Understanding the Piezoelectric effect on the human body
Posted: Thu Sep 12, 2013 3:27 pm
According to www.tuberose.com:
The Human Crystal
The key to understanding the assimilation of energy into our physical structure is through the awareness of our bodies as a series of synchronous, interacting crystal structures. The body on this level is linked by oscillating solid and liquid crystals that form an overall energy pattern for the total body. Each organ, gland, nerve system, cell and protein structure--even the tissue salts in the body--shows a level of organization with some degree of crystalline-like function. Marcel Vogel, the world-renowned crystal expert, has pointed out that the human energy field exists as an array of oscillating energy points which have a layered structure and a definite symmetry. He points out that these properties fulfill the definition of a normal crystal in material form. Our bone structure has long been recognized as a solid crystal structure with piezoelectric properties. A piezoelectric effect is the creation of an electromagnetic field pulse when a crystalline structure is physically stressed or pushed out of its normal shape. As a solid crystal, it has the ability to convert vibrational energy, such as sound or light, into magnetic and electric energy. Crystals can absorb, store, convert, amplify, transduce and transmit vibrational energies, which have biological effects. Psychic healing energies alter the measurable electromagnetic pattern of a crystal, suggesting that subtle energies can alter the physical structure of a crystal. When physical stress or an electromagnetic field (EMF) is applied to a piezoelectric crystal, the crystal will change shape and generate an EMF. Bone, quartz crystal and tourmaline are among the few crystal forms with piezoelectric properties.
Studies suggest that the crystalline-like components of the extra cellular matrix of bone, such as collagen and proteoglycans, possess piezoelectric qualities. Mineralized tissue such as cartilage, dentin, teeth in general and relatively non-mineralized tissues such as keratin in skin, elastin, artery tissue, connective tissue (tendons and ligaments), and even some amino acid crystals (glysine, proline and hydroxyproline) all have piezoelectric properties. The main forces which create pulsed piezoelectric EMFs in bone are the anti-gravity muscles, the cardiovascular system, voluntary muscles and impact with the environment. Projected EMFs have the ability to create a piezoelectric response in bone. These fields have biological activity affecting: cell nutrition, local pH control, enzyme activation and suppression, orientation of intra and extra cellular macromolecules, migratory and reproductive activity of cells, synthetic capacity and specialized function of cells, contractility and permeability of cell membranes, and energy transfer. Another type of electric or electromagnetic field response is also found in bone structure, called streaming potentials, an electrical field created by the flow of ions, charged solutes and cells such as red blood cells through the tissues, carried by extra cellular fluids such as blood through the extra cellular matrix. When the bone is even subtly bent from pressure by such events as walking or even by the pulse of our arteries, the extra cellular fluids are pumped through the bone. A charge is created by the electrostatic interaction of the charged fluids moving past the fixed charge in the crystalline bone structure. These fluids interact with the piezo fields of bone.
The Human Crystal
The key to understanding the assimilation of energy into our physical structure is through the awareness of our bodies as a series of synchronous, interacting crystal structures. The body on this level is linked by oscillating solid and liquid crystals that form an overall energy pattern for the total body. Each organ, gland, nerve system, cell and protein structure--even the tissue salts in the body--shows a level of organization with some degree of crystalline-like function. Marcel Vogel, the world-renowned crystal expert, has pointed out that the human energy field exists as an array of oscillating energy points which have a layered structure and a definite symmetry. He points out that these properties fulfill the definition of a normal crystal in material form. Our bone structure has long been recognized as a solid crystal structure with piezoelectric properties. A piezoelectric effect is the creation of an electromagnetic field pulse when a crystalline structure is physically stressed or pushed out of its normal shape. As a solid crystal, it has the ability to convert vibrational energy, such as sound or light, into magnetic and electric energy. Crystals can absorb, store, convert, amplify, transduce and transmit vibrational energies, which have biological effects. Psychic healing energies alter the measurable electromagnetic pattern of a crystal, suggesting that subtle energies can alter the physical structure of a crystal. When physical stress or an electromagnetic field (EMF) is applied to a piezoelectric crystal, the crystal will change shape and generate an EMF. Bone, quartz crystal and tourmaline are among the few crystal forms with piezoelectric properties.
Studies suggest that the crystalline-like components of the extra cellular matrix of bone, such as collagen and proteoglycans, possess piezoelectric qualities. Mineralized tissue such as cartilage, dentin, teeth in general and relatively non-mineralized tissues such as keratin in skin, elastin, artery tissue, connective tissue (tendons and ligaments), and even some amino acid crystals (glysine, proline and hydroxyproline) all have piezoelectric properties. The main forces which create pulsed piezoelectric EMFs in bone are the anti-gravity muscles, the cardiovascular system, voluntary muscles and impact with the environment. Projected EMFs have the ability to create a piezoelectric response in bone. These fields have biological activity affecting: cell nutrition, local pH control, enzyme activation and suppression, orientation of intra and extra cellular macromolecules, migratory and reproductive activity of cells, synthetic capacity and specialized function of cells, contractility and permeability of cell membranes, and energy transfer. Another type of electric or electromagnetic field response is also found in bone structure, called streaming potentials, an electrical field created by the flow of ions, charged solutes and cells such as red blood cells through the tissues, carried by extra cellular fluids such as blood through the extra cellular matrix. When the bone is even subtly bent from pressure by such events as walking or even by the pulse of our arteries, the extra cellular fluids are pumped through the bone. A charge is created by the electrostatic interaction of the charged fluids moving past the fixed charge in the crystalline bone structure. These fluids interact with the piezo fields of bone.