MORGELLONS SCIENCE- The TRUTH begins to emerge. Scientific study of MORGELLONS (and BDD in cattle) reveals FACTS. It is real. It is a start.

Morgellons Study Cited by Faculty of 1000: Not a Delusion

(Summery of findings regarding MORGELLONS so far: insidious onset, dermatological signs and systemic symptoms, lack of response to immunosuppressive treatment and association with tickborne diseases
dermatological disorder and multisystem illness
unexplained dermopathy
formation of unusual filaments found both subcutaneously and emerging from spontaneously appearing, slow-healing skin lesions
filaments are of human cellular origin
evidence of spirochetal etiologic involvement
peripheral neuropathy, delayed capillary refill, decreased body temperature, tachycardia, elevated pro-inflammatory markers, cytokine release, selective immune deficiency and elevated insulin levels
low-grade anemia, endocrine dysfunction, immune dysfunction and inflammation
seroreactive to Borrelia burgdorferi (Bb) antigens  sugesting Lyme borreliosis or related spirochetal infection
higher than expected percentage of positive laboratory findings for other tick-borne diseases, suggesting the possible involvement of coinfecting pathogens)


June 19, 2012, San Francisco Chronicle (San Francisco’s leading newspaper)

A recent study of Morgellons disease has been cited as a “must read” by the Faculty of 1000 (F1000). The article entitled “Morgellons Disease: A Chemical and Light Microscopic Study”, by MJ Middelveen, EH Rasmussen, DG Kahn and RB Stricker, was published in the open-access online Journal of Clinical and Experimental Dermatology Research.

In 2011, veterinary microbiologist Marianne J. Middelveen from Calgary, Alberta, Canada and internist Raphael B. Stricker, MD published a study documenting similarities between Morgellons disease and a veterinary illness known as bovine digital dermatitis (BDD) that causes lameness, decreased milk production, weight loss, and skin lesions near the hooves of affected cattle. That study revealed that the unusual fibers seen in the animal disease were similar to those seen in and under the skin of people worldwide who suffer from Morgellons disease.

The new study confirms that Morgellons disease is not a delusional illness, as some in the medical community maintain. The latest findings confirm that fibers from both bovine and human samples were similar in formation at the cellular level and had the chemical and physical properties of keratin. Fibers from human patients were found to be biological in origin and are produced by keratinocytes in epithelial and follicular tissues.

“This study puts the final nail in the coffin of delusional disease that these patients have been labeled with,” stated Dr. Stricker. “It proves that Morgellons disease is a physiologic illness. From here on, scientists will be able to move forward in finding a cause and a cure.”

[With or without the CDC’s war on medical truths.  See, e.g., CDC calls Morgellons’ nanoworms a delusion, protects DARPA.]

Note: To read this important study on Morgellons Disease, click here, or see the abstract below: (

“Morgellons disease is an emerging multisystem illness characterized by unexplained dermopathy and unusual skinassociated filament production. Despite evidence demonstrating that an infectious process is involved and that lesions are not self-inflicted, many medical practitioners continue to claim that this illness is delusional. We present relevant clinical observations combined with chemical and light microscopic studies of material collected from three patients with Morgellons disease. Our study demonstrates that Morgellons disease is not delusional and that skin lesions with unusual fibers are not self-inflicted or psychogenic. We provide chemical, light microscopic and immunohistological evidence that filaments associated with this condition originate from human epithelial cells, supporting the hypothesis that the fibers are composed of keratin and are products of keratinocytes.”



Morgellons Disease: A Chemical and Light Microscopic Study

Marianne J. Middelveen1, Elizabeth H. Rasmussen2, Douglas G. Kahn3 and Raphael B. Stricker1*
1International Lyme and Associated Diseases Society, Bethesda, MD
2College of Health Sciences, University of Wyoming, Laramie, WY
3Department of Pathology, Olive View – UCLA Medical Center, Sylmar, California
*Corresponding author: Raphael B. Stricker, MD
450 Sutter Street, Suite 1504
San Francisco, CA 94108, USA
Tel: (415)399-1035
Fax: (415) 399-1057
Received January 27, 2012; Accepted March 12, 2012; Published March 16, 2012
Citation: Middelveen MJ, Rasmussen EH, Kahn DG, Stricker RB (2012) Morgellons Disease: A Chemical and Light Microscopic Study. J Clin Exp Dermatol Res 3:140. doi:10.4172/2155-9554.1000140
Copyright: © 2012 Middelveen MJ, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Morgellons disease is an emerging multisystem illness characterized by unexplained dermopathy and unusual skin associated filament production.Despite evidence demonstrating that an infectious process is involved and that lesions are not self-inflicted, many medical practitioners continue to claim that this illness is delusional.

We present relevant clinical observations combined with chemical and light microscopic studies of material collected from three patients with Morgellons disease.

Our study demonstrates that Morgellons disease is not delusional and that skin lesions with unusual fibers are not self-inflicted or psychogenic.

We provide chemical, light microscopic and immuno-histological evidence that filaments associated with this condition originate from human epithelial cells, supporting the hypothesis that the fibers are composed of keratin and are products of keratinocytes.

Morgellons disease; Digital dermatitis; Lyme disease; Borrelia burgdorferi; Spirochetes; Keratin
Morgellons disease (MD) is an emerging dermatological disorder and multisystem illness. The disease is characterized by unexplained dermopathy associated with formation of unusual filaments found both subcutaneously and emerging from spontaneously appearing, slow-healing skin lesions [1]. Filaments associated with MD appear beneath unbroken skin [1,2], thus demonstrating that they are not self-implanted. Filaments have been observed protruding from and attached to a matrix of epithelial cells [3]. This finding demonstrates that the filaments are of human cellular origin and are not textile fibers. These filaments have not been matched with known textile fibers, and dye-extracting solvents have failed to release coloration; the fibers are also very strong and heat resistant [4,5]. MD filaments are physically and chemically consistent with keratin, a biofiber produced in the epithelium by keratinocytes. A recent report from the Centers for Disease Control and Prevention (CDC) confirmed that these filaments have a protein composition that is consistent with keratin [6].
Lyme disease-like symptoms in MD such as neurological disorders and joint pain are evidence of systemic involvement [1,2,7] . Objective clinical evidence of disease has been demonstrated by its association with peripheral neuropathy, delayed capillary refill, decreased body temperature, tachycardia, elevated pro-inflammatory markers, cytokine release, selective immune deficiency and elevated insulin levels, suggesting that an infectious process is involved [8,9]. Patients may demonstrate abnormal laboratory findings indicative of low-grade anemia, endocrine dysfunction, immune dysfunction and inflammation [8,10]. Patients with MD are predominantly seroreactive to Borrelia burgdorferi (Bb) antigens, suggesting a likelihood of Lyme borreliosis or related spirochetal infection [1,10]. Patients also demonstrate a higher than expected percentage of positive laboratory findings for other tick-borne diseases, suggesting the possible involvement of coinfecting pathogens [10].
The observation of unusual filaments forming in lesions is not unique to humans afflicted with MD. Similarities between MD and bovine digital dermatitis (BDD) have been described [3]. BDD is an emerging disease afflicting cattle and is characteristically associated with unusual filament formation in skin above the hooves [11]. Late stage proliferative lesions demonstrate elongation of keratinocytes, hyperkeratosis, and proliferation of long keratin filaments [1214]. Consistent detection of spirochetes associated with lesions is evidence of spirochetal etiologic involvement [1520]. Experimental induction of lesions with tissue homogenates [21] and pure cultured treponemes [22] supports a role for spirochetes as primary etiologic agents.
Like BDD, MD is associated with apparent spirochetal infection and unusual filament production [3]. A comparison between BDD and MD suggests that the unusual fibers seen in MD patients may result from hyperkeratosis and filament production as described in BDD. It appears that MD fibers are likewise composed of keratin produced by keratinocytes, a phenomenon that has been demonstrated in BDD [3]. The following three case studies provide further evidence supporting this hypothesis.
Materials and Methods
Human and bovine samples
Three patients meeting the clinical criteria for Morgellons disease collected calluses, scabs, filaments, and other dermatological debris and submitted the material for microscopic examination. The collected samples were examined by bright-field microscopy at 100x magnification. Specimens were illuminated either superior or posterior to the specimen. Some specimens were also illuminated with ultraviolet (UV) light.
Biopsies from cattle with BDD were kindly provided by Dr. Dorte Dopfer, Faculty of Veterinary Medicine, University of Wisconsin, Madison, WI. Biopsy material from proliferative late stage BDD was examined for comparison to MD samples with 8x magnification under a dissecting microscope. This material was also tested for fluorescence under UV light.
For the chemical experiments, samples of normal hair, filaments from Cases 1 and 2 and BDD fibers were studied for reactivity to three caustic agents: sodium hypochlorite 12%, sodium hydroxide 10%, and potassium hydroxide 10%. Each sample was suspended in 150 μl of the chemical solution for up to two hours, and serial light microscopy was performed at 0, 1, 10, 30, 60 and 120 minutes. Dissolution of fibers was assessed by fraying, loss of shape and/or disintegration at each timepoint.
For the immunohistological experiments, filament samples from Cases 1 and 2 were stained for keratin using monoclonal antibodies. Briefly, formalin-fixed paraffin-embedded filaments were incubated with monoclonal antibodies AE1/AE3 (Dako North America Inc, Carpinteria, CA) and AE5/AE6 (Cell Marque Corporation, Rocklin, CA) directed against cytokeratins 1/3 and 5/6, respectively, using the Envision® + Dual-Link System-HRP (Dako) according to the manufacturer’s instructions. The samples were stained using a horseradish peroxidase label, and the brown staining of keratin was visualized under light microscopy.
Clinical Observations
Case 1
The patient is a 72-year-old grandmother and former fashion model who developed painful lesions on her hands while working in her garden in San Antonio, Texas, in 1994. The lesions were punctate with ragged edges and healed slowly, leaving visible scarring. Fibers were observed in the lesions and under intact skin on her hands using a 60x handheld microscope. Topical steroids had no effect. The patient also noted the onset of fatigue, joint pain and muscle aches, and systemic steroid treatment exacerbated these symptoms without any improvement in the skin lesions. Medical evaluation was negative for autoimmune or infectious diseases, and neuropsychiatric evaluation was entirely normal. Biopsy of a lesion demonstrated hyperkeratosis and parakeratosis with no visible organisms or evidence of vasculitis. However “textile fibers” were noted in the dermal layer of the biopsy specimen.
In 2001, after numerous visits to dermatologists and other medical specialists and treatment with topical emollients and antiinflammatory medications, the patient had persistent skin lesions on her hands, fatigue and musculoskeletal pain. Despite the use of gloves to avoid scratching, her lesions persisted and she was unable to work in her garden or hold her grandchildren due to pain in her hands and joints. She recalled numerous tickbites but never saw an erythema migrans (EM) rash, and she was found to have positive testing for B. burgdorferi, Babesia microti and Bartonella henselae. She was treated with antimicrobial medications and her fatigue and musculoskeletal pain improved significantly. However her skin lesions persisted. She received anti-parasitic medication, and the lesions improved to the point that she could once again do gardening. The lesions persist but are “manageable” (Figure 1A).
Figure 1A: Lesions on hands of Case 1 following extensive antimicrobial treatment. Note erythematous base with ragged edges.
Case 2
The patient is a 49-year-old registered nurse who had numerous tickbites while hiking, camping and horseback riding in Missouri, Texas and Northern California over more than a decade. She never saw an EM rash. In 1997 while living in San Francisco she developed painful lesions on her face, trunk and extremities. The lesions were punctate with ragged edges. Some lesions healed slowly, leaving visible scarring, while others did not heal at all, and fibers that were resistant to extraction were observed within several lesions. Fibers were also observed under intact skin using a 60x handheld microscope. Topical steroids had no effect. Biopsy of a lesion on her leg revealed hyperkeratosis and parakeratosis without evidence of infection or vasculitis. However, “textile fibers” were noted in the dermal layer of the biopsy specimen. She also developed fatigue and musculoskeletal pain, and systemic steroid treatment exacerbated these symptoms without any improvement in the skin lesions. Medical evaluation was negative for autoimmune or infectious diseases, and neuropsychiatric evaluation was completely normal.
Because of persistent fatigue, musculoskeletal pain and her history of tick exposure, the patient was evaluated for Lyme disease in 2004 and had positive testing for B. burgdorferi and Ehrlichia chafeensis. Antibiotic therapy led to improvement in the fatigue and musculoskeletal pain, but the skin lesions persisted. She received antiparasitic medication and her skin lesions improved somewhat, but new lesions appeared and healing lesions caused painful scarring. She has received intermittent courses of antibiotics over the past six years, and her skin lesions continue to wax and wane (Figure 1B).
Figure 1B: Lesions on back of Case 2. Note punctate appearance of open lesions and scarred appearance after healing. Lesions occur in locations that could not be easily reached by the patient.
Case 3
The patient is a 47-year-old business manager who was in excellent health until he developed a “bullseye” rash, fever, chills, severe headache, musculoskeletal pain and malaise after hiking in the woods near Atlanta, Georgia, in 1995. He had pulled ticks off his dog, which also became ill at the same time. He was diagnosed with fibromyalgia and treated with pain medications, but by 2000 he had become progressively disabled by muscle pain and fatigue. In 2002 he developed crawling sensations on his head, face, groin and other body areas where there was hair. The sensations were accompanied by painful skin lesions. He was diagnosed with folliculitis and put on a topical antibiotic, which made his skin symptoms worse. He began to notice painful fibers coming out of the skin on his face, head and other hirsute areas, and he could not sleep because the fibers were so painful. He extracted fibers from his facial lesions, but new ones appeared. He was diagnosed with trichotillomania and delusional parasitosis.
He went to several dermatologists and was treated with topical lindane and oral cephalexin without benefit. Treatment with oral ketoconazole and fluconazole provided marginal improvement in the crawling sensations and skin lesions. A scalp biopsy demonstrated increased numbers of catagen and telogen follicles with fragmented hair fibers and inner root sheath consistent with trichotillomania. There were no visible organisms or evidence of vasculitis. Medical evaluation was negative for autoimmune or infectious diseases, and neuropsychiatric evaluation revealed reactive depression. He was treated with antidepressants without benefit. Finally in 2005 a physician noted fibers under his skin using a 60x hand-held microscope. Testing for Lyme disease was indeterminate in 2006, and treatment with doxycycline was given for one month without benefit. The patient continues to suffer from crawling sensations, skin lesions, musculoskeletal pain, disabling fatigue and depression. He is reluctant to see any more physicians about his skin condition (Figure 1C).
Figure 1C: Head of Case 3 photographed at disease onset in 2002 (top) and during disease flare in 2011 (bottom). Note punctate lesions with ragged edges in bottom picture. Patient shaved his head in effort to decrease pain from scalp lesions.
MD Microscopic observations
Case 1: Microscopic examination revealed a wide range of filaments in various stages of formation ranging from early stages that demonstrated either single or clusters of hyaline, tentacle-like projections with tapered ends (tentacle diameter approximately 5 μm) to macroscopic masses or mats of tangled fibers (approximately 1 mm diameter) (Figures 2A2H). Floral-like formations of early-stage filaments were observed in some samples that were collected on different dates and years (Figure 2A). These structures had tapered ends with bases originating at a central point and were found in groups anchored to a dried dermal matrix. The reverse side of some of these specimens revealed a layer of pavement epithelial cells (Figure 2B). Epithelial matrices anchoring longer hyaline fibers were observed, suggesting that as the tentacle-like projections increase in length individual fibers may become tangled, or clumped (Figure 2C). Various structures composed of clumps, strings, and nest-like balls of hyaline filaments were observed and some of these were glued together by clotted or dried exudate (Figure 2D). This suggests that tangled filaments may eventually separate from the supporting epithelial matrix and form balls and other tangled structures.
Figure 2A: Fibers from Case 1. Note floral appearance of fibers (100x magnification).
Figure 2B: Pavement epithelium on underside of floral fibers shown in Case 2A (100x magnification).
Figure 2C: Hyaline fibers forming macroscopic masses in finger webbing from Case 1 (50x magnification).
Figure 2D: Clumps of hyaline filaments surrounding clotted or dried exudate from Case 1 (100x magnification).
Some samples revealed raised unidentified papules protruding from dried epithelial tissue that might be abnormal hair follicles. Long isolated colored filaments, filament fragments, balls, and clumps of fibers (red, blue, black and green) were also observed, but were not attached to or growing from epithelial tissue. Many of these colored filaments had bulb-like ends (50 μm diameter) that looked very much like those found in hair follicles (Figure 2E).
Figure 2E: Blue filament with bulb-like ends (50 μm diameter) similar to a hair follicle from Case 1 (100x magnification).
Many fibers displayed iridescence under bright-field microscopy and were fluorescent under UV lighting. Hyaline or white fibers fluoresced brightly, as did blue fibers (Figure 2F). Red and green fibers displayed striking iridescence (Figure 2G, Figure 2H) but fluoresced with less intensity than the blue and white fibers. This suggests that melanin pigments may be associated with red and green filaments. Early floral-shaped clusters were brightly fluorescent. Human hair was not fluorescent nor was normal skin. Color intensity and hue of the red and blue filaments was influenced by the color spectrum of the illuminating light. This property and the presence of iridescence suggests that a structural component is involved in the unusual colors seen in Morgellons fibers.
Figure 2F: Bluish fluorescence of fibers under UV lighting from Case 1 (100x magnification).
Figure 2G: Iridescence of a green fiber from Case 1 (100x magnification).
Figure 2H: Striking iridescence of a red fiber from Case 1 (100x magnification).
Case 2: Microscopic examination of scab material revealed scab detritus imbedded with long filaments of various colors (Figures 3A3D). Hyaline, red, blue, and light purple fibers were observed (10-40 μm diameter) (Figure 3A, Figure 3B). One sample revealed fibers tangled around a hair and these fibers may have been associated with the hair follicle (Figure 3C). Smaller, pale purple fibers (10 μm diameter) appeared to form a mesh around the follicle. Some samples revealed fibers that lay beneath or penetrated dermal tissue Figure 3D.
Figure 3A: Red and blue fibers in skin samples from Case 2 (100x magnification).
Figure 3B: Red and blue fibers embedded in skin from Case 2 (100x magnification).
Figure 3C: Fibers tangled around a hair (larger black shaft to right of figure) in Case 2 (100x magnification).
Figure 3D: Fibers penetrating dermal tissue from Case 2 (100x magnification).
Case 3: Microscopic examination was performed with particular attention to hair follicles, as the patient had reported unusual filament formation associated with the follicles. Microscopy revealed abnormalities of the follicular bulbs and the hair associated with these follicles that indicated abnormal functioning of follicular keratinocytes (Figures 4A4D). Many follicles contained malformed bulbs with distorted shapes, and some follicles had two or more hairs branching from a single inner root sheath (Figure 4A). Filaments stemming from the bulb end were found in some follicles and these appeared as rootlike growths (Figure 4B). Transparent filaments were observed that stemmed from cells within the inner root sheath (Figure 4C). On some hairs red or blue colored filaments branched from the shaft (Figure 4D). Many hairs were flattened or tape-like on cross-section rather than concentric. These hairs were similar in appearance to Morgellons filaments.
Figure 4A: Hair follicle from Case 3 showing two hairs branching from a single inner root sheath (100x magnification).
Figure 4B: Hair follicle from Case 3 showing filaments stemming from bulb end (100x magnification).
Figure 4C: Hair follicle from Case 3 showing transparent filaments stemming from the inner root sheath (100x magnification).
Figure 4D: Hair follicle from Case 3 showing blue fiber (top) and red fiber (bottom) branching from the hair shaft (top, 100x magnification; bottom, 200x magnification).
BDD Microscopic observations
Biopsies from late proliferative stage BDD lesions were examined microscopically for comparison (Figures 5A5D). Although the scale of filaments was much larger, the BDD filaments (roughly ten times larger) were similar in appearance compared to the specimens observed in Case 1 (Figure 5A, Figure 5B). Filaments were macroscopic, opaque and dirty white in color, ranging in size from less than 0.5 mm in diameter to about 1 mm in diameter. In cross section filaments appeared to originate beneath the stratum corneum (Figure 5C). Longer filaments were close to 1 mm in length. The BDD filaments demonstrated fluorescence under UV light (Figure 5D).
Figure 5A: Bovine digital dermatitis (BDD) sample showing coarse fibers (8x magnification).
Figure 5B: BDD sample showing floral fibers (8x magnification). Note similarity to MD floral fibers from Case 1 (Figure 2A).
Figure 5C: Cross section of BDD sample showing coarse fibers that originate beneath the stratum corneum (8x magnification).
Figure 5D: BDD sample showing coarse fibers with fluorescence under UV lighting (8x magnification).
Chemical Experiments
Samples of normal hair, colored filaments and dermal material from Cases 1 and 2, and BDD fibers were subjected to immersion in caustic agents. Duplicate experiments with each caustic agent were performed on each sample. Results of the experiments are shown in (Table 1) Normal hair and patient filaments began to fray after incubation for 1 minute, and the patient filaments had completely disintegrated after incubation for 120 minutes in 12% sodium hypochlorite. Normal hair was still visible at this timepoint. In contrast, patient filaments began to fray at 1 minute in 10% sodium hydroxide but were still visible after 120 minutes, similar to normal hair. The hair and patient filaments were more resistant to 10% potassium hydroxide, with visible fraying beginning at 10 minutes and fibers still visible at 120 minutes. Although the larger BDD fibers appeared to be more resistant to the chemicals, fraying and shape change similar to the human samples was evident at 120 minutes with each caustic agent.
Table 1: Dissolution of Morgellons filaments and BDD fibers in caustic reagents.
Keratin immunostaining
The results of keratin immunostaining experiments are shown in Figure 6. The MD filaments from Case 1 stained strongly with the “pankeratin” antibody AE1/AE3 directed against cytokeratin 1/3. In contrast, the filaments stained weakly with the more restrictive antibody AE5/AE6 directed against cytokeratin 5/6. Staining with AE1/ AE3 was seen over the length of the fiber, while staining with AE5/ AE6 was only detected in the outermost scale. Melanin pigmentation was not seen in the fibers. No staining was detected with an irrelevant monoclonal antibody, and similar positive keratin staining with AE1/ AE3 was detected in MD fibers from Case 2 (data not shown).
Figure 6: Keratin immunostaining of fiber from Case 1. Immunostaining was performed as described in Methods section. Top: Staining with anti-CK AE1/ AE3. Bottom: Staining with anti-CK AE5/AE6 (200x magnification).
Our three patients had features of MD that are commonly described in the medical literature, including insidious onset, dermatological signs and systemic symptoms, lack of response to immunosuppressive treatment and association with tickborne diseases [13]. Case 1 had skin lesions confined to the hands (Figure 1A), while Cases 2 and 3 had disseminated skin lesions over the head, trunk and extremities (Figures 1B and 1C). In addition, Case 3 had symptoms associated primarily with hair follicles, and a sensation of change in hair composition and texture is often reported by Morgellons patients [1,10]. These MD patterns have been recognized in prior studies [1,2] and we propose a classification of localized MD versus disseminated MD based on the distribution of the dermopathy. Although the reason for this dermopathy distribution is unknown, the location of skin lesions may be related to the cell of origin of the fibers seen in lesions or under the skin, as discussed below. Further study of the dermopathy distribution in MD is warranted.
The present study demonstrates Morgellons filaments that clearly originate from a layer of pavement epithelial cells visibly held together by desmosomes (Figure 2). The predominant cells found in pavement epithelial tissue are keratinocytes. We also noted MD fibers that clearly originate from the inner root sheaths of hair follicles (Figures 24), and keratinocytes are the predominant cell type in this tissue. Keratinocytes produce the biofiber keratin. A cross section of BDD filaments likewise demonstrates filament origin from cells beneath the stratum corneum (Figure 5), consistent with descriptions in the literature of growth from keratinocytes [14,19]. Thus MD filaments and BDD filaments appear to be similar in formation at the cellular level, both originating from keratinocytes in the stratum spinosum or stratum basale. MD differs from BDD, however, in that MD filaments appear to originate from follicular keratinocytes as well as epidermal keratinocytes. Both MD filaments and BDD filaments fluoresce in UV light (Figures 25). We have also shown for the first time that MD filaments contain keratin (Figure 6), and keratin staining was positive using a “pankeratin” monoclonal antibody but negative with a more restricted keratin ligand. This observation indicates that the fibers originate from specific tissues that require further characterization.
The observation that MD fibers are found beneath unbroken skin, may grow from an epidermal matrix and are associated with hair follicles suggests that they are not self-implanted textile fibers [13]. The filament formation described in MD is associated with a high likelihood of Bb infection [1,10]. BDD in cattle is associated with hyperkeratosis, keratin filament formation and spirochetal infection [1220]. Hyperkeratosis and excessive keratin production associated with chronic inflammation has been demonstrated in humans with cholesteatoma [23,24],and alterations in keratinocyte expression of HLA markers and tissue enzymes have been reported in association with Bb infection [25,26]. These observations suggest that hyperkeratosis and keratin filament production associated with spirochetal infection is a plausible explanation for the clinical and microscopic findings in MD.
Hyaline and colored filaments from the three case studies demonstrate iridescence and an appearance consistent with keratin. Red, blue, purple and black are colors found in keratin and are associated with structural coloring and/or melanin production [2730]. Clusters of early filaments described in Case 1 demonstrate that fibers are anchored and growing from a basal epithelial cell matrix. They are clearly biological and human in nature and are not implanted textile fibers. Various growth stages of fibers attached to epidermal matrices have been observed. These range from early filaments isolated or in clusters (that are only a few μm in diameter and 10 μm long) to long tangled mats (with fibers 10 μm or wider in diameter and several hundred μm long). Similar filament structures have previously been reported and photographed in MD [31]. Textile fibers have never been produced in this manner, and the suggestion that these unusual formations are manufactured textile fibers is not credible.
Longer fibers with tapered ends anchored to a cellular matrix were observed in Case 1, demonstrating filament evolution. Colored fibers were often found near larger hair follicles or appeared to have follicular bulb-like ends, suggesting an association with hair follicles and follicular keratinocytes. Our chemical studies suggest that MD filaments and BDD fibers react to caustic agents in a manner similar to normal hair, although MD filaments appeared to be more susceptible and BDD fibers less susceptible to the caustic agents Table 1. In preliminary studies using scanning electron microscopy, the presence of scales on a blue filament indicated that this specimen was a fine hair (D’Alba L and Shawkey MD, unpublished observation, December 2011). This finding suggests that some of the colored fibers of follicular origin may in fact be modified hairs. Differences between the keratinocytes found in the inner root sheath of hair follicles and keratinocytes found in the basal skin layer may account for the differences of location, structure, coloring and size of fibers seen in this study [32,33]. The effect of spirochetes on keratinocyte function may also play a role in altered keratin production associated with MD and BDD [22,25,26].
In conclusion, MD lesions were not caused by self-mutilation or delusions in the three cases presented here. The photographic evidence clearly demonstrates that the unusual fibers or filaments described in this study are not self-implanted textile fibers. All three patients had symptoms and laboratory findings consistent with systemic illness and indicative of tickborne disease. Neuropsychiatric testing was normal in two cases and influenced by the disease in the third case, and all three patients were examined by a medical practitioner who confirmed the presence of fibers underneath unbroken skin compatible with a diagnosis of MD.
We have demonstrated that filaments found in MD patients have chemical, physical and immunohistological features of keratin. The presence of individual filaments attached to epithelial tissue is consistent with keratin and suggests that the filaments are produced by keratinocytes. Morgellons filaments have been photographed growing from pavement epithelial cells, and this process resembles the evolution of filaments seen in BDD. Because BDD is a disease in which spirochetes have been identified as primary etiologic agents, and spirochetal sero-reactivity has been associated with MD, it is reasonable to assume that spirochetal infection plays an important role in MD filament production. Further immunohistological and electron microscopy studies are needed to solve the mystery of Morgellons filaments.
Conflict of Interest Statement
RBS serves without compensation on the medical advisory panel for QMedRx Inc. He has no financial ties to the company. MJM, EHR and RBS serve without compensation on the scientific advisory panel of the Charles E. Holman Foundation. DGK has no conflicts to declare.
The authors thank Drs. Gordon Atkins, Robert Bransfield, Dorte Dopfer, Alan MacDonald, Peter Mayne, Deryck Read, Matthew Shawkey, Janet Sperling, Ginger Savely, Michael Sweeney and Randy Wymore for helpful discussion. We thank Dr. Robert B. Allan for technical support and Lorraine Johnson for manuscript review, and we are grateful to Harriet Bishop, Cindy Casey and Lee Laskowsky for providing first-hand information about Morgellons disease.



article two from:

Monday, January 30, 2012

CDC calls Morgellons’ nanoworms a delusion, protects DARPA

Image Source

Rady Ananda
Activist Post

Imagine having the mental prowess to be able to create living filaments heretofore unknown, that can reproduce themselves, some of which come with identifying letters embossed on them, and then to make them extrude from beneath your skin, all against your conscious will.

Sound like science fiction?  It’s not, says the US Centers for Disease Control.

Despite having spent four years and $600,000, and using the world’s largest forensic database, the premier health agency reports it is unable to identify the source of the fibers emanating from those suffering with Morgellons. [1]

The CDC suggests that four out of a hundred thousand people — the rate of infection in Northern California — are imagining these filaments into existence.

Comprising an array of physical and mental symptoms [2], Morgellons is distinguished by novel fibers that protrude from the skin, causing lesions and sores that do not heal, or that heal very slowly.

“We conducted an investigation of this unexplained dermopathy to characterize the clinical and epidemiologic features and explore potential etiologies,” the paper explains. The only potential etiology suggested was that the patients were delusional:

No common underlying medical condition or infectious source was identified, similar to more commonly recognized conditions such as delusional infestation.

The CDC provided more information in its press releases [3] hyping the study than it did in the 300-word study published last week.  Its Unexplained Dermopathy webpage goes beyond what was reported in the actual study, saying there is “no evidence of an environmental link,” and promised to do no further studies. [4]

“People who suffer from Morgellons disease are NOT delusional no matter what the CDC or the mainstream press would have you believe,” says Jan Smith of  She’s suffered with Morgellons for over 13 years.

The image above is on her home page. “Ponder why a person with Morgellons disease would have tissue coming out of their body with embossed letters on it.  This photo is real and the sample has not been altered in any way. It is available for research and DNA testing.” [5]

The CDC study reported, “Most materials collected from participants’ skin were composed of cellulose, likely of cotton origin.”

One of the specimens extruded from Smith’s body was found to be composed of cellulose and GNA, the synthetic form of DNA. [6]  Glycol nucleic acid does not occur naturally; it is used to create synthetic life forms. [7]

But why would the CDC not know exactly the origin of the cellulose, instead saying it’s likely from cotton?  And what about the rest that was not cellulose?  The study provided no details.

The CDC sent the cellulose and unnatural fibers to the Armed Forces Institute of Pathology, reports the Associated Press. [8]  AFIP has been collecting fiber samples and other forensic material for 150 years. [9]  Its 2011 budget was $65 million. [10]  Surely, if these novel fibers are natural or lab-created, the AFIP would know.  Apparently not.

AFIP is the same group that collected all the forensic evidence of the 9/11 attack on the Pentagon and at the Pennsylvania crash site, under code name Operation Noble Eagle. [11]

The Center for the Investigation of Morgellons Disease, headed by Dr. Randy Wymore, was also unable to identify the fibers. The Oklahoma State University research center had the forensics team of the Tulsa Police Dept. compare samples to its database of 800 fibers and 90,000 organic compounds, without success, reports Natural News writer Barbara Minton. [12]

Though Wymore did not respond to my request for comment in reaction to the new CDC study, the Center’s home page still maintains that Morgellons “is frequently misdiagnosed as Delusional Parasitosis or an Obsessive Picking Disorder.” [2]

What is the CDC hiding about Morgellons?

What the CDC didn’t say in the public report is that those fibers are alive and motile.  They grow and reproduce, and have been shown to do so in a petri dish using certain visible light frequencies.  If delusions are creating them, that would be a first in human evolution.

Research conducted by Cliff Carnicom indicates that the still-unidentified fibers seen in Morgellons patients are the same as those collected after an aerial spray of chemtrails. [13]

After being cultured for five days, the fibers produced a sheen across the wine medium, right before explosively reproducing hundreds of new fibers in a 24-hour period. [14]  He later explored how these nanoworms feed on the iron in human blood, explaining that, “changes in iron and the utilization of iron in a pathogenic sense are at the heart of the Morgellons issue.” [15]

An arduous course of research led Carnicom to conclude that the nanoworms present in Morgellons patients represent an entirely new life form, and one that was engineered using features from each of the three Domains of life (Bacteria, Archaea and Eukarya). [16]

To bolster his argument, he refers to a Feb. 2010 disclosure by the Defense Advanced Research Projects Agency (DARPA) “to develop immortal ‘synthetic organisms’, as outlined in the unclassified version of the 2011 budget,” citing

As part of its budget for the next year, Darpa is investing $6 million into a project called BioDesign, with the goal of eliminating ‘the randomness of natural evolutionary advancement.’
“… The project comes as Darpa also plans to throw $20 million into a new synthetic biology program, and $7.5 million into ‘increasing by several decades the speed with which we sequence, analyze and functionally edit cellular genomes.’ [17]

If these unidentified fibers are some sort of top-secret nanotech military weapon, that would explain why no answer and no help will come from the CDC or the military.

Using Carnicom’s research, and others, documentarian Sofia Smallstorm (9/11 Mysteries) raised a singularly spectacular question at a speech last year:  Is it possible that Morgellons sufferers are those whose bodies are genetically rejecting these nano-engineered life forms, while our bodies are integrating them? [6]

That question must be noodling the brains over at the CDC and DARPA.  They must be wondering what is different about those 4 in 100,000 people whose bodies reject these synthetic life forms.  The report they didn’t reveal to the public is the one I want to read.

We do know that back in 2006, the National Institutes of Health listed Morgellons as a genetically caused disease, due to the presence of three copies of a chromosome rather than the normal two (known as trisomy). This was found at the 5S rRNA genes located on chromosome 1, in the q42.11 to q42.12 region, according to the following screen capture by Jan Smith, who explains that a year later NIH deleted the webpage [18]:

Trisomy can result in mental retardation and physical deformities. [19]  Are  these bioengineered life forms causing rRNA to produce a third copy of chromosome 1 at q42.11 to q42.12?  Or, do Morgellons sufferers already have a third copy, and its presence is somehow forcing the nanoworms to leave the body?

Several people agree with Carnicom that these living fibers are being sprayed on us via the vociferously denied chemtrail program.  Morgellons patient Kandy Griffin, president of Morgellons Research Group, puts it right out there:

Morgellons is not a disease. It is a process. It is a form of forced/directed evolution of the human genome. It is the fetal stage of transhumanism, and it is upon us.
This stealth project is being carried out with the use of the daily chemtrail operations, which are happening globally.  There is no escape.  The chemtrail operations are terraforming the earth and everything on it, including you. [20]

There is hope. In the last section of Carnicom’s Thesis, he suggests several mitigation strategies that would apply equally to those who develop Morgellons and those who don’t, but who are likely assimilating rather than rejecting these bioengineered life forms. [15]

© Rady Ananda, 2012

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Notes and further research:

[1] Pearson ML, Selby JV, Katz KA, Cantrell V, Braden CR, et al. (2012) “Clinical, Epidemiologic, Histopathologic and Molecular Features of an Unexplained Dermopathy.” PLoS ONE 7(1): e29908. doi:10.1371/journal.pone.0029908. Available at
[2] Oklahoma State University Center for the Investigation of Morgellons Disease homepage

See also: Randy S. Wymore and Rhonda Casey, “Morgellons Disease” (Joint Statement to the medical community), Oklahoma State University Center for Health Sciences, Tulsa, 15 May 2006.
Wymore, “A position statement from Randy S. Wymore on the topic of Morgellons Disease and other Morgellons-related issues,” 19 June 2007.

[3] Centers for Disease Control and Prevention, “CDC to launch study on unexplained illness,” 16 Jan. 2008.

See also: Managing Infection Control, “Infection Focus: Morgellons; CDC to launch study on unexplained illness,” March 2008. Reproduced at

[4] Centers for Disease Control and Prevention, “CDC Study of an Unexplained Dermopathy,” 25 Jan. 2012.
[5] Jan Smith, Morgellons Exposed, n.d.
[6] Sofia Smallstorm, “From Chemtrails to Pseudo-Life: The Dark Agenda of Synthetic Biology,” speech at Conspiracy Con 2011, 4 June 2011, Santa Clara, California. Video at
[7] Science 2.0, “GNA: DNA’s Chemical Cousin Is a Nanotechnology Building Block,” 28 April 2008.
[8] Mike Stobbe, “Study of freakish mystery illness finds no cause,” Associated Press, 26 Jan. 2012.
[9] U.S. National Library of Medicine, “Historic Medical Sites: Armed Forces Institute of Pathology,” 2 March 2004 (rev. 3 Aug. 2011), National Institutes of Health.
[10] Comptroller, Office of the Under Secretary of Defense, “Defense Health Program Operation and Maintenance Fiscal Year (FY) 2011 Budget Estimated Consolidated Health Support.” Vol I, Sec 5-C, OP-5, CHS, 11PB, DHP, Exhibit OP-5. p.3. Available at
[11] Armed Forces Institute of Pathology, The AFIP Letter, Vol. 159, No. 5, Oct. 2001. Reproduced at
[12] Barbara L. Minton, “Morgellons: Terrifying New Disease Reaching Pandemic Status,” Natural News, 3 Mar 2009.
[13] Clifford E Carnicom, “The Biggest Crime of All Time, Confirmed: Environmental Filament Matched to Morgellons Condition,” 1 March 2011.
[14] Carnicom, “A New Form: Frequency Induced Disease?” 8 March 2011.
[15] Carnicom, “Morgellons: A Thesis,” 15 Oct. 2011 (rev. 1 Dec. 2011)
[16] Carnicom, “Morgellons: A New Classification,” 3 Feb. 2010 (rev. 11 Feb. 2010)
[17] Katie Drummond, “Pentagon Looks to Breed Immortal ‘Synthetic Organisms,’ Molecular Kill-Switch Included,” 5 Feb. 2010.
[18] Jan Smith, “The Hidden NIH Webpage: NIH Website Lists Chromosome 1q42 Responsible for Morgellons Disease,” 18 Jan. 2008.

See also: Sorensen PD, Lomholt B, Frederiksen S, Tommerup N, “Fine mapping of human 5S rRNA genes to chromosome 1q42.11–q42.13,” (1991). Cytogenet. Cell Genet. (1991); 1(57): 26-9. Abstract available at—-q4213

[19] March of Dimes, Chromosomal abnormalities, Dec. 2009.
[20] Kandy Griffin, “Morgellons is not a disease,” 7 Aug. 2011.

Many videos and other sources at: Amir Alwani, “If Chemtrails And HAARP Didn’t Disturb You Enough, Wait Until You Hear About Morgellons,” 21 Nov. 2011.
Read more of Carnicom’s papers at

Rady Ananda is an investigative reporter and researcher in the areas of health, environment, politics, and civil liberties.  Her two websites, Food Freedom and COTO Report are essential reading.

About Timothytrespas

I am a victim of human experimentation MK-ultra mind control Morgellons nanotechnology syndrome & remote neural connectivity. I am an artist, inventor, musician, thinker, lover, human being who cares for all humanity & all life. I believe people should endeavor to live in peaceful cooperation rather than brutal waring survival of the most brutal. We live in a forced false-paradigm and I desire to wake people up from the 'trance hypnotic mind control programming' to the 'TRUTH of light and love'! Blessing and peace. Justice to all who suffer under tyranny. Compassion for all beings. May GOD have mercy on us all.
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3 Responses to MORGELLONS SCIENCE- The TRUTH begins to emerge. Scientific study of MORGELLONS (and BDD in cattle) reveals FACTS. It is real. It is a start.

  1. Chanda Gritters says:

    I was homeless many years and gangstalkers have mocked me truthfully saying I harvested nanoworms. I have had morgellons since 2015. I know when, who, and how I got it. Mine has evolved, as they are definitely alive and move and even click in response to me…. I’m not crazy… I’m a victim of experimentation by my government. One man named Michael Wilkins told me I am a successful experiment. He then laughed. Please, how can I help? What can I do?


  2. Pingback: Annotated Morgellons article – Annotating Serious Errors in Wikipedia with

  3. Ludi covik says:

    Yeba ti ya maku pederu edo te ce ubiti tebe maku ti ya Yebo u usta pusi me kurac
    (Thick) insurance has been taken out for the bus in case of any accidents on the way through town it also comes with burglary cover all for one price just call your local insurance broker to find out how much time you have left to insure your bus.
    The wheels on the bus go round and round the wheels on the bus go round and round like a merry go around now the drive is set and in place double decker bus.

    Best wishes Ludi Covik


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