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So what really causes cataracts?

Discussion in 'Educating Doctors' started by Jack Kruse, Mar 10, 2020.

  1. Jack Kruse

    Jack Kruse Administrator

    Many roads lead to them but blue light and other forms of nnEMF are key to their etiology.
    The glyoxalase system is a set of enzymes that carry out the detoxification of methylglyoxal and the other reactive aldehydes that are produced as a normal part of metabolism. This system has been studied in both bacteria and eukaryotes. This system is linked to cataract formation in humans.

    Cataracts in the eye are largely driven by the glycation of lens proteins. The glycation of lens proteins is largely driven by methylglyoxal. In direct contradiction to much of the low-carbohydrate literature, glycation is not all driven by dietary carbohydrates. It can be driven by nnEMF because this enzyme operates with transition metals which are very sensitive to nnEMF in the microwave range. This is why in Dr. Becker's book, "The Electric Body", Dr. Savitz found increased cataract formation in people who were exposed to RF/microwaves by their jobs. Methylglyoxal is quantitatively the most important source of advanced glycation end products in the body.⠀Few people seem to know that too.

    Methylglyoxal can be derived from glucose, or it can be derived from ketones, or it can be derived from protein. So diet is not the driver of this condition. This paper should be illuminating how nnEMF destroys glutathione levels via the glyoxalase system. https://pubs.acs.org/doi/abs/10.1021/jacs.0c01329
     
  2. Electromagnetic absorption by water - Liquid water has a broad absorption spectrum in the microwave region, which has been explained in terms of changes in the hydrogen bond network giving rise to a broad, featureless, microwave spectrum. Liquid water has no rotational spectrum but does absorb in the microwave region. Its weak absorption in the visible spectrum results in the pale blue color of water.

    Water is a very strong absorber of electromagnetic radiation in the infrared (IR) region. This is good news for those who practice morning sun gazing.

    The asymmetrical structure of the water molecule, which can be likened to a three-dimensional anharmonic vibrator, also affects its vibrational states. It is responsible for the fact that water molecules have a high, permanent dipole moment: pp = 1.854 debye in the equilibrium state.

    Water's molecular transitions from the ground state to the first excited state is characterized in four categories of such transitions, namely:
    ● Harmonic transitions (also known as overtones) from the ground state
    ● Combination transitions from the ground state
    ● Harmonic transitions between excited states only
    ● Combination transitions between excited states only

    Individual liquid water molecules are not independent of each other but interact through intermolecular forces to form groups of molecules held together by hydrogen bonds—these (H2O)ntype polymers are known as clusters—and other various ionized structures.

    The question - Is the human eye's water (EZ) protective or more vulnerable to nnEMF insult?
     
    Last edited: Mar 11, 2020
  3. mrc

    mrc Silver

    Thank you, sir!
    Thus Ra Optics being only part of the mitohacking of this; building biologist, sunshine, grounding, avoiding high population dense areas, more beach time.
     

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