation into pluripotent and multipotent, the latter often present in tissues and from which two differentiated tissue lineages can derive, which allow, throughout life, the replacement of our tissues. The tissue-specific stem cell has therefore become the cell to study and possibly to treat because it is from it that the biological balance and the functioning of the resulting organ derives. The bio-resonance of different body tissues was then studied, taking into account, as an additional parameter, what is known to date about stem cell bio-resonance. By setting up an in-form-action in dynamized demineralized water, through a computerized system and doping it with active ingredients chosen based on the desired pharmacodynamic effect and the characteristic of the induced cluster stability, the conditions were created for the diluted active ingredient to carry out its biological effect preferentially on tissues expressing similar bio-resonance. The doping was carried out with active ingredients at dosages considered optimal under all pharmacokinetic profiles, guaranteeing the appropriateness of the desired effect and maintained, in our opinion, also thanks to the action carried out by the specific bio-physical configuration of the solvent.