Darkfield Microscopy and Pleomorphism
Definitions
Pleomorphism
Darkfield Microscopy
Definitions
Darkfield is a special condenser used on the microscope that enables the blood sample to be illuminated from the sides, making the various components phosphoresce behind a dark background. It is then possible to see very small particles, smaller than a cell, which would not normally be visible under a normal light microscope
Pleomorphism and pleomorphology come from the Greek words pleo, meaning many, and morph, meaning forms. Thus it is the science and theory behind the different changes in form of microbiological particles.
Symbiosis is a mutual and beneficial relationship between any two organisms of different species.
Pleomorphism
Pleomorphism is a concept discovered in the early 19th Century. It shows that blood is not sterile and germ-free, instead there are living micro-organisms in the blood of all warm-blooded animals called endobionts, colloids or protits. They exist in symbiosis with their hosts and even form a part of their cells’ organelles.
Contrary to modern medicine (which is founded on the idea of monomorphism, that all organisms remain in the same form and do not change), pleomorphism maintains that these protits can change into a virus, a bacteria or a fungus and then return back into their original protit form. The protit itself never dies.
Pleomorphism was first mentioned by Béchamp (1816-1908) who called these micro-organisms “microzyma”, and later Günther Enderlein (1872-1968) continued Béchamp’s work and demonstrated that protits, and not cells, are the smallest units of life. The principles of pleomorphism and the sexual reproduction of bacteria was confirmed 40 years after Enderlein by the Nobel Prize laureates Lederberg, Taumg and Hays in 1958.
The state of our internal environment and the condition of our blood (pH, etc.) will determine in which form these protits stay. If the surrounding environment becomes too acidic or polluted, the protits change. At this point they lose their symbiotic relationship with our body. They first change into viruses, then into bacteria, and finally into fungal forms. Each of these stages is increasingly more antagonistic to the surrounding cells.
Therefore all diseases are related to the evolution and pathogenic development of the protit, meaning that if our internal environment is out of balance, the protits enter a developmental cycle and change from their primitive, non-pathogenic state into a more pathogenic state. It has been shown, however, that it is not the organisms themselves that produce the disease, rather it is the waste products they produce that affects the unbalanced cell metabolism of the human body and produces disease.
Pleomorphism therefore places the host organism or patient as an active participant in the treatment of their disease. Through changing the internal environment, treating the cause of the disease and not only it's symptoms, it allows the body to bring itself back into balance and health.
Darkfield Microscopy
A drop of live blood (that has not been killed by staining) from the patient's finger is viewed under a special microscope using a darkfield condenser. This enables the blood sample to be illuminated from the sides, making the various components phosphoresce behind a dark background. It is then possible to see very small particles, smaller than a cell, which would not normally be visible under a normal light microscope. All the living components of the blood are seen clearly, and can be viewed by the patient and practitioner using a video camera and a television monitor.
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The state of these living components can be observed, and as a result health imbalances may be averted by reading these early warning signs and making the necessary changes that will allow one to rebalance the physiology. The progression and signs of reversal of degenerative conditions that may already be in motion can also be tracked.
Depending on the irregularities found in the blood, there are a wide variety of different conditions that can be determined. The following are just a few examples:
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Indication of low immune status
• Liver and spleen stress
• Atherosclerotic predisposition
• Digestive problems
• Predisposition to degenerative diseases