Monday, February 28, 2022

Spike Protein Shedding & Toxicity



What is so extrodinary is that we have leapt to a global distribution model on the back of a truly faux pandemic created by subverting the natural flu season cycle and little else.  Prior to this, any distribution was done initially in small samples to detect dangerous variants.  Today we instead are discovering the variants in the meta stats.  This is still science gone mad.

Here we have a detailed understanding of what we have discovered.  none of this supports using the false Vaccine as a medical intervention.  it is not and it is certainly dangerous and plausible much more so as we go forward.

At the same time, with no claimed motive that is not highly corrupted and suspect, we have alternitive motives, none of which are good news.  It starts with an covert ACt of War aimed at population reduction of potential adversaries.  Then it makes Pearl Harbor a prank.

Spike Protein Shedding & Toxicity

Dr Mark Trozzi
February 26, 2022

https://drtrozzi.org/2022/02/26/spike-protein-shedding-toxicity/

Covid-19 injection victims produce toxic coronoavirus spike proteins internally. They also shed these toxins, which can harm their contacts.


Coronavirus Gene Injections


Following injection with coronavirus genetic material, a person’s cells are modified such that they are directed by foreign viral genetic material to produce large quantities of modified coronavirus spike proteins within themselves. These spike proteins are advertised to be of benefit by triggering the body to produce antibodies that target spike proteins; hence in this way they do induce an immune response.

Destructive Immune Response



Antibody-dependent enhancement of disease

There are very serious problems with this immune response, including antibody mediated selection, antibody dependent enhancement, and immune dysregulation.

These subjects are outside the scope of this article, but can be found within this article and video: Covid “Vaccines”; How Dangerous Are They, and here: How covid jobs harm immunte system & help new variant evolve.

Poisonous Spike Proteins


Spike Glycoprotein

Returning our attention to the spike proteins which are mass produced internally following the genetic injections; spike proteins are poisonous in-and-of-themself . They cause disease. The injection induced unnatural flood of spike proteins, produced by the human cells and circulating throughout the body, are the cause of much of the adverse events and deaths which occur over the weeks and months following injection. Throughout the body, these spike proteins adhere to ACE2 receptors which are found on many different cells, in many different tissues, within many different organs. There, the spike protein has toxic effects. Because of the large variety of tissues and organs rich in ACE2 receptors, spike protein poisoning can present as, or cause, many different forms of disease, such as heart attacks, strokes, myocarditis, miscarriages, rashes, diabetes, gastrointestinal disease, and many more. Dr Alexandra Henrion Caude gave an excellent presentation to the World Council For Health in November 2021 on this subject of diseases caused by spike proteins following covid-19 injections.

Post Injection Detox


Anyone receiving these covid-19 experimental biologics, have many risks and challenges to deal with. Spike proteins are a big part of the problems we face. Detoxifying is important. Here is the World Council For Health spike protein detoxification guide. Honest scientists, doctors and other health experts working together at the WCH, update and advance this and other WCH guidelines on a regular basis.

Shedding


When one’s body is producing any substance, including in this case spike proteins, this substance will generally appear to varying proportions in many tissues and fluids from their body. Spike proteins are definitely shed by the bodies of injected people. see pg 69 of Pfizer’s own document: http://www.voterig.com/pfizervax.pdf

Shed Spike Protein Vulnerability in Contacts


Many people report being unwell with various symptoms, after simply being in contact with people who have received the experimental genetic injections. These reports include: children with nose bleeds after their parents were injected; women with menstrual irregularities or even severe post menopausal uterine bleeding after their partners are injected; breast feeding babies with intestinal bleeding after their mothers were injected; people with rashes after such contact exposure; people with covid like symptoms after exposure and more.

Regarding the shed spike proteins’ impact on uninjected contacts, there exists variation in the levels of sensitivity, and the disease processes invoked. For instance, one injected man’s wife may seem fine, whereas another’s may develop menstrual problems, post menopausal bleeding, a rash, or other symptoms.

Estimating Duration of Shedding and Contact Precaution


Different experimental covid injections use different “trojan horse” methods to get the patented modified coronavirus genetic material into the injected person cells.


PEGylated nanoparticle

Pfizer and Moderna use PEGylated nanoparticles to get spike protein messenger RNA genetic material into the human’s cells. For most injected people with Pfizer or Moderna mRNA experiments, spike protein levels in their blood rise within one or two days after injection, and persist at detectable levels for about 4 weeks after injections. So to be cautious, we recommend being aware and minimizing contact with others for about two months post injection, especially if they are known to be, or prove to be, sensitive,
 .

Modified adenovirus

Unlike Pfizer and Moderna, there are other popular covid injections (Astrazeneca, J and J) which use modified monkey adenoviruses as the Trojan horse element to get coronavirus spike protein DNA into human cells. This DNA hijacks human cellular machinery and directs the production of modified coronavirus spike proteins by those cells. These adenovirus delivery systems deliver coronavirus DNA rather than messenger RNA. This introduces various differences. We do not currently have data for the blood’s spike protein levels over time in the blood following the adnovirus/DNA injections.


Presence of spike protein in blood after injection

Despite the levels of spike protein being low in the blood stream by four weeks post nanoparticle-mRNA injections, we have evidence of the persistent presence of spike proteins in injection victims’ bodies after 4 months, and even after 15 months post injection. Significantly longer periods of caution regarding shedding may be required in some cases. This is affected by variations in the physiology of both the injection victims, and their contacts’ sensitivity to the spike proteins.

The subject is further complicated by legitimate concerns that some people react differently to the gene “therapy” and may continue producing spike proteins longer or even indefinitely. We hope these are rare exceptions. This is a giant unethical experiment at best; so we are having to catch up and learn as we go, how to deal with the crisis that has been inflicted upon us.

Many Roles of Ivermectin



Ivermectin sequesters spike protein; so in addition to its role in treating covid, it also has a potentially important role to play in treating the ill effects of the injections, as well as decreasing shedding, and also treating diseases that the shed spike proteins may induce in the injection victims’ contacts.

Summary


The current forced and coerced injection of most of the population with these dangerous genetic experiments is unprecedented. We are in uncharted territory, so it is important for us to be aware, and pay attention to our own observations. Variations between the amounts and duration of spike protein shedding by injection victims; as well as variation in levels of sensitivity to the toxic effect of the spike protein among their contacts; will require ongoing observation, and caution.

Please take advantage of the resources at the World Council For Health, including the WCH Spike Protein Detoxification Guide.

Spike Protein Detox Guide





This is the first such guide that i have seen and it certainly confirms the essential virtue in applying vitimin C saturation along with ample vitimin D.

What i mean by vitimin C saturation is to ensure every cell in your body has suffgicient vitimin C, allowing it to destry any virus attack.  If someone is setiously sick or vitimin C depleted, then massive doses of over 20,000 mg done intravenously is often used.

Otherwise for most who may well be asymptomatic, an oral dose fo at least 5000 mg up to 15,000mg works well.  Often your body will signal when it has enough.

I personally dose a heaping teaspoon of ascorbic acid into an extract of grapefruit peel i make up to produce a hot tea or beverage that is actually palatable.  This is around 8000 mg with natural quinine.




Spike Protein Detox Guide

Posted onNovember 30, 2021Updated onJanuary 10, 2022


https://worldcouncilforhealth.org/resources/spike-protein-detox-guide/

About this guide

This is an evolving guide with emerging information on how to clear viral and vaccine-induced spike proteins from the body. The lists of herbal and other medicines and supplements have been compiled in a collaboration between international doctors, scientists, and holistic medical practitioners.

As Covid-19 infections, Covid-19 vaccines, and the issue of spike protein harms are new, this guide is informed by established and emerging medical research as well as the clinical experience of international medical doctors and holistic health practitioners; it will evolve as new evidence emerges.

The patent-free medicines and supplements included may have differing availability around the world.

Who might benefit from this information?

If you have had Covid-19, have recently had a Covid-19 injection, or are experiencing symptoms that may be related to Covid-19 vaccine transmission (also called shedding), you may benefit from using one or more items from our list of medicines and supplements to reduce spike protein load. The spike protein, which is both a part of the Covid-19 virus and is produced in our bodies after inoculation, can circulate around our bodies causing damage to cells, tissues, and organs.

Many people have been unable to find help for spike protein related illness (also called spikopathy) through existing healthcare services. This information is relevant if you have experienced adverse reactions after a jab, have Long Covid, or have post Covid-Injection Syndrome (pCoIS).


Important Note: This guide is for education only. If you are ill after vaccination, please seek help from a medical doctor or an holistic health practitioner. For information on post Covid-injection illnesses, see the WCH post-injection guide.

The spike protein can be found in all SARS-CoV-2 variants. It is also produced in your body when you get a Covid-19 injection. Even if you have not had any symptoms, tested positive for Covid-19, or experienced adverse side effects after a jab, there may still be lingering spike proteins inside your body. In order to clear these after the jab or an infection, doctors and holistic practitioners are suggesting a few simple actions.

It is thought that cleansing the body of spike protein (referred to as a detox from here on) as soon as possible after an infection or jab may protect against damage from remaining or circulating spike proteins.

In this guide, we will discuss several key features of these conditions that can be targeted during a detox:

The spike protein
ACE2 receptors
Interleukin 6 (IL-6)
Furin
Serine protease


Important Safety Information Before Beginning a Detox

Please do not undertake a spike protein detox without supervision from your trusted health practitioner. Please note the following:

Pine needle tea, neem, comfrey, Andrographis paniculata – Should NOT be consumed during pregnancy.

Magnesium – Overdosing is possible, and it is more difficult to detect when consuming liposomal magnesium. Therefore, consider a mixture of liposomal and conventional magnesium, or just conventional magnesium.

Zinc – When consuming a multivitamin that already includes zinc, be sure to adjust the quantity of zinc consumed in other supplements.

Nattokinase – Do not take while using blood thinners or if you are pregnant or nursing.

Always consider dosing – When taking a multivitamin, remember to adjust the amount of individual supplements accordingly. (e.g. If your multivitamin contains 15mg of zinc, you should reduce your zinc supplementation by that amount.)

St John’s Wort – This medicine interacts with many pharmaceutical drugs. It should not be taken if you are on other medication without advice from your doctor.
Proactive and supportive measures

Virtually all conditions are more easily managed in their early stages. After all, it is certainly preferable to avert a health crisis entirely than it is to react to one. As the saying goes, an ounce of prevention is worth a pound of cure.

A healthy diet is vital to support a healthy immune system.



Tips

Alter your diet so as to reduce consumption of pro-inflammatory food items. A low histamine diet is recommended. Avoid processed foods and GMOs.

The food items found in Table 1 may also be incorporated into daily diets prior to contracting Covid-19 or receiving a Covid-19 jab, if you still choose to do so.

Intermittent fasting: The practice of intermittent fasting involves implementing meal timing schedules that switch back and forth between periods of voluntary fasting and non-fasting. 

Commonly, those who practice intermittent fasting consume all of their daily calories within 6-8 hours each day. This method of dieting is used to induce autophagy, which is essentially a recycling process that takes place in human cells, where cells degrade and recycle components. Autophagy is used by the body to eliminate damaged cell proteins and can destroy harmful viruses and bacteria post-infection.


Daily consumption of a multivitamin is advised. It provides a basic supply of vitamin A, vitamin E, iodine, selenium, trace elements, and more in addition to vitamin C and vitamin D3.

Heat therapy, such as taking saunas and hot baths, are considered a good way of detoxing spike protein.

What is the spike protein?


The SARS-CoV-2 virus contains a spike protein on its surface. If you’ve seen images of the coronavirus, it is the sun-like protrusions often pictured on the outside of the virus.

During a natural infection, spike proteins play a key role in helping the virus enter the cells of your body. A region of the protein, known as the S2, fuses the viral envelope to your cell membrane. The S2 region also allows for the coronavirus spike protein to be easily detected by the immune system, which then makes antibodies to target and bind the virus.

Spike proteins are also produced by your body after taking a Covid-19 jab, and they function similarly in that they are able to fuse to cell membranes. In addition, since they are made in your own cells, your cells are then targeted by your immune system in an effort to destroy the spike protein. Thus, your immune system’s response to spike proteins can damage your body’s cells.





Emerging evidence is also showing that in the nucleus of our cells the spike protein impairs our cells’ ability to repair DNA.

Why should I consider detoxing from the spike protein?

The spike protein from a natural infection or a Covid vaccine causes damage to our body’s cells, so it is important to take action to detoxify from it as best as we are able.

The spike protein is a highly toxic part of the virus, and research has linked the vaccine-induced spike protein to toxic effects. Spike protein research is ongoing.

The virus spike protein has been linked to adverse effects, such as: blood clots, brain fog, organising pneumonia, and myocarditis. It is probably responsible for many of the Covid-19 vaccine side effects discussed in the WCH post-injection guide.

A Japanese biodistribution study for the Pfizer vaccine found that, in the 48 hours post-vaccination, vaccine particles had travelled to various tissues throughout the body and did not stay at the injection site, with high concentrations found at the liver, bone marrow, and ovaries.

Emerging evidence on spikopathy suggests that effects related to inflammation and clotting may occur in any tissue in which the spike protein accumulates. In addition, peer-reviewed studies in mice have found that the spike protein is capable of crossing the blood-brain barrier. Thus, in humans it could potentially lead to neurological damage if it is not cleared from the body.

How to reduce your spike protein load


Supporting people with Long Covid and post vaccine illness is a new and emerging field of health research and practice. The following lists contain substances that may be useful. This list has been compiled by international doctors and holistic practitioners with diverse experiences in helping people recover from Covid-19 and post injection illness.

Luckily, there are a host of easily attainable, natural solutions to reduce your body’s spike protein load.

Some “Protein Binding Inhibitors” inhibit the binding of the spike protein to human cells, while others neutralize the spike protein so that it can no longer cause damage to human cells.

Spike Protein Inhibitors: Prunella vulgaris, pine needles, emodin, neem, dandelion leaf extract, ivermectin

Spike Protein Neutralizers: N-acetylcysteine (NAC), glutathione, fennel tea, star anise tea, pine needle tea, St. John’s wort, comfrey leaf, vitamin C

Ivermectin has been shown to bind to the spike protein, potentially rendering it ineffective in binding to the cell membrane.

Several plants found in nature, including pine needles, fennel, star anise, St. John’s wort, and comfrey leaf, contain a substance called shikimic acid, which may help to neutralize the spike protein. Shikimic acid may help to reduce several possible damaging effects of the spike protein, and is believed to counteract blood clot formation.

Regular oral doses of vitamin C are useful in neutralizing any toxin.

Pine needle tea has powerful antioxidant effects and contain high concentrations of vitamin C.

Nattokinase (see Table 1), an enzyme derived from the Japanese soybean dish ‘Natto’, is a natural substance whose properties may help to reduce the occurrence of blood clots.

What is the ACE2 receptor?

The ACE2 receptor is located in the cell wall, in lung and blood vessel linings, and in platelets. Spike protein attaches to ACE2 receptors.

It has been proposed that large concentrations of spike protein may bind to our ACE2 receptors and effectively ‘sit there’, blocking the regular functioning of these receptors in various tissues. The disruption of these receptors has been associated with a multitude of adverse effects through altered tissue functioning.

If spike proteins bind to the cell wall and ‘stay put’, they could trigger the immune system to attack healthy cells and possibly trigger autoimmune disease.

The spike protein could attach to ACE2 receptors located on blood platelets and the endothelial cells lining the blood vessels, which may lead to abnormal bleeding or clotting, both of which are linked to Vaccine-induced Thrombotic Thrombocytopenia (VITT)

How to detox your ACE2 receptors


Substances that naturally protect the ACE2 receptors:

Ivermectin
Hydroxychloroquine (with zinc)
Quercetin (with zinc)
Fisetin

Evidence suggests the binding of ivermectin to the ACE2 receptor prevents the spike protein from binding with it instead.
4
What is Interleukin-6?

Interleukin 6, or IL-6, is a primarily pro-inflammatory cytokine protein. This means it is naturally produced by the body in response to infection or tissue damage and initiates the inflammatory response.
Why target IL-6?

Some natural substances help the post-jab detoxification process by targeting Interleukin 6.

Scientific evidence shows that cytokines such as IL-6, are found in far higher levels among those infected with Covid when compared to uninfected individuals.


Pro-inflammatory cytokines such as IL-6 are also expressed post-vaccination, and studies suggest that they may reach the brain.


How to detox from IL-6


The following lists of natural substances, including several basic anti-inflammatory food supplements, can be used to prevent the adverse effects of IL-6 by inhibiting its action.

IL-6 Inhibitors (anti-inflammatories): Boswellia serrata (frankincense) and dandelion leaf extract

Other IL-6 inhibitors: Black cumin (Nigella sativa), curcumin, fish oil and other fatty acids, cinnamon, fisetin (flavonoid), apigenin, quercetin (flavonoid), resveratrol, luteolin, vitamin D3 (with vitamin K), zinc, magnesium, jasmine tea, spices, bay leaves, black pepper, nutmeg, and sage

Several natural, plant-based substances are used in antiviral therapy. The plant pigment quercetin has been shown to display a broad range of anti-inflammatory and antiviral effects.

Zinc has been shown to work as a potent antioxidant, which protects the body from oxidative stress, a process associated with DNA damage, excess inflammation, and other damaging effects.

What is furin?

Furin is an enzyme, which cleaves proteins and makes them biologically activate.

Why target furin?

Furin has been shown to separate the spike protein and thus allow the virus to enter human cells.

A furin cleavage site is present on the Covid spike protein, which is thought to make the virus more infectious and transmissible.

Furin inhibitors work by preventing cleavage of the spike protein.

How to detox from furin

Substances that naturally inhibit furin:
Rutin
Limonene
Baicalein
Hesperidin
What is serine protease?

Serine protease is an enzyme.
Why target serine protease?

Inhibiting serine protease can prevent spike protein activation and also reduce viral entry to cells, hence reducing infection rate as well as severity.

How to detox from serine protease


Substances that naturally inhibit serine protease and may help to reduce spike protein levels in the body:
Green tea
Potato tubers
Blue green algae
Soybeans
N-Acetyl Cysteine (NAC)
Boswellia (frankincense)


What to Take? How much to take? Where does it come from? Where to get it?

Table 1. Medicines and supplements that can be considered
Substance Natural Source(s) Where to Get Recommended Dose
Ivermectin Soil bacteria (avermectin) On prescription
0.4mg/kg weekly for 4 weeks, then monthly

*Check package instructions to determine if there are contraindications prior to use
Hydroxychloroquine On prescription 200mg weekly for 4 weeks *Check package instructions to determine if there are contraindications prior to use

Vitamin C Citrus fruits (e.g. oranges) and vegetables (broccoli, cauliflower, brussel sprouts) Supplement: health food stores, pharmacies, dietary supplement stores, online 6-12g daily (divided evenly between sodium ascorbate (several grams), liposomal vitamin C (3-6g) & ascorbyl palmitate (1 – 3g)

Prunella Vulgaris (commonly known as self-heal) Self-heal plant Supplement: health food stores, pharmacies, dietary supplement stores, online 7 ounces (207ml) daily

Pine Needles Pine tree Supplement: health food stores, pharmacies, dietary supplement stores, online Consume tea 3 x daily (consume oil/resin that accumulates in the tea also)

Neem Neem tree Supplement: health food stores, pharmacies, dietary supplement stores, online As per your practitioner’s or preparation instructions

Dandelion Leaf Extract Dandelion plant Supplement (dandelion tea, dandelion coffee, leaf tincture): natural food stores, pharmacies, dietary supplement stores, online Tincture as per your practitioner’s or preparation instructions

N-Acetyl Cysteine (NAC) High-protein foods (beans, lentils, spinach, bananas, salmon, tuna) Supplement: health food stores, pharmacies, dietary supplement stores, online Up to 1200mg daily (in divided doses)

Fennel Tea Fennel plant Supplement: health food stores, pharmacies, dietary supplement stores, online No upper limit. Start with 1 cup and monitor body’s reaction.

Star Anise Tea Chinese evergreen tree (Illicium verum) Supplement: health food stores, pharmacies, dietary supplement stores, online

No upper limit. Start with 1 cup and monitor body’s reaction.

St John’s Wort St John’s wort plant Supplement: health food stores, pharmacies, dietary supplement stores, online As directed on supplement

Comfrey Leaf Symphytum plant genus Supplement: health food stores, pharmacies, dietary supplement stores, online As directed on supplement

Nattokinase Natto (Japanese soybean dish) Supplement: health food stores, pharmacies, dietary supplement stores, online As directed on supplement

Boswellia serrata Boswellia serrata tree Supplement: health food stores, pharmacies, dietary supplement stores, online As directed on supplement

Black Cumin (Nigella Sativa) Buttercup plant family Grocery stores, health food stores
Curcumin Turmeric Grocery stores, health food stores

Fish Oil Fatty/oily fish Grocery stores, health food stores Up to 2000mg daily

Cinnamon Cinnamomum tree genus Grocery store

Fisetin (Flavonoid) Fruits: strawberries, apples, mangoes Vegetables: onions, nuts, wine Supplement: health food stores, pharmacies, dietary supplement stores, online Up to 100mg daily (Consume with fats)

Apigenin Fruits, veg & herbs parsley, chamomile, vine-spinach, celery, artichokes, oregano Supplement: health food stores, pharmacies, dietary supplement stores, online 50mg daily


Quercetin (Flavonoid) Citrus fruits, onions, parsley, red wine Supplement: health food stores, pharmacies, dietary supplement stores, online Up to 500mg twice daily, Consume with Zinc

Resveratrol Peanuts, grapes, wine, blueberries, cocoa Supplement: health food stores, pharmacies, dietary supplement stores, online Up to 1500mg daily for up to 3 months

Luteolin Vegetables: celery, parsley, onion leaves

Fruits: apple skins, chrysanthemum flowers Supplement: health food stores, pharmacies, dietary supplement stores, online 100-300mg daily (Typical manufacturer recommendations)

Vitamin D3 Fatty fish, fish liver oils Supplement: health food stores, pharmacies, dietary supplement stores, online 5000 – 10,000 IU daily

Vitamin K Green leafy vegetables Supplement: health food stores, pharmacies, dietary supplement stores, online 90-120mg daily (90 for women, 120 for men)

Zinc Red meat, poultry, oysters, whole grains, milk products Supplement: health food stores, pharmacies, dietary supplement stores, online 11-40mg daily

Magnesium Greens, whole grains, nuts Supplement: health food stores, pharmacies, dietary supplement stores, online Up to 350mg daily

Jasmine Tea Leaves of common jasmine or Sampaguita plants Grocery store, health food stores Up to 8 cups per day

Spices Grocery store

Bay Leaves Bay leaf plants Grocery store
Black Pepper Piper nigrum plant Grocery store
Nutmeg Myristica fragrans tree seed Grocery store
Sage Sage plant Grocery store

Rutin Buckwheat, asparagus, apricots, cherries, black tea, green tea, elderflower tea Supplement: health food stores, pharmacies, dietary supplement stores, online 500-4000mg daily (consult healthcare provider before taking higher-end doses)

Limonene Rind of citrus fruits such as lemons, oranges, and limes Supplement: health food stores, pharmacies, dietary supplement stores, online Up to 2000mg daily

Baicalein Scutellaria plant genus Supplement: health food stores, pharmacies, dietary supplement stores, online 100-2800mg

Hesperidin Citrus fruit Supplement: health food stores, pharmacies, dietary supplement stores, online Up to 150mg twice daily

Green Tea Camellia sinensis plant leaves Grocery store Up to 8 cups of tea a day or as directed on supplement

Potatoes tubers Potatoes Grocery store

Blue Green Algae Cyanobacteria Supplement: health food stores, pharmacies, dietary supplement stores, online 1-10 grams daily

Andrographis Paniculata Green chiretta plant Supplement: health food stores, pharmacies, dietary supplement stores, online 400mg x 2 daily

*Check for contradictions

Milk Thistle Extract Silymarin Supplement; Health food stores, pharmacies, dietary supplement stores, online 200mg x 3 daily

Soybeans (organic) Soybeans Grocery store, health food stores


Most of these items are easily accessible in local grocery stores or as nutritional supplements in health food stores.

Note: This list is not comprehensive and other substances, such as serrapeptase and CBD oil, have also been suggested. The World Council for Health will continue to update this document as new information emerges.

Some holistic practitioners also recommend substances to cleanse the body of metals after vaccination, such as zeolite and activated charcoal. The WCH will prepare guidance on how to detox from metals in due course.

Top ten spike protein detox essentials:

Vitamin D
Vitamin C
NAC (N-acetylcysteine)
Ivermectin
Nigella seed
Quercetin
Zinc
Magnesium
Curcumin
Milk thistle extract


For more information and specific protocols, here are a few websites that may be of interest:

Click here to download a PDF guide from Caring Healthcare Workers Coalition.


If you found this article useful or know someone that it could help, please take a moment to share it!

Does Ivermectin Cure Cancer?



What i do see surrounding ivermectin is a faux controversy that is easily traced to competing commercial interests whose motives are naturally suspect.

Now we have this throw away as well.   what we do know is that it is useful as an intervention for plausible viral based sickness and that cancer fits that characteractisation.  For all that it is plausible to use Ivermecton as such.

Better yet it is also safe enough.

What is been flushed out is the astounding corruption surrounding commercial medical science.  Why should this be?

A first therapy for all viral based issues should be vitimin C body saturation.  Do you even know what i mean?  That is a lot of vitimin C.  This may also apply to ivermectin.  We do 
not really know how much is enough, but get offical oppinion which is often massively undersized.

Does Ivermectin Cure Cancer?


On today's episode of the Dr Jane Ruby Show, Dr Jane explores the evidence coming forward about the effects of Ivermectin on cancers of all types and how this is another reason it has been blocked by governments and corrupted elected officials.




There have been many studies published by the NIH about repurposing ivermectin as a cancer drug. Dr Ruby suspects the efficacy of ivermectin against cancers (especially breast and ovarian) is another reason why it has been suppressed.




Dr Jane does a walk through on the anticipation of VAIDS: Vaccine induced Acquired Immune Deficiency Syndrome, or immune erosion from multiple shots as the gradual loss of immune systems unfolds in those who have taken the bioweapon shots, particularly the triple-jabbed; their propensity to develop vulnerability to opportunistic infections and what you can do about it.


https://forbiddenknowledgetv.slrcdn.com/track/click?linkData=1-1777eyJsaW5rIjoiaHR0cHM6XC9cL2ZvcmJpZGRlbmtub3dsZWRnZXR2Lm5ldFwvZG9lcy1pdmVybWVjdGluLWN1cmUtY2FuY2VyXC8iLCJuZXdzbGV0dGVySWQiOiIxMTY1Iiwic3Vic2NyaWJlcklkIjoxNzgwMCwiZG9tYWluIjoiZm9yYmlkZGVua25vd2xlZGdldHYiLCJ0aW1lIjoxNjQ1ODgxNTUzLCJkZWwiOjYsInNlbmRlciI6MX0

Super Technology Progress

 


This gives us a better glimpse of what is happening out there. The easy ones are the self driving car and the use of heavy lifters for material transport.  We all understand those ideas.

However both are way bigger in terms of future impact than indicated at first blush.

heavy lifters will displace and speed up a real percentage of globalt transport.  More important, as built it will support the build out of space habitats.


Super Technology Progress


Nextbigfuture decades of work puts me in position to find and communicate to my readers and followers where the future is happening and how it is unfolding.

There has been an acceleration of high-impact technology for the future from AI to atom technologies and molecular electronics.

We are in the age of narrow superintelligence. Google Search and chess and Go playing software are artificial systems that are far beyond human capability for those tasks. Computer vision, computer speech, search, language processing, language understanding, translation, protein folding prediction and analysis, self-driving, Teslabot like systems and much more are happening. They have different market value and potential. We will get deeper into the multi-trillion and quadrillion dollar age of super narrow AI dominance. The super-narrow AI will interact. We will be able to order chatbots for delivery or rides or supply chain via self-driving and robotic loading and unloading.

Here are some definitions for different categorizations of AI.

Artificial narrow intelligence (ANI) has a narrow range of abilities.
Artificial narrow superintelligence (ANSI) has a narrow range of abilities but those abilities are well beyond human level.
Artificial general intelligence (AGI) is a broad range of abilities that are comparable to the range of intelligence for a human.
Artificial general superintelligence (AGSI)is far more capable than a human across all domains of human intelligence.

The data advantages of each dominant super-narrow AI will be difficult to displace from a dominated market niche. Imagine the difficulty of a superior search engine trying to displace Google in search. Google has not just search but the advertising ecosystem.

Any new entrant Super AGI or broader super AI will need to displace any market entrenched Narrow Super AI. The owner of a Narrow Super AI can broaden or improve its Narrow Super AI. Big Tech companies can also try to buyout or use mergers or partnerships with entrenched Narrow AI. Narrow AIs that can be broadened or expanded by strong incumbents (like Tesla or Google) will have better chances of increasing reach and displacing weaker competition.

Tesla and other companies are spending billions every year developing self-driving cars. Tesla has 2.5 million cars on the road and each has $3000 in cameras and other hardware to enable full self-driving and will get over the air software updates as the software improves. By 2025, there could be 20-40 million Tesla full self-driving cars on the road. Full self-driving would be considered a narrow superintelligence. I would view FSD performance and capabilities based upon the number of standard deviations better than the average human driver on safety statistics.

Tesla FSD Beta has been made available to over 60,000 drivers. FSD will likely be fully available to over 240,000 prepaid US customers by mid-2022. FSD should reach robotaxi level by 2025.

Molecular Electronics

Will the AI software for protein folding create more value and a dominant position or will the value be from molecular electronics that enables thousands of times faster DNA, RNA and protein reading and synthesis? Roswell Biotechnologies has released a molecular electronics chip that integrates molecules with CMOS. I believe the power will reside with the vastly superior molecular nanotechnology providers and users instead of Deep mind Alphafold software.

Billions and trillions of molecule systems on integrated CMOS means molecular reading and synthesis at trillions of times the speed and scale of today. Rapid, low cost, mobile detection systems for diverse biomarkers. Enabling powerful, in-the-field pathogen detection, infectious disease monitoring, environmental monitoring, and identification of bio-specimens, species or individuals.

By 2030, Roswell Biotech should scale DNA, RNA and protein reading to be billions of times faster instead of thousands of times faster than today.

Atom Technologies – Better and smaller Atomics clocks, QuantumRF and More

ColdQuanta is unlocking atom technologies with laser-trapped atoms for quantum computers with millions of error-corrected qubits. There will be millions of ultra-precise atomic clocks which will transform GPS locations’ precision and master clocks for data centers. This will mean that Google’s Spanner database would be enabled to have hundreds to thousands of times greater speed or scale. They will have QuantumRF which will transform the energy efficiency and speed of communication.

Reusable Rockets


In the most recent SpaceX Starship presentation, Elon Musk stated that the SpaceX Starship can become lower cost than airplanes for long haul cargo delivery.

I have some detailed calculations. Starship will double the payload capacity. Full fueling costs are about the same for the 1200 tons of fuel for Starship versus 50,000 gallons of jet fuel for a long-range cargo plane for each flight. However, twice payload means half the cost. Non-fuel costs for the vehicles and the frequency of flights are hugely in Starship favor. Starship should have twice the payload.






Honeywell Quantum Computer Enclosure

Saturday, February 26, 2022

Aging gracefully: Japanese men who refuse to die young


There is an increasing number of certainly men and also women i am sure who appear to push away death fo many years.

We have speculation on this, but it certainly demands early attention to personal health and well being.

I notice most of the truly elderly learn to be super calm and i am sure that helps.  All worthy and i do think that those numbers will continue to climb.



Aging gracefully: Japanese men who refuse to die young

How 'ikigai' and the 'Shiga rhythm' are boosting lifespans


Words by FIONA WILSON, Illustrations by ALEC DOHERTY

January 29, 2022 08:00 JST


https://asia.nikkei.com/Life-Arts/Life/Aging-gracefully-Japanese-men-who-refuse-to-die-young

Life expectancy in Japan soars well above global averages for both men and women. Within the country, the region that holds the top spot for male longevity is Shiga, a prefecture of 1.4 million people that has a low profile, even in Japan. Yet it's clearly doing something right. While the global average lifespan for men hovers at about 70, those in Shiga typically survive to nearly 82.



LLPFusion Switch problem





This ends with an excellent summary of current fusion progress for all participants.  Otherwise we discuss the resolution of current technical issues at LLPFusion.

It is never easy to get it right but that is the nature of the beast.

We might get spoiled.



Switch Problem Slowdown: Progress Made


The new switches on LPPFusion’s FF-2B experimental fusion device are taking much longer than expected to optimize, but the research team has made progress in identifying problems and solutions for this hold-up. (See our new videos here and here.) The switches are designed to increase current delivered to the plasma, increasing fusion yield, and to be lower-maintenance than the previous design, increasing the number of shots we can take. However, from our first shots in August, we found that the switches were considerably harder to fire than the old ones and much harder to get to fire together.

Of course, part of the problem was that the 16 new switches are harder to synchronize than 8 old ones. The switches must ideally fire (turn on) within 10 ns of each other. This is so that the current starts out as a thin, even sheath. In that case, all parts of the sheath arrive at the pinch, where compression occurs, simultaneously. The result is high density and high fusion yield. If, however, there are differences in firing time, the sheath is thicker and more uneven, resulting in low density at the pinch and low yield.

In November, after 70 shots, the LPPFusion research team had achieved only about a 70% rate of each switch firing on time. This was not good since it meant in each shot 4-5 switches fired late, or not at all.

By this time, a second basic problem was evident. This was large (3,000 amp) pulse of negative current at the start of the discharge. The big capacitors that store energy for FF-2B are charged positively and thus positive current flows from them to the anode at the center of our device. (This means that the electrons, charged negatively, are actually flowing in the opposite direction—from the outer cathode to the anode, as shown in our animations.) A large negative current pulse before the positive pulse began to flow meant that the electrons started out in the wrong direction and had to turn around, making a mess out of the initial current sheath—like a crowd running on the track in the wrong direction right before the start of a race. We had never seen this negative current pulse with the old switches.

Now, we saw that the bigger the negative current pulse, the worse the pinch and the lower the current yield. (See fig. 1.) There could be only one source of the negative pulse - the trigger system that causes the switches to fire. The trigger system sends a 60-kV negative pulse of electricity simultaneously to all 16 switches. This negative voltage, appearing on the central pin of the spark plug, combines with the 40 kV positive on the bottom plate (attached to the capacitor) to create a 100 kV spark that causes the insulating gas to ionize and allows current to flow from the upper to lower plates. (See fig. 2).















Figure 1. A negative electric pulse of current and voltage is a key symptom of switch misfiring and a key cause of low fusion yield. A typical recent shot (Feb.7, 2022, shot 2, top) shows a starting negative pulse on the left of the graph and a very small jump in voltage at the pinch, indicating a poor compression. A much better shot from 2016 (May 23, 2016, shot 1, middle) shows no initial negative pulse and a large voltage spike (producing 40 times more fusion energy). The graph at bottom shows that the larger the negative pulse, the smaller the best fusion yield for that level. The best shots show only an initial positive pulse.

However, in a misfiring switch, the breakdown can first occur horizontally, running along the insulator from the central pin to the top plate. In this case, a negative pulse appears at the anode, which is connected to the top plate. The vertical spark from the capacitor can also be delayed, because the negative charge is rapidly dissipated on the top plate.

While we did not initially have a clear idea of why this horizontal breakdown was happening, Chief Scientist Eric Lerner first suggested mitigating it by decreasing the gap between the central pin and the bottom electrode. This would make vertical breakdown easier, without changing the horizontal situation. To prevent a premature breakdown, or prefire, we simultaneously increased the gas pressure in the switch. There was only limited improvement in the firing and negative voltage.







Figure 2. This cross section of a spark plug and the central portion of a switch show the central pin of the spark plug(brown) surrounded by the insulator (light grey) which in turn is mounted on the top plate of the switch (pink). In correct firing, a negative 60kV spark jumps from the central pin across the gas-filled gap (dark grey) to the 40kV positively charged bottom plate (orange). Ionization spreads throughout the gas, allowing positive current to flow directly from the bottom plate to the top plate and from there to the anode of the device (far off the left edge of this image). In misfiring, the spark instead runs horizontally along the surface of the insulator to the top plate, creating a pulse of negative current.


In December, we found a third problem with the switching system. Resistors are part of the triggering system, used to absorb part of the energy of the trigger pulse and to allow the right amount of current through to the switch. We found that many of the resistors had partially failed, losing their ability to conduct electricity at low voltages and interfering with it at high voltages. Higher-power resistors were required to prevent failure. However, such higher-power resistors also slowed down the rise of the trigger pulse. This gave more time for the horizontal breakdown to occur.

The problem with the higher power resistors was that they have higher inductance. Inductance is a measure of how much magnetic field energy is generated for a given current. Since it takes time to feed energy into the magnetic field, higher inductance means a slower rise time for the pulse. The trigger pulse needs to rise to a peak in less than 20 ns if a horizontal breakdown was to be avoided. The solution, we quickly realized, was a different type of resistors, called Aryton-Perry, that had low inductance. We ordered these in early January.

In the meantime, in January a hypothesis emerged about the likely cause for the switch problems and negative current pulse. In designing the new switches back in 2019, we had noticed that the Lexan insulators that surrounded the central pins in the spark plugs, preventing horizontal breakdowns, were degrading after repeated firing (Fig.3, left). We decided that a shift to ceramic insulators would improve the sparkplugs, as ceramics, such the aluminum oxide we chose, are both good insulators with high dielectric constant (a measure of a material’s ability to store electric energy) and are highly resistant to the high temperatures that occur briefly when the switches fire.








Figure 3. The darkening of the Lexan insulators (left) led the LPPFusion team to replace then with ceramic ones (right). However, the ceramics were much more prone to surface breakdowns within the switch, as evidenced by the dark stripes on the bottom of insulator, near the copper center pin. They also had breakdowns outside the switch, as evidenced by the thin dark marks on top and in the middle of the insulator, which the red rubber guard also failed to stop. We now have a more effective guard at the top of the insulator. Teflon is better at resisting surface breakdown than either Lexan or the aluminum oxide ceramic, so will be tried next.


But now, Lerner concluded that several clues indicated that ceramics were not the right material and instead were the root of the switch problems. First, and most obviously, the purpose of the insulators was to hold off the horizontal breakdown and clearly the ceramics were failing while the Lexan had succeeded. Second, the ceramics’ high dielectric constant meant that more energy was needed to build up the electric potential on the pins, slowing down firing. But most conclusively, in late January Lerner found in the literature research that showed experimentally that ceramics had worse surface breakdown resistance than Lexan, and that Teflon was considerably superior to either.

One such paper dated back to 2007 and was the result of very similar switch problems that had been experienced at the giant Z-machine facility at Sandia National Labs. The authors of this paper found that Teflon resisted surface flashover better, and resisted damage far better, than Lexan. Significantly, the authors concluded that the higher the dielectric constant, the worse the surface breakdown performance. Teflon has a dielectric constant of 2 (measured as a ratio to that of vacuum), Lexan’s constant is 3 and aluminum oxide’s is 10, a strong indication that ceramics are wrong for this application.

The same Texas Tech research team that wrote this paper had already, in 2004, demonstrated that, aluminum oxide flashed over in moist air much easier than did Lexan. The LPPFusion team found evidence of this external flashovers on our own ceramics (Fig. 3, right), although we found a way to block the spark before it reached the ceramic. A much more recent (June 2021) paper by a Chinese team showed the Teflon also damaged less easily than either Nylon or Plexiglass (acrylic). Based on all this evidence, Lerner ordered in early February a set of replacement Teflon insulators.

While waiting for the new insulators, on the suggestion of LPPFusion Research Scientist Dr. Syed Hassan, the team tried lowering the switch pressure and increasing the switch gaps. Using also the new Aryton-Perry resistors, this approach succeeded, in one shot, in getting all 16 switches to fire together. But this success was not repeated, and even in this one shot the negative current pulse got bigger and the fusion yield smaller. These experiments showed that, with low enough gas pressure, the switches could more or less simultaneously break down in both directions, horizontally and vertically. But the negative current pulse so disrupted the formation of the current sheath that almost no fusion yield resulted. Trying somewhat different gases in the switches also failed to stop the negative pulses.

The new Teflon insulators are expected by the end of February. The team will soon run critical tests to see if Teflon will glide us forward to higher fusion yield.

Some fusion fans may ask “If this was in the literature, why didn’t Lerner find it earlier?”, especially considering both papers were published in a journal, IEEE Transactions in Plasma Science, that Lerner has long subscribed to. The answer is that back in 2004-2007, there was as yet no funding for the present stage of the project and engineering considerations were far off. As to why these papers were not searched for in 2021, the fact is that to both Lerner and Hassan, the ceramics seemed the logical choice. As a comedian (not Mark Twain) said, “It’s not the things you don’t know that hurt you most. It’s the things you know for certain that just ain’t so.” Such wrong turns are common in research, which almost never moves in a straight line.





LPPFusion in London Art/Science Show
LPPFusion was among the participants in the Periastra exhibition at the APT Gallery, 6 Creekside, London SE8 4SA. As described on their website “Periastra is a hybrid exhibition where artists and astrophysicists are invited to share each other’s modes of exploring the world of celestial phenomena. Often thought of as mutually exclusive, there are sometimes surprising similarities in terms of the aspiration and expression of curiosity. The participants in this show have been identified through their interest in crossing this boundary and the result is an intriguing and visually rich interpretation of each other’s' fields of research. “

LPPFusion’s part in the exhibition describes how key concepts in our fusion work were derived from research in astrophysics and includes video from our lab projected life-size on the gallery wall, creating the illusion that the lab is an extension of the gallery. The exhibition was free and ran from Feb 3 to Feb 13.






LPPFusion Chief Scientist Lerner (in front of green door) appears to be virtually transported to London in this image from the Periastra exhibit, using video shot at LPPFusion’s lab in Middlesex, NJ.





New Advances by JET and NIF

The world’s two largest government-funded fusion experiments, the Joint European Torus (JET) in Culham, UK and the National Ignition Facility (NIF) in Livermore, Ca., both announced significant advances in the past month. JET stated in a February 9 press release that they had broken their own record for fusion yield. NIF published in the leading scientific journal Nature the achievement of a “burning plasma” and a new record fusion yield as well. What is the significance of these achievements and how do they affect other fusion efforts like LPPFusion’s?

NIF’s advances represented the greater rate of improvement, especially in terms of fusion yield. The $5 billion NIF device, completed in 2009, uses 192 giant lasers to concentrate energy on a tiny pellet of deuterium-tritium fusion fuel. (Deuterium and tritium are isotopes of hydrogen.) While it is the claim that the Nature article most emphasizes, the “burning plasma” milestone is less significant. Burning plasma is, by the NIF’s scientists’ own definition, one in which the power generated by fusion reactions exceeds that supplied by external sources—in this case the lasers. But getting above that threshold does not in fact guarantee by any means that the fusion reaction will sustain itself. That more challenging threshold is when fusion energy generated exceeds the energy lost by the plasma, so it heats up by itself. This condition is termed “ignition”, the central goal of NIF, as indicated by its name.

But the Nature article also refers to the August, 2021 shots that produced 1.3 MJ of fusion energy. This is a big step forward for NIF. By 2013 NIF’s maximum fusion yield was 10kJ, little more than 0.002% of the more than 440 MJ fed into each shot of the machine. In 2018, NIF’s maximum yield rose to 54 kJ. The new results of 170 kJ in the “burning plasma” shots and 1.3 MJ in the August 2021 shot are thus major increases, with the last one producing 25 times as much energy as in 2018. This rapid progress in the course of the 2021 experiments does demonstrate how major advances in fusion can happen quickly, and could help the credibility of other fusion efforts like our own.

However, NIF remains far short of the real goal of all fusion energy research—producing more energy out of a device than is put into it. The latest record is still only 0.3% of the input energy. In addition, NIF is physically incapable of achieving net energy production. Even if all the fuel in the pellet underwent fusion reactions, which is almost impossible, the total energy released would still be only 15% of the energy fed into the gigantic machine in a single shot.

JET’s new results actually managed to somewhat exceed NIF’s in terms of the critical ratio of fusion energy out to energy input to the device. JET is a tokamak, a $3 billion machine that uses magnetic fields produced by external magnets to confine the plasma where the fusion reactions take place. The new result produced a fusion yield of 59 MJ from an electrical input to the machine of a giant 10 GJ, so fusion energy was 0.6% of input energy, double the NIF result. While NIF certainly could point to rapid progress, the JET result somewhat more than doubled JET’s previous record with the same DT fuel that had been achieved 25 years ago in 1997.

How do these new results compare with those at LPPFusion? The fusion yields and even ratios to input energy can’t be directly compared because LPPFusion is using pure deuterium fuel (DD), not the much-more-reactive deuterium-tritium (DT). Since tritium is radioactive, expensive and time-consuming, additional efforts would be needed just to get a license to use it. Also, DT’s use would make LPPFusion's entire small facility radioactive. As a result of this radioactivity, both NIF and JET must be maintained mainly via remote-controlled robots.

If JETs best results using DD fuel are compared to LPPFusion’s best result using the same fuel, JET is only a little in the lead, with a ratio of 0.6 J of fusion energy for every 100kJ of input. LPPFusion best results are 0.4 J of fusion energy for 100kJ of input. Our goal is to surpass our old 2016 record and JET’s DD results in the present series of experiments. In order to match or exceed the DT fusion yield ratios, we will have to move to using pB11 fuel, which is also far more reactive than pure deuterium.

In terms of ion temperature, LPPFusion already holds the world record, with demonstrated confined ion energy of over 200 Kev (equivalent to over 2 billion K), far higher than the 10 keV reached by JET and the 5 keV reached by NIF. However, NIF achieved enormously higher densities than any other fusion device, while the record for confinement time is actually held by another tokamak, EAST, in China. The combination of density, temperature and confinement time needed to achieve net energy has not yet been achieved by any experiment.