PART II Biology of Morgellons -- Must read

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http://www.morgellons-research.org/morgellons/morgellons-bio2.htmBiology of Morgellons related organisms (Part 2) (Go to Biology Part 1) Most related Morgellons organisms have been observed consisting of a mass or cellular core material, devoid of evident organs or cell (wall) diaphragm. They may have a hydrostatic skeleton, as does, for example, the epidermis of the thread worm, which consists of four layers: the lipid layer, consisting of a keratin-like protein; the internal cortical layer, consisting of collagen; the matrix layer, with few structures; and a fiber layer, which provides its firmness and elasticity. Additionally, most of these relatively larger forms have no segmenting, such as do insects.However, some varieties have mouth mandibles, surrounded with thorny extensions that may serve as sensors, as well as a kind of peripheral nerve extension, similar to the thread worm, which extends from the muscles/glassy fibers. Instead of the usual formation of nerves, which grows/spreads directly to the muscles.My investigations reveal that also around the main body of certain manifestations, glass-type fibrils hang down or grow with which it can further wrap itself, similar to filaria and borrelia structures. Several fibers are usually involved, forming a grouping to produce a total new body, yet theoretically each individual fiber fulfills its own task.The whole process resemble an accumulation of cords, sometimes pinched in the center. In the lower succession of photos, taken at two-day intervals, one can see how these accumulate and beging a transformation process. In the photo at the left, a glassy fiber ball appears to be wound around a black fiber and progresses to engulf and actualize as a completly black fuzz-type ball. Such ball accumulations are also observed in thread worms, such as the Onchocerca volvolus, as well as in Borrelia spirochetes. (Note photos below)A container system within the organisms is less recognized. Most likely the food is absorbed and digested somewhere and distributed throughout the body, similar to some worms which absorb nourishment through the skin (See also: "Experiments"). It also lacks respiratory organs or tracheae, as in mites. Possibly it may be demonstrate by necessity both aerobic and anaerobic forms.It appears that they can complete their reproduction and live cycle faster and they may be able to thrive, in the host body, for several years. The life expectancy of any host, in any case, is decreased. Without host organism, some of these organisms or the biofilm would be active about a few months (or longer), as a result of ambient temperature and humidity.Bacteria chains/strainsChlamydomonas protozoanTrypanosoma Cruz protozoanIf they are far away from the usual favorable living conditions, they fall into a shock, a similar condition to a kind of winter sleep or hibernation (sleepers). But only for a certain time they remain sleeping, just a contact with water or any moisture can causing again a resurrection. In the summer the risk of infection is higher, however, the active life span of the biofilm or the insect-like manifestations may be shortened, due of less humidity and drainage in the heat.They can however, at any time, even in dryed out conditions become activated by a certain damp ambient or various other attraction materials, as well as from the host`s body sweat. They may react also on carbon-dioxid (CO2) and other smells (hormons, pheromons).In comparison, there are also worms, viruses, bacterias, protozoans etc, which are able to live several years in a host, without causing symptoms similar to herpes or tuberculosis. Just stress, higher age, an illness, or even a certain food intake (chili, garlic etc.) of the host could cause only sometime an outbreak. A progressive lower immune system and hormonal level of the host will cause in most cases a remaining manifestation of the typical disease symptoms.Also a protection from cold weather and warmth and draining to them, offers their sometimes absurdly blown up outside covering, similar to some tardigrates characteristics which can also dying and drying out and resurrect later again. In normal climatic environment, they can be longer active, due to humidity which always remains particullary in clothes etc.The actual ideal temperature for survival would be the temperature of the host, which is approx. 37 degrees Celsius (98.6 F.). The lower the temperature, the slower it carries out itself the actual life rhythm.When a live ambient is present, in the form of food and humidity and the correct ambient temperature, whole bacterial colonies can survive a certain time and producing also further fibers, even in a tobacco bags, clothing, telephone receiver or within a computer mouse, which contain plentiful human fat and perspirations between the buttons.Also without any host they can grow in any favorable environment which is favoring also a constant re-infection and prolongation of the disease. You might have noticed at your home that you may have more dust balls or fibers as usual.Regarding nutrition and eating habits; they seem to cover and feed themselves upon fat/proteins, skin pigmentation, paper (cellulose) and other plant parts and may even have a provaclivity towards the cotton of our clothes. They particularly prefer also hairs (Keratin protein), tears, dead skin and lymph fluids as well perhaps the salt in human sweat, but not a real higher dosage of salt.Wherever the sweat glands secrete them out of the internal body areas they seem to settle and flourish on the skin and in the skin pores too. Mainly on the head because there we have more larger skin pores which are necessary to cool down quick the most important human organ, our brain. Mostly are the eyes and mouth affected and all other extremities of the body where the concentration of blood and nerve ends is higher, as at the nose, ears, fingers, feet, brests, hairs, gum. But rarely do we see a major infestation in the area of the genitals, but around (exeption is the tip of penis and clitoris). They most likely do not like the thinner fatless skin.Extreme changes in temperature for brief periods of time do not upset of kill them (ex: sauna or freezing.). One must clean a laundry well or this can lead to re-infections. Most fibers, biofilm and also eggs can survive the wash cycles no matter how hot the temperature setting is. Short times in the microwave and oven are also useless.To see also the difference between infested cloth fibers or normal cotton fibers, not infested cloth fibers did have a different design under a microscope, rather straight and smoothly. (See below pictures: nylon + cotton fibers)Infested clothing fibers have the appearance of being interwoven with fibers sticking out that have knots as well as being covered in a type of slime. These fuzz balls also appear to be a various colors, like red, white, black, green and blue. It may be also implicating some kind of chromatophors. (Note: Photos below) One has tried to, within the micrometer range, manufacture this tiny fuzz ball. This however was not a success. The complexity of the knotting mechanism was never able to be duplicated and the whole affair fail.Some researchers claims however that all of the multicolored fibers are produced by organism itself. No exact investigation has thus taken place to prove or disprove these theories. Both is possible, I have examined those with different colors and they correspond mostly as well to the respective host cloth fibers.Because inadvertently or by coincidence the clothing fibers remains in their sticky biofilm which is on the host skin and this biofilm slime is surrounding then each fiber in his environment and covering them completely, as well hairs.Probably also the industrial manufatured transport-medium fibers which are just the carriers of bacterial or fungal cultures have different colors too, up to the kind of bacteria and or to their respective color expression. Black colored fibers are surely full of pathogenetic bacteria.If one ignores sometime the colored fibers and pursues only the glassy strands of a sample, one discovers one or more insekt-like organisms, including eggs, which sit between or on the fibers. (See photos below) It seems impossible that such tiny organisms can produce so many long fibers. The metabolism of such organisms must be surely very high.Possibly only a growing mold/fungus with its growing filigrane hypthes can be considerated the creator of many micro fibers, which are just products of fungal and bacterial metabolism.One can say that clothing fibers and other material are also used for cocoons and sometime as reinforcement of created structures. To make a type of nest or sleeve it weaves around itself in a cocoon type manner. More fibers assists also in the adhesion to the host body. (See pictures below)The small fibers are sometime placed/sticked on skin or blood crusts or also on any present material. (see lower pictures) Below one can see a not yet complete transformation of egg-like buildings. Briefly before slipping and emerging the glassy outer hull hardens and looks brown, oval and shapeless. The top point is the only part not yet completely converted in this case. The two right pictures shows an egg slipping, whereby the black basic fibers are already present. (see lower pictures)Whether in the nose or on the hair in in the host nose, directly on the hair or at the root, they settle on each area and will provide a type of movement. These organisms have been mostly found in the mouth, gums, on tongue, throat as well as in eye bags and and always in the lymph system.They can also attack teeth (also pastic fillings) and deplete them of calcium. The pulling of calcium from boones and teeth could possibly be to reinforcement their own chitin layer, or for their eggs. Signs could be a progressive periodontal disease (tooth decay) and gum detorioration and a rotting of the the tooth near the gum line, which agrees mostly with many statements of concerning.The number of skin lesions does not correlate to the saturation of infestation. Samples taken upon this assumption revealed that on the skin surface approximately 30% are in the pores, skin bags, hair etc. and 30% in nose and mouth, less in the ears. Almost 40% of the biofilm (slimy tubuli) live constantly subcutaneously where their habitat is in deeper skin layers (hair roots, fat cells, collagen area) and more protected from the natural cooling system of the human skin from outward elements.But still connected with the skin surface with approx. 1 inch long outward kinds of fibers, feelers or sensors, which grew out to the surface of human skin, perhaps even for a gas exchange or oxygenation. Apparently, these fibers can be further extended (1-10 inches) under the skin, making them also able to avoid unfavorable environmental influences.They prefer then, to entrench themself more deeply into the skin, spreading evenly about to ensure a longer period protected under the skin surface. These silk-like bundles of extensions, which resemble fungal filaments or plastic, could also be full of spores/eggs from regular insects etc.Some insects like the "Floor fly", or the "Mushroom mosquito larvae" can also have silk-similar threads. Whereas the larvae are moving inside these silk threads, which are actually hollow inside and tubular. Microscopy serves to support the hypothesis of egg strands or bacteria in chainlike development. (see lower pictures)After a development, these organisms seem to grow out of this chain-like connections or tubes/fibers. All resembles to bacteria chains, even with integrated CO2 or oxygen chambers in the chain, or just plastic. (see lower pictures)In the enviroment these organisms are distant from the host body for long periods of time and become very hungry, yet growth results nevertheless outside of the host. In principle, this results in accumulation of "fuzz" and and fibers surrounding themself. Particularly with those organisms that have remained longer in an isolated enviroment i.e, cloth copboard.Upon investigations of a typical zone of infestation it can be determined that, concentrically, around the epicenter of the first outbreak (nest), new formed organisms (generations from spores?) are established in skin bags or pores in order to develop. The developing organism can leave these skin bags by crawling out at any time and return again without producing discoloration of the skin surface or any other characteristic.The more large the figure, the more visibly it is and also the inflammation and subjectively, the pain felt. Similarly, as with a re-infection, wherever there are larger organisms, it leaves a larger skin lesion or entrance wound.Concerning a respiratory system of these different organisms or varieties, worm-like organisms can breathe either by mouth or through their epidermis (skin), whereby it is to be noticed that they must not appear on the skin surface in order to breath. There is sufficient oxygen in the skin and in other human body areas. They can also survive for a quite long time without any oxygen.Mites (Arthropods) for example breathe by the use of tracheas. Thus gas exchange takes place over body openings that lead into the corpus (body) and serve respective organs with air. Algae fungi or some bacteria needs carbon dioxide (Co2), moisture or and UV-light to grow. These life forms can consist of anaerobic or aerobic micro-organism. Bacteria are life forms which can always mutate. They can survive with CO2 or changing their metabolism and using oxygen.It is also remarkable as this life form constantly tries at any given time to adapt to the given circumstances on the skin and the use of camouflage or protective function is imperative with this skin chamaleon. On the one hand they use charring or skin particle as protection, on the other hand also they stick their eggs upon it. (see lower pictures)With hairs or clothe fibers, which they integrate into their slime mass, these foreign fibers become additionally involved in their full length, with their climbing biofilm prolongations, as would be a climbing plant. (see lower pictures)If one irons their laundry in hops of killing these organisms or the industrial fibers (base carriers) then one would have to remain for a rather long time on a area with the iron in order to burn these by heat. Only if the heat nearly chars the clothe fibers, 600- 650 degrees Celcius (1600-1700 degrees F.) then also the industrial fibers will burn along with the cloth fibers which are woven in the own slime. The other manifestations burn a bit earlier.The organisms setteled in the nasal area appears rather oblong and more worm or snail-like and the ear varieties rather elliptical with less hairs or fibers. They are also to be able to produce threads inside the nose and arround nose hairs and they can perforate the nasal septum and penetrate it in the long term that ultimately becomes apparent as painful pimples in the nose.In the case of an internal fight of them in the nose these organisms move through the nose mucous membranes and skin layers, to move out on the nose surface again. Cartilages are intentionally surrounded. Then several dark points may be recognized that come out from the nose pores. Sign for a nose infestation might also be an enlargement (tuber nose) of the same.Also the human hair and the hair bellows over the hair root are completelyis covered with the biofilm which absorbes the Keratin. This becomes evident as grey hair which later precipitates hair loss and becomes apparent sometimes inside the nose involving the nares.After investigation what causes nose itching one can find silk-like threads that causes itching and irritation with each breath. If a nose hair is exhausted (grey), in this case the organisms resettles to the next hair.The pictures below show an organism (1), which has produced a kind of bridge between two nose hairs by means of its own slime or silk-like threads in order to make possible the removal of the remaining organisms (2).Automatically the impression develops, that this single organism has two legs and arms, a body and a head, with a kind of head hook or horn etc. One also must doubt if this image really is a worm. Rather this shape looks like a grasshopper or like a stretched frog. (Size of 0.2 mm) (see lower pictures)How big or long these organisms can grow without including the long expanding fiber-tentacles is still unclear. Neither nose spray nor nicotine can disturb them. However, nicotine (tobacco) was already known as an insecticide in former times. In the case of a withdrawal from the nose, daily specimens taken from the front upper nasal cavities shows approx. 50 worm-like organisms and a few colored fibers. Whereby the worm-like aspect is caused from slimy bacterial colonies.Finally, one can say that the base form is a bacterial biofilm transported first on a industrial manufactured fiberstring, compairable to fungal spores. The fiber as carrier and the integrated dry biofilm can survive longer than all the other known manifestations, with the ability to get anytime active again, just after having contact with a bit of water.

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dear susan,

hello. i just read your articles (morgellons biology part 1 and 2). i do not post on forums because i can not spell and also i have not quite figured out how they work, however i could not after reading your work pass without comment. you have done an incredible job here. wow! you have managed to produce a well researched, easily understood concept of the nature of morgellons. i am so impressed and really thankful to have found such important information all on one page. great job at getting down to the science and taking out the scare factor..refreshing really. i am going to muddle my way through this forum and find and read anything else you may have written. hopefully i will find my way around (not so good at this stuff). do you have a website or would it be possible for you to direct me to other things you have written? thanks so much for your work!