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Post by kammy on Jun 13, 2009 10:38:02 GMT -5
I produce the 'white seed specks' from my ear lesion. These are some 'specks' that I took directly from the pinna part of my ear, that live under my skin, and were placed on a slide and then immediately viewed microscopically. These are the same speck debris that I used to create the earlier videos. I call them 'Kammy's Specks', which ones are the 'white seed' things? I washed my hands 3 times, with 3 different cleaners, scrubbed under my fingernails. Took a slide out of a brand new box that stays closed in my environment, each slide is wrapped individually in onion-type paper, I only touched one edge of the slide. I took my thumb and middle finger and dug into the pinna and then flicked the debris onto the slide, I had the microscope close by. The amount of time from the 'flicking' to the photography was a few seconds. @100x 4/27/09 Ear Lesion Debris my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/100x 4 27 09/04_27_0.JPEG my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/100x 4 27 09/04_27_3.JPEG my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/100x 4 27 09/04_27_5.JPEG my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/100x 4 27 09/04_27_6.JPEG my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/100x 4 27 09/04_27_7.JPEG my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/100x 4 27 09/04_27_9.JPEG my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/100x 4 27 09/04_27_10.JPEG my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/100x 4 27 09/04_27_11.JPEG
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Post by kammy on Jun 13, 2009 10:40:11 GMT -5
I said to my curious self - 'let me look closer'... this is the same slide viewed at 600x. It took me a few seconds to switch the lens, total photography time was approximately 10 minutes: @600x 4/27/09 Ear Lesion Debris my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/600x 4 27 09/04_27_22.JPEG my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/600x 4 27 09/04_27_24.JPEG my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/600x 4 27 09/04_27_28.JPEG my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/600x 4 27 09/04_27_30.JPEG my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/600x 4 27 09/04_27_33.JPEG my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/600x 4 27 09/04_27_40.JPEG [ my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/600x 4 27 09/04_27_41.JPEG my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/600x 4 27 09/04_27_42.JPEG my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/600x 4 27 09/04_27_43.JPEG my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/600x 4 27 09/04_27_44.JPEG my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/600x 4 27 09/04_27_45.JPEG
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Post by kammy on Jun 13, 2009 10:42:40 GMT -5
The White Seed/Specks Well... and whoever said, 'they are the starters'... was partially correct, IMO. When I first started producing debris that was coming out of my skin, wherever one of these particles hit my skin - it would make another lesion. This happened the first 4 months, in the beginning of my Morgellons. At some point after the 4 months, I became immune to my debris. Whenever I pick at my ear and the microscopic debris is falling on my neck, shoulders, arms, hand, etc., I no longer get lesions. However, my poor fingers that touch this 'stuff' in concentrated forms - yes, they are affected! The end of my thumb is indented from these salt/rock/hard particles making contact and looks like it has a fungal growth. My middle finger, which I also use in the 'picking' process - is swollen and feels like I have rheumatoid arthritis down to the bone in it, all the way up to the wrist (I don't have any arthritis issues otherwise, and this started with me touching the lesion area)... my thumb and middle finger are in a constant numbed state. The numbness will go away with time and certain medicines, etc. however, the arthritis feeling and swelling remains constant. My left middle finger is larger than my right middle finger, I am right handed. I have pain when I bend the left middle finger. This never was the case before me 'messing with' this lesion. My ear has been in a constant lesion state since June of 08, 1 year. I left it alone, not picking at it, for a period of time, approximately from July 08 - Oct 08, and it became consumed! Of course, I had a few antibiotics and was doctoring it with various medicines. I feel never got enough antibiotics nor any anti-fungals to rid it, doctors would not respond. Or we can discuss them by numbers, each photo has a different number right before the .JPEG part of the address on the end.
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Post by kammy on Jun 13, 2009 10:46:28 GMT -5
Over in "Kammy's Photo Comparions" thread, I went into this debris factor in some detail. When I take the debris from my lesion, and we can assume this is true for anyone who is showing a similiar type of Morgellons as mine, it's hard to tell - 'what's what'. I have isolated the 'white seed' from the other particles, this was documented there too, I believe. It takes 2 - 3 days growth in the Petri Dish before you can recognize which particle is turning into which part. Most of these particles above are in a desiccated (freeze-dried) state. How can I claim that the debris coming out of the top puffy part (the pinna) of my ear - is in a freeze-dried state? Where's the blood that SHOULD be in there? Well... One of the last things I told my primary care doctor was... 'I don't think there's any blood in this part of my ear'... shortly thereafter, she dismissed me as a patient, however, she gave me a referral to an ENT, which I see later this month. Can you see how this statement makes me look absolutely 'crazy'...? Of course, there should be blood in there!... ? I've asked one doctor to lance it... but, they don't do that! I need a plastic ear surgeon, I guess? I think what I'm going to do is have a medical friend lance it and video it and take it over to the News and let them witness what's what with Morgellons! (There's no telling what might come out...!) ;D
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Post by kammy on Jun 13, 2009 10:48:19 GMT -5
What is Kammy doing? I started at the beginning... with the debris, this lead me down many paths, it seems like I'm all over the place. I'm in the water, the paper, the fungus... what I'm doing is systematically connecting the pieces of the puzzle that doesn't have a box top. I went from the beginning, to the end and am now meeting in the middle. Well now, we're getting somewhere! Last night I think I positively identified a pathogen in the water that is in the cyanobacteria family - called Synechococcus. See Posts 109 & 110 - www.morgellons-disease-research.com/Morgellons-Message-Board/morgellons-theories-speculations/5205-peridiscaceae-main-morgellons-pathogen-11.htmlI have seen this concentric circular pattern many times in my samples. When I photographed this large piece below, I thought - 'Wow! That's a big piece of debris!' Look closely and you will see the concentric circles? (They look like someone took their finger and drew a circular line in brown sand.) I believe this piece that came out of my ear, did not have to be cultured because it is being cultured inside my ear - to see that it is Synechococcus. @100x 4/27/09 Ear Lesion Debris my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/100x 4 27 09/04_27_9.JPEG[/img] my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Kammys Specks/100x 4 27 09/04_27_10.JPEG[/img] Looking at the bottom photo - we can see that 'the fibers' appear to be inter-woven in with the Synechococcus?
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Post by kammy on Jun 13, 2009 11:42:06 GMT -5
Yes, I think we need to look closer at cyanobacteria? If it's our water supply and possibly most healthy people - it doesn't phase or make those people sick?, but, us Morgies that have cyanobacteria under our skin - the consumption of any water that has the bacteria in it - keeps us sick or reinfects us?
It might not be in the drinking water supply itself but in our old plumbing pipes or trapped in the faucet screens? Old, metallic plumbing pipes and screens are highly suspect!
How long are you boiling your water, now?
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Post by kammy on Jun 13, 2009 12:16:01 GMT -5
WHAT ARE WE LOOKING AT? my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Experiment 1.1/3 29 Exp 1/03_29_48.JPEG[/img]
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Post by kammy on Jun 13, 2009 12:27:54 GMT -5
AND HERE?my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Experiment 2.1/3 26 09 Left Ear Exp 2/03_27_31 L Ear 100x Exp 2 - 2 28.JPEG [/img] my-stuff-dot-com.com/My Stuff/Personal/Morgellons/PHOTO MASTERS/Experiment 2.1/3 26 09 Left Ear Exp 2/03_27_30 L Ear 100x Exp 2 - 2 28.JPEG[/img][/CENTER]
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Post by lilsissy on Jun 13, 2009 12:33:58 GMT -5
Kammy I have been reading your post for a long time , I totally agree it is in the toilet paper, I have also viewed in in cotton swabs, I watched to opposing single fibers at war with each other slithering like snakes .
The Cyanobacteria Bacteria is something I believed was a part of this for a while it is very useful in changing humans into light harvesting and light bearing creatures.
We will eventually be told this was done for our own good .
Our bodies are rejecting this stuff and it seems to be everywhere.
Great work Kammy!! Keep going look around see where it is in the environment ,.
Jen
Wonder do the use that in sencils?
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Post by kammy on Jun 13, 2009 12:38:53 GMT -5
Hey Jen, I think you're right - it's everywhere! Look at this last sentence below, here's how we kill it! Synechococcus microbewiki.kenyon.edu/index.php/Synechococcus"Description and Significance Synechococcus sp. are cyanobacteria, oxygenic phototrophs that can photolyze either H2O or H2S. Synechococcus is the main source of primary production in oligotrophic, pelagic marine waters. Their can cause destructive blooms, producing neurotoxins. Their growth is generally limited however by the concentration of nutrients and trace metals such as iron and phosphorus."
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Post by lilsissy on Jun 13, 2009 12:41:32 GMT -5
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Post by kammy on Jun 13, 2009 12:45:38 GMT -5
We already know how to rob the iron - we need to look at how to rob the human body of our phosphorus. I was just looking at phosphorus last night - it's a product of our urine.
I only did half the treatment before, it has to be a double whammy.
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Post by kammy on Jun 13, 2009 12:50:37 GMT -5
Geez, Jen! That's a scary thought for the future, isn't it? What the hail, have they stenciled Grant's photo into a bacteria? lol Let's worry about this one some of us have first, we'll figure that one out tomorrow... lol Thanks for pointing it out, though, one more thing to worry about!
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Post by kammy on Jun 13, 2009 13:09:50 GMT -5
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Post by kammy on Jun 13, 2009 17:44:36 GMT -5
(*This is one of our spheres, and Peridiscaceae is the other.) "One distinct biochemical feature of Synechococcus is the presence of phycoerythrin, a pigment whose orange fluorescence can be detected at an excitation wavelength of 540 nm, and serves to identify Synechococcus.
Ecology
(*Here is the marine to fresh connection.)
"Synechococcus colonies are found only in salt water, and contribute about 25% of primary production in pelagic waters.
Although they are non bloom-forming they reach their highest abundance during periods of severe nutrient limitation in summer and autumn. They are usually limited by nitrogen as opposed to phosphorus.
It is thought that their habit of clustering together to form tightly packed colonies aids in more efficient nutrient recycling, enabling them to prosper under depleted conditions. In both marine and freshwater strains of Synechococcus growth and division are light-dependent, and operate on what can be called a circadian rhythm.
Cell division reaches a maximum in the afternoon generating an increase in cell number that proceeds into the night, when the number of cells gradually declines.
These light/dark cycles create a rhythmic pattern of cell division and related growth, which is driven by prevailing light conditions. Optimum growth occurs under very low light conditions, but they also have a method of photo-adatation which permits cell growth and photosynthetic activity to continue at very high irradiances."
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Post by kammy on Jun 13, 2009 17:47:06 GMT -5
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Post by kammy on Jun 14, 2009 6:00:09 GMT -5
THE ALGAE/NEMATODE/SNAIL CONNECTION QUOTE=Jeany Kam*%*,
There ya go! Here's the connection between algae, nematodes and snails!!Marine SnailsIn the wild, snails can be algae eaters (algivores), predators, scavengers, and even parasites. The Cypraea, Littorina, and Haliotis species are primarily algae eaters. hmm, we need to look those up? Jeany[/QUOTE] Does someone want to quote this and take it over to the other snail parasite threads, please? Also, a lot of posts don't make it over here that might be interesting to some, we have quite an interesting thread going simply called, 'Water'... @ www.morgellons-disease-research.com/Morgellons-Message-Board/morgellons-theories-speculations/5212-water-10.html
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Post by kammy on Jun 15, 2009 21:48:07 GMT -5
Look at this one! These are Chinese Water Samples. Chinese Water: A Picture is Worth... [Updated] : TreeHuggerChinese Water: A Picture is Worth... I'm reading where the MSG Factory is right next to the Computer Chip manufacturer, which is right next to the paper mill, which is next to the plastic factory... etc., etc., and they are all dumping their waste water into the river. I'm wondering if some sector uses the chromium and neodymium metals right next to a cotton or paper factory? The Fibers and Quantum Dot Connection
I find this photo above most disturbing. I thinking these are very unusual colors, not necessarily found in nature... what do they remind me of? Quantum Dots! They are using quantum dots in their dyeing processes! Aren't the colors of the fibers the same as in this photo above? Therefore, the fiber colors are determined by quantum dot technology. Mini-theories within the theory - one of these should be true: 1. That the TP/Ear Bud/Cosmetic factories are below stream of the main culprit factory. (TP has no need for quantum dots in that process unless, they are also making colored TP? What colors were/are the colored TP?) 2. That the TP/Ear Bud/Cosmetic factories are also making different products within the same factory that are using quantum dot technology. 3. That the black fibers are either a culmination of all the colors or the 'black liquor' in the paper making process. (Are there black quantum dots?) Let's look at the colors of quantum dots and compare them to the water samples above?
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Post by kammy on Jun 15, 2009 22:09:35 GMT -5
Quantum Dot Quantum dot - Wikipedia, the free encyclopedia"A quantum dot is a semiconductor whose excitons are confined in all three spatial dimensions. As a result, they have properties that are between those of bulk semiconductors and those of discrete molecules." SemiconductorSemiconductor - Wikipedia, the free encyclopedia"Semiconductor is a material that has a resistivity value between that of a conductor and an insulator. The conductivity of a semiconductor material can be varied under an external electrical field. Devices made from semiconductor materials are the foundation of modern electronics, including radio, computers, telephones, and many other devices. Semiconductor devices include the transistor, many kinds of diodes including the light-emitting diode, the silicon controlled rectifier, and digital and analog integrated circuits. Solar photovoltaic panels are large semiconductor devices that directly convert light energy into electrical energy. In a metallic conductor, current is carried by the flow of electrons. In semiconductors, current can be carried either by the flow of electrons or by the flow of positively-charged "holes" in the electron structure of the material. Silicon is used to create most semiconductors commercially. Dozens of other materials are used, including germanium, gallium arsenide, and silicon carbide. A pure semiconductor is often called an “intrinsic” semiconductor. The conductivity, or ability to conduct, of semiconductor material can be drastically changed by adding other elements, called “impurities” to the melted intrinsic material and then allowing the melt to solidify into a new and different crystal."
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Post by kammy on Jun 15, 2009 22:13:07 GMT -5
Making quantum dots "There are several ways to confine excitons in semiconductors, resulting in different methods to produce quantum dots. In general, quantum wires, wells and dots are grown by advanced epitaxial techniques in nanocrystals produced by chemical methods or by ion implantation, or in nanodevices made by state-of-the-art lithographic techniques.[7]" Colloidal synthesisColloidal semiconductor nanocrystals are synthesized from precursor compounds dissolved in solutions, much like traditional chemical processes. The synthesis of colloidal quantum dots is based on a three-component system composed of: precursors, organic surfactants, and solvents. When heating a reaction medium to a sufficiently high temperature, the precursors chemically transform into monomers. Once the monomers reach a high enough supersaturation level, the nanocrystal growth starts with a nucleation process. The temperature during the growth process is one of the critical factors in determining optimal conditions for the nanocrystal growth. It must be high enough to allow for rearrangement and annealing of atoms during the synthesis process while being low enough to promote crystal growth. Another critical factor that has to be stringently controlled during nanocrystal growth is the monomer concentration. The growth process of nanocrystals can occur in two different regimes, “focusing” and “defocusing”. At high monomer concentrations, the critical size (the size where nanocrystals neither grow nor shrink) is relatively small, resulting in growth of nearly all particles. In this regime, smaller particles grow faster than large ones (since larger crystals need more atoms to grow than small crystals) resulting in “focusing” of the size distribution to yield nearly monodisperse particles. The size focusing is optimal when the monomer concentration is kept such that the average nanocrystal size present is always slightly larger than the critical size. When the monomer concentration is depleted during growth, the critical size becomes larger than the average size present, and the distribution “defocuses” as a result of Ostwald ripening. There are colloidal methods to produce many different semiconductors, including cadmium selenide, cadmium sulfide, indium arsenide, and indium phosphide. These quantum dots can contain as few as 100 to 100,000 atoms within the quantum dot volume, with a diameter of 10 to 50 atoms. This corresponds to about 2 to 10 nanometers, and at 10 nm in diameter, nearly 3 million quantum dots could be lined up end to end and fit within the width of a human thumb. Large quantities of quantum dots may be synthesized via colloidal synthesis. Colloidal synthesis is by far the cheapest[citation needed] and has the advantage of being able to occur at benchtop conditions. It is acknowledged[citation needed] to be the least toxic of all the different forms of synthesis."
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