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Discussion in 'Redox Rx' started by Jack Kruse, Jan 8, 2019.

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  1. Jack Kruse

    Jack Kruse Administrator

    California recently passed laws about solar power conversion. If you live out there here is a PSA for you. Anyone who has solar grids I ask one question: How long have you been diabetic and they all ask me how did you know I got diabetes after my solar panels were installed? My answer is I read a lot and your docs do not. Dirty Electricity = more chronic BLUE LIGHT EXPOSURE = melanopsin damage to retinol = Elevates Blood Sugar Among Electrically Sensitive Diabetics and May explain brittle Diabetes and type 1 cases. DE has the same effect as nnEMF = AMPK pathways in cells that leads to diabetes. It also can lead to other nasty mtDNA diseases. See Steve Jobs. Black swans know to test the converter...........lot's of them make nnEMF and they allow massive amounts of dirty electricity (DE) from the power grid to enter your home. Just say no to solar grids if you are wise.

    Transient electromagnetic fields (dirty electricity), in the kilohertz range on electrical wiring, may be contributing to elevated blood sugar levels among diabetics and pre-diabetics. By closely following plasma glucose levels in four Type 1 and Type 2 diabetics, we find that they responded directly to the amount of dirty electricity in their environment. In an electromagnetically clean environment, Type 1 diabetics require less insulin and Type 2 diabetics have lower levels of plasma glucose. Dirty electricity, generated by electronic equipment and wireless devices, is ubiquitous in the environment. Exercise on a treadmill, which produces dirty electricity, increases plasma glucose. These findings may explain why brittle diabetics have difficulty regulating blood sugar. Based on estimates of people who suffer from symptoms of electrical hypersensitivity (3-35%), as many as 5-60 million diabetics worldwide may be affected.

    Exposure to electromagnetic pollution in its various forms may account for higher plasma glucose levels and may contribute to the misdiagnosis of diabetes. Reducing exposure to electromagnetic pollution by avoidance or with specially designed GS filters may enable some diabetics to better regulate their blood sugar with less medication and borderline or pre-diabetics to remain non-diabetic longer." https://www.ncbi.nlm.nih.gov/pubmed/18568931

    This is why India has 117 million skinny diabetics now even though most of their population is between 20N and O degrees latitude........they brought in the power grid and nnEMF to this population and in 25 years they have created the largest colony of diabetics on Earth.
    Brent Patrick, mrc, recoen and 4 others like this.
  2. Jack Kruse

    Jack Kruse Administrator


    And stimulants are great. Most Americans drink a few cups of stimulants each morning ☕️ to get themselves up to face the daily grind.

    But you know what's not great? Being stimulated 24 hours of every day by blue light. This ruins the dose response curve of the ROS/RNS. That is exactly what is occuring to modern humans because they live indoors and use tech screens to an excess. What else is different about this version of blue light? The blue light that wakes us up in the sun is NEVER present without 42% IR-A light which is red light. AM sunlight has 42% red light in it and only 1600K of blue light. This small stimulus of blue light is about to improve executive function of the prefrontal cortex. This blue light needs red light to control the oxidation ROS/RNS that blue light makes when it is present without red light in our light environment.

    ALL CELLS contain ion channels in their outer (plasma) and inner (organelle) membranes. Ion channels, similar to other proteins, are targets of oxidative impact, which modulates ion fluxes across membranes. Subsequently, these ion currents affect electrical excitability, such as action potential discharge (in neurons, muscle, and receptor cells), alteration of the membrane resting potential, synaptic transmission, hormone secretion, muscle contraction or coordination of the cell cycle.

    An important class of ion channels is the family of potassium (K+) channels, they are not only in charge of the membrane resting potential or the repolarization of the action potentials, but also control cell proliferation or transmitter/hormone release, to name a few. A subgroup of K+ channels are the so called calcium (Ca2+) activated K+ channels which need either an increase of Ca2+ at their intracellular face to open or a combination of Ca2+ and voltage to function properly. Maxi Ca2+ activated K+ channels, also named BK channels which constitute a subgroup of Ca2+ activated K+ channels.

    DO you know where these ion channels exist in humans? They are found on the inner mitochondrial membrane. EXCESSIVE BLUE LIGHT exposure destroys these potassium ion channels to ruin signaling of cells that control the circadian mechanism and are associated with leptin and melanopsin. LET THAT SINK IN.

    Mitochondria are a major source of ROS generation targeting BK channels. Blue light creates that stimulus when RED LIGHT IS ABSENT.

    The inner membrane of mitochondria contains BK channels (mtBK) which appear essential in the production of ROS. mtBK channels appear to be inserted into the mitochondrial membrane with the toxin binding sites for charybdotoxin and iberiotoxin exposed to the mitochondrial intermembrane space. This can be accessed by using outside-out patch configuration of the inner mitochondrial membrane. Consequently the C-terminal tail domain including the Ca2+ binding site is localized to the mitochondrial matrix where the proton gradient exists. RED LIGHT MOVES PROTONS BEST. Blue light creates the most ROS. Do you understand why subtracting red light from blue creates mitochondrial diseases?

    When you look at your computer screen or phone screen, your brain wakes up. It's alert. Because it hears "It's day time! Time to be focused and do human things!"

    But guess when it's bad to hear that signal?

    The other 14 hours of the day that the Sun wouldn't normally be sending such a signal to the brain.

    We need a break from the stimulus. Otherwise we fry our circuits and get fatigued.

    So take a break from the blue. Stop the intravenous coffee to your SCN and allow yourself to relax.

    This is why I Chillax, with Ra Optics blue blockers when I face when red light is removed from the blue light stimulus. The discount code is OPTIMAL.

    Brent Patrick likes this.
  3. Jack Kruse

    Jack Kruse Administrator

    Your dermatologist is giving you a disease faster than the pizza you feel guilty about eating yesterday.
    "They neglect the fact that increased sun exposure, based on latitude, has been associated with protection from several different types of cancer, diabetes, multiple sclerosis and other diseases like high blood pressure, schizophrenia, arthritis and IBS"
    But at least you'll have that virgin vampire-like skin.
    Lots of gems in this paper. Read it and share it...maybe even with your dermatologist or eye doctor. https://www.tandfonline.com/doi/full/10.1080/07315724.2015.1039866
    Brent Patrick and JanSz like this.
  4. Jack Kruse

    Jack Kruse Administrator

    Nitric oxide deficiency is caused predominately by a lack of sun. This is especially true as we age because we lose the ability to make NO naturally. This links how and why diabetes is linked to a lack of sunlight.
    The GLUT4 receptor requires adequate nitric oxide production from our arterial bed in order to translocate with insulin to bring glucose into the cell.
    Deficiency of nitric oxide, increases in blood sugar.
    The authors suggest that possible mechanisms for this increased mortality include hyperglycemia-induced changes in coagulation (clotting), worsening of endothelial function (the function of the walls of blood vessels), and overproduction of inflammatory cytokines produced by the immune system (the so-called cytokine storm).
    NO is anti-thrombotic (inhibits platelet aggregation).
    NO inhibits microvascular inflammation.
    NO controls endothelial permeability.
    NO inhibits inflammasomes (IL1B, IL18) and decreases cytokine storm.
    NO scavenges free radicals. NO is made from UVA and UVB sunlight!
    Increased blood glucose increases oxidative stress in cells.
    Optimize nitric oxide from the sun for prevention as well as recovery.
    You can increase nitrate-rich veggies like arugula, spinach, bok choy, butter lettuce, celery, beets but this is worthless without the sun. https://www.sciencedaily.com/releas…/2020/…/200710212247.htm
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