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Post by toni on Nov 28, 2011 9:01:30 GMT -5
Thanks Skizit for the good suggestions to use. And yep, I've got a zillion video's of these things.
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Post by simone on Nov 28, 2011 13:28:08 GMT -5
Thanks for all the info. here. My hair is thinning, now I'm thinkin of getting tea tree oil shampoo. Have you ever wonder why we now have it on the shelves compared to 20 yrs. ago. How about the little tunnels under the skin that go everywhere zig zagging. Wonder what does that... the fibers???
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Post by skizit on Nov 28, 2011 16:19:19 GMT -5
Simone, the mites (maybe more than one kind) lay eggs in the skin, a bump appears and in that bump, you will find a colony in a pod. The pod has fibers in it and when the mites come out the fibers remain in the skin. The fibers I think are constructed inside the body of the mite. They are directly injected in a bite.
This is conjecture but I'm thinking the fibers contain transgenic bacterial spores which may give a person DNA therapy in the form of a DNA vaccination containing a synthetic amino acid, replacing natural human cells with synthetic organic/inorganic materials. In order for this to happen, an immune system event will take place possibly in the way of a rash or a bloom of mites. This jumpstarts an immune reaction or the gene therapy.
Have you ever had a itchy hot red rash?
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Post by simone on Nov 28, 2011 18:26:45 GMT -5
Can't say I have itchy rashes, just little pimple bumps here and there. One doc thought I had ezcema... we argued for a moment... I said morgellons.... she said ezcema ... then it got to Yes it is ...NO it isn't...I left it at that.
Getting back... What about the little white rubber type spagetti worm I see ..hardly see any lately. I posted it somewhere here.. At first I think I had a scabie type relative to the human scabie mite... It was a dog mite ( closest thing that I found what it looks like) Took Iver for 5 weeks once a week and the dead debrie under the skin was horrible. I didn't know I had that much under the skin... My arm was bumpy for weeks my body cleaning up the dead mites. Ahhh and the little tunnels everywhere. Still have some but it's not as bad as first.
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Post by skizit on Dec 2, 2011 19:42:54 GMT -5
If you use a drawing salve like PRID on bumps and lesions, even if you can't see the hair follicles that are infected, and then rub the area, you can feel tiny thingscoming out of the skin, these may be eggs. You can't let the eggs hatch or they spread everywhere. Keep the salve on the bumps, rinse the area with HP, rub the skin and all the animals will come out. If they populate the hair follicles with eggs and they hatch, they may deliver the gene therapy that replaces it with synthetic replacements, I don't know, but that makes sense in the progression of this disease.
the dry mustard sounds like it works too and tea tree oil is proven to kill mites in eyelashes at 50% and to stop mating at 5%. I don't know how much tea trea oil it takes to clear up all this because the research I read was just about around the eyes. It said that mites can cause tears in the retina and conjunctivitis.
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Post by itchin4answers on Dec 2, 2011 21:13:35 GMT -5
If you use a drawing salve like PRID on bumps and lesions, even if you can't see the hair follicles that are infected, and then rub the area, you can feel tiny thingscoming out of the skin, these may be eggs. You can't let the eggs hatch or they spread everywhere. Keep the salve on the bumps, rinse the area with a debrider, rub the skin and all the animals will come out. If they populate the hair follicles with eggs and they hatch, your skin and hair will be replaced with synthetic replacements. the dry mustard sounds like it works too and tea tree oil is proven to kill mites. I don't know how much tea trea oil it takes but that research paper I posted may have the specific therapy. Hi skizit, PRID sounds very similar to what I have been using & that is THAR'S drawing agent. What is a debrider? I've been putting tea tree oil in my baths. I also splash neat tea tree on spots. Do you know if Apple Cider vinegar is helpful to rid the mites & eggs? Apple Cider vinegar is meant to be an anti-fungal. Thanks
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Post by simone on Dec 3, 2011 18:03:06 GMT -5
LOL since I read this post I started tea tree oil and rosemary in baby shampoo. After the first shampoo I noticed alot of little white drandruff in my hair... I never had that before. I've been shampooing for about a week and stuff still coming out.... wholley,,, could that be demodex egg sacs. You can see my scalp... my hair too is thinning. skizit my pics are on freakyd--'s topic about worms..there you will see the white rubber worm.
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Post by ginna898 on Dec 3, 2011 21:14:12 GMT -5
I was with my boyfriend last night and he kept brushing off my black coat because it is constantly getting coated with a bunch of those white specks/ flakes.
I think it is coming off my hair. I have been using peppermint shampoo (Dr. Bonners') no artificial chemicals.
At first I thought it was from being in my home but i will shake it off, the coat is black but then he keeps brushing it off my coat as it MUST be falling off my head. This is so embarrassing.
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Post by simone on Dec 3, 2011 21:32:10 GMT -5
This is a new video relating to morgellons on utube... translating .. it says it failed 6 yrs to cure...big M... yada yada.. this might be the reason.. mites. Wholley demodex mites!!! check it out.
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Post by toni on Dec 4, 2011 17:44:08 GMT -5
This is a new video relating to morgellons on utube... translating .. it says it failed 6 yrs to cure...big M... yada yada.. this might be the reason.. mites. Wholley demodex mites!!! check it out. Thanks Simone for that video. I've also got a gazillion of these kinds of video's and yes, I'm sure leaning towards them too, but being of a different "nature" and vectoring pathogens too.
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Post by skizit on Dec 5, 2011 3:57:36 GMT -5
ginna, If you can look at the "dandruff" through a microscope. If they are demodex eggs, they will look like elongated footballs. They will contain dots which are balled up fibers. When they are extended, you can see they are fibers. They are mostly colored fibers (dark blue, hot pink). I'm trying to find information on whether fibers are normally contained in the eggs and how they fit in the military use of first and secondary vectors. When the mites hatch, the egg sac and fibers stay in the skin. Wallah, a "fiber disease." The fibers contain regular sections like cyclodextrins with inclusion complexes but they are made inside the mite so they are probably bacterial cellulose with spores inside but i don't think they are normal spores, they are probably genetically engineered. The female mite is the carrier of pathogens that are handed down to the next generation of mite.
The mite is in the same military category as the nematode which may have a similar delivery process. The nematode eggs are small enough they could be delivered by the mite as well but I haven't found that technology.
I have found something like a micro-well plate which has a series of "wells" in which there is placed a nematode in each well. the pictures I have show active "worms" coming out of each well. This is definitely a nematode delivery system which came out of a man's wrist. Needless to say, he is infested with fibers and worms. He pulled out an intact one which looks like a tiny football. could a mite deliver this?
You can be sure the government and the CDC knows about these processes and products. Any denial of knowledge shows what crooks are being paid by the American public to lie to them. This is 100% an engineered disease.
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Post by skizit on Dec 5, 2011 4:22:15 GMT -5
As for Ivermectin, I would think a military engineered mite would not respond to Ivermectin. A debrider is something that removes the top layer of something like skin. Hydrogen peroxide is a debrider. Let it soak in and rub the skin with a dry wash cloth and you'll see the skin slough off. The bumps on the scalp are where the demodex have layed their eggs or injected whatever they inject in their bite. the adults mate and 12 hours later the ovum are layed, 60 hours later they hatch, 36 hours later the protonymph is crawling around on your head, 72 hours later its called a nymph, 60 hours later you have an adult demodex which lives about 5 days. This is the cycle which causes new lesions about every 14-18 days.
You might think that just because the lesion goes away, the problem is over. If you don't remove the eggs, they degrade in the skin but the fibers stay there and empty their contents into the skin. You must get the little egg out of the lesion because it will decompose, leaving the bioactive fibers to spill their contents.
The changes in the skin and hair occur after this process has occurred. the fibers in the eggs must contain some powerful stuff.
Killing the mites ASAP should be a Morgellons' patients first priority.
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Post by toni on Dec 5, 2011 9:06:26 GMT -5
Skizit,
You're soooo correct about that dandruff looking stuff. Ginna, yes, those super tiny white flakes that come off our head and hair and fall down our face, (the super tiny white flecks) those sure ARE demodex and their eggs.
They're so tiny, that at first it's hard to see them even under the scope. Once you do though - then you'll see it's ALL Demodex mites. And yep, there's something VERY different about these little (aggressive mites too).
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Post by ginna898 on Dec 5, 2011 13:20:59 GMT -5
toni, yes they are super tiny white flakes and I was just thinking that they must be from my scalp after I wash my hair. But, they are also all over my environment and I can't decide if they get on me or if I am getting them into my environment from me. I don't like to think they are 'mites' of any sort cuz it is gross. I need to find a way to kill them in my environment and then maybe it will keep them off me too. What do you think?
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Post by toni on Dec 5, 2011 19:05:53 GMT -5
toni, yes they are super tiny white flakes and I was just thinking that they must be from my scalp after I wash my hair. But, they are also all over my environment and I can't decide if they get on me or if I am getting them into my environment from me. I don't like to think they are 'mites' of any sort cuz it is gross. I need to find a way to kill them in my environment and then maybe it will keep them off me too. What do you think? Hi Ginna, Gosh, I sure don't know for sure of course, but I think both cases are the case, if you know what I mean. You're picking them up, and they're coming off of you too. I sure don't want to alarm you, but if you look under your scope, (they're there), but...not easy to see, because they're clear/transparent and they're so small that a period at the end of these sentences is huge in comparison. They're inside that "stuff that looks like flakes".
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Post by skizit on Dec 5, 2011 23:26:38 GMT -5
I don't think that the white flakes are mite eggs. If they were mite eggs, I don't think they would be flying out of your scalp unless they are the "walking dandruff" mite Cheyletiella but that's unlikely. Mite eggs stay where they are in the skin until the decompose.
I think mycoplasma, bacteria or fungus is transmitted in the colored fibers. The white flakes may be a result of the chemical processes occurring in the hair follicles. You really need a picture to tell what kind of construction it has. could you get a picture?
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Post by skizit on Dec 6, 2011 2:07:53 GMT -5
I think the mites deliver the fibers which contain the transformation system via the hair follicles. They must form in the body of the female mite, since they are integrated into the ovum. Successive generations contain these same fibers so the process of constructing them must happen within the body of the mite.
This may apply and it may not depending on the purpose of the bacteria injected by the mites. the following is a sequence of what I came up with thinking on this subject.
Gram-positive bacteria perform hemolysis on human blood and use the contents of blood to form the "fibers" or folded proteins. When red blood cells are lysed by bacteria, the individual amino acids are used to build new protein. Bacteria are identified by the color they turn in blood agar plates so color is inherent in the bacterial proteins.
I'm thinking that each fiber color contains different aspects of the system, the first being to suppress the immune system so the body's cells will let the new synthetic process in which would be something like chromobacteria which also has excellent lysis capability (they break up blood). chromobacterium violaceum is deadly to the human immune system and prevents it from clearing infections from the body. You do not want this critter to set up a colony in your skin.
Of all the bioweapons available, the only one that fits with the pathogens transmitted in Morgellons relate to prions. I think the polymer network which forms via in vivo polymerization has something to do with mis-folding the proteins, being rearranged possibly to create a synthetic neural network which can be manipulated by another person. The end purpose is a weapon of terror, it does that magnificently. The US has never been attacked with a bio or chemical weapon and this type of oppression is unconscionable. The Scripps Institute is totally involved in this technology, manipulating the immunce system, genomic research, reengineering blood, the whole thing.
I SEARCHED THE TERM "FOLLICULAR BIOWEAPON" AND THIS CAME UP: THIS IS FROM WIKI. I put this altogether so I could pick out the parts that may apply to Morgellons.
Portal:Biological warfare/Selected biological ag
A prion is an infectious agent that is composed primarily of protein. To date, all such agents that have been discovered propagate by transmitting a mis-folded protein state; the protein itself does not self-replicate and the process is dependent on the presence of the polypeptide in the host organism.
[QUESTION: In the human organism, what would that polypeptide be involved in Morgellons? HEMOGLOBIN? The protein hemoglobin is made up primarily of 4 polypeptides (long chains of amino acids).
I know Morgellons has a constant companion: BACTERIA What do Bacteria do in hair follicles: Create a condition called bacterial folliculitus. Bacteria release porphyrins from the breakdown of haemoglobin in red blood cells. IS THIS WHY BLUE LIGHT THERAPY WORKS IN SOME MORGELLONS PATIENTS? Porphyrins absorb light of certain wavelegths and free radical damage destroys bacteria. No bacteria, no free polypeptides for use in constructing prion proteins, no loss of iron?]
Prions are hypothesized to infect and propagate by refolding abnormally into a structure which is able to convert normal molecules of the protein into the abnormally structured form. All known prions induce the formation of an amyloid fold, in which the protein polymerises into an aggregate consisting of tightly packed beta sheets. This altered structure is extremely stable and accumulates in infected tissue, causing tissue damage and cell death. This stability means that prions are resistant to denaturation by chemical and physical agents, making disposal and containment of these particles difficult.
Beta sheet
The â sheet (also â-pleated sheet) is the second form of regular secondary structure in proteins, only somewhat less common than the alpha helix. Beta sheets consist of beta strands connected laterally by at least two or three backbone hydrogen bonds, forming a generally twisted, pleated sheet. A beta strand (also â strand) is a stretch of polypeptide chain typically 3 to 10 amino acids long with backbone in an almost fully extended conformation. The higher-level association of â sheets has been implicated in formation of the protein aggregates and fibrils observed in many human diseases, notably the amyloidoses such as Alzheimer's disease.
Amyloidosis
In medicine, amyloidosis refers to a variety of conditions whereby the body produces "bad proteins", denoted as amyloid proteins, which are abnormally deposited in organs and/or tissues and cause harm. A protein is described as being amyloid if, due to an alteration in its secondary structure, it takes on a particular aggregated insoluble form, similar to the beta-pleated sheet.[1] Symptoms vary widely depending upon the site of amyloid deposition, i.e. where in the body these "bad proteins" are found in significant numbers. Amyloidosis may be inherited or acquired.[2] Other forms are due to different diseases causing overabundant or abnormal protein production - such as with overproduction of immunoglobulin light chains in multiple myeloma (termed AL amyloidosis), or with continuous overproduction of acute phase proteins in chronic inflammation (which can lead to AA amyloidosis). Out of the approximately 60 amyloid proteins that have been identified so far,[3] at least 36 have been associated in some way with a human disease.[4] Pathogenesis When a native cell creates a protein, it could either make the actual protein or protein fragments. These fragments could come and join together to form the actual protein. Such a protein can sometimes regress into the protein fragments. This process of "flip flopping" happens frequently in certain proteins, especially the ones that cause this disease. The fragments or actual proteins are at risk of mis-folding as they are synthesized, to make a bad protein. This causes proteolysis, which is the directed degradation of proteins by cellular enzymes called proteases or by intramolecular digestion; proteases come and digest the mis-folded fragments and proteins. The problem occurs when the proteins do not dissolve in proteolysis. This happens because the mis-folded proteins sometimes become robust enough that they are not dissolved by normal proteolysis. When the fragments do not dissolve, they get spit out of proteolysis and they aggregate to form oligomers. The reason they aggregate is that the parts of the protein that do not dissolve in proteolysis are the â-pleated sheets, which are extremely hydrophobic. They are usually sequestered in the middle of the protein, while parts of the protein that are more soluble are found near the outside. When they are exposed to water, these hydrophobic pieces tend to aggregate with other hydrophobic pieces. This ball of fragments gets stabilized by GAG's (glycosaminoglycans) and SAP (serum amyloid P, a component found in amyloid aggregations that is thought to stabilize them and prevent proteolytic cleavage). The stabilized balls of protein fragments are called oligomers. The oligomers can aggregate together and further stabilize to make amyloid fibrils. Both the oligomers and amyloid fibrils can cause cell toxicity and organ dysfunction.
[MY QUESTION: ARE THE FIBER BALLS OF FUZZ THAT COME OUT OF THE SKIN THESE PROTEIN FRAGMENTS OR STABILIZED BALLS?]
Oligomer
In biochemistry, the term oligomer is used for short, single-stranded nucleic acid fragments, such as DNA or RNA, or similar fragments of analogs of nucleic acids such as peptide nucleic acid or Morpholinos. Such oligos are used in hybridization experiments (bound to glass slides or nylon membranes), as probes for in situ hybridization or in antisense experiments such as gene knockdowns. It can also refer to a protein complex made of two or more subunits. In this case, a complex made of several different protein subunits is called a hetero-oligomer or heteromer. When only one type of protein subunit is used in the complex, it is called a homo-oligomer or homomer. Oligomerization is a chemical process that converts monomers to a finite degree of polymerization. The actual figure is a matter of debate, often a value between 10 and 100.[citation needed] When an oligomer forms as a result of chain transfer the oligomer is called a telomer and the process telomerization. A telomere is a region of highly repetitive DNA at the end of a linear chromosome.
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Post by toni on Dec 6, 2011 10:53:41 GMT -5
I don't think that the white flakes are mite eggs. If they were mite eggs, I don't think they would be flying out of your scalp. I think mycoplasma, bacteria of fungus is transmitted with the sythetic "organism" in the colored fibers. Not all the fibers are neutral, I have seen hot pink associated with the mite eggs too. Hi Skizit, But...have you noticed how the "floaties" will penetrate the skin 'after they've left it' if they land on it again? I'm not sure if you know what I mean, but...the "white flecks" I've seen and had happen as I watched, will go right back into the skin 'once they're even out in the open'.
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Post by skizit on Dec 6, 2011 11:30:35 GMT -5
No, I've never seen the "floaties" or white flecks.
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Post by toni on Dec 6, 2011 13:54:52 GMT -5
Hi Skiz, Oh...you haven't. (thanks for replying to that) Yes, the "floaties" or white flecks, some float upwards and some "hover" as though they're weightless, they just hang in the air as they come off. I think static keeps them hovering, like if one was to rub a balloon on their hair, the balloon would stick. But these "white flecks/floaties" shed ...and they can look like dandruff, but they're not dandruff at all.
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