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Morgellons Disease is a multi-system condition characterized by novel skin manifestations and insidious neurological and other systemic symptoms. The distinguishing characteristic of Morgellons is the presence of microscopic subcutaneous fibers. Lighted microscopy (60x) enables the visualization of these unusual fibers, often colored red, blue, white or clear, embedded in open skin lesions as well as their presence beneath completely intact skin. Research has determined that the filaments and shed materials are products of epithelial cells which are outer and inner layers of skin and are composed of collagen and keratin.
Intense itching*
Crawling sensations under the skin
Spontaneously–appearing, slow-healing lesions*
Seed-like objects/ granules and black specks on/in skin
- “Fuzz balls” on/in intact skin
- Fine, thread like colored fibers beneath and/or extruding from the skin
- Life altering fatigue
- Neurological impairment
- Visual and hearing changes
- Brain fog and diminished higher cognitive abilities
- Hair loss
- GI changes
- Muscle aches and joint pain
- General malaise; intense, life-impacting pain
- Dental deterioration
- Sleep disturbances
Psychiatric manifestations can include anxiety, depression, new onset of panic attacks, changes in behavior and personality. Some patients have been diagnosed with OCD, bipolar disorder and even delusional disorders can result if left untreated.
Morgellons disease (MD) is a disfiguring and perplexing skin condition associated with spirochetal infection and tick-borne illness. Sure it is. There is no single established cure for Morgellons disease, but regular follow-up with a physician along with treatment of any associated conditions such as anxiety or depression may help.
Morgellons is a syndrome where people feel like something is right under their skin, or trying to come out of it. People who have the disorder will describe pulling “fibers” and other tiny objects like “specks, granules, dots, worms, sand, eggs, fuzz balls and larvae” through their skin. This can leave lesions and scars on their body.
What the NIH and WebMD won’t tell you is that they move inside the person and appear to have a life of its own. The first case was finally reported back in 2001 as a real condition. This disease was spoken about in the 80’s and 90’s through the truther movement as some sort of darpa experiment and in the ufo community as alien in nature. The medical industry explained it off for dozens of years as a mental disorder while sufferers were ridiculed and mocked for an imaginary disease. Oklahoma State University did a study in 2023 which their results indicate the presence of multiple pathogenic organisms found in dermatological specimens, suggesting an infectious etiology of the dermopathy is present.
There were a lot of rumors that smart dust was the culprit. Smartdust is a system of many tiny microelectromechanical systems such as sensors, robots, or other devices, that can detect, for example, light, temperature, vibration, magnetism, or chemicals. The goal of the Smart Dust project is to build a millimeter-scale sensing and communication platform for a massively distributed sensor network. This was a common platform backin the 2000’s and teens as we heard story after story about Morgelons. Technology has advanced to nanotube magentic connection where an entire computer can be injected into a human being making them their own MAC address and wifi router, which is what is believed to be in the mRNA experiment shot of the century. I believe morgellons was the government spraying smart dust on people to run and manage tests for graphene and skin almagamation.
The government and military has been using all of us as experiments since the beginning. Hundreds of freedom of information act documents prove so with little accountability. Morgellons seemed to just disappear all of a sudden. In fact, cases started to drop dramatically after the Covid vaccine release. It’s as if the human testing lasted its course and what we are left with is Bill Gates’ computer chip that assembles itself together and reports your vitals to the NSA. Remember folks, nothing is free. Morgellons was the side affects of mixing iron with clay. The beginning disease of transhumanism.
The exact number of confirmed cases of Morgellons disease is difficult to determine.
Due to the controversial nature of the condition and the lack of a definitive diagnosis, many cases may go unreported or misdiagnosed.
The Centers for Disease Control and Prevention (CDC) conducted a study in 2012 that involved 115 people with Morgellons. However, the study did not identify a specific cause or pathogen.
The scientific community is divided on the existence of Morgellons disease as a distinct medical condition. Some researchers believe it is a psychological disorder, while others suggest it may be a physical illness.
Delusional parasitosis is a condition in which a person has a fixed, false belief that they are infected by an organism despite evaluation not showing an infection to be present. This is also called delusional infestation. Morgellons disease is a form of delusional parasitosis.
Delusional parasitosis is a condition in which people firmly believe that they’re infested by parasites, mites, worms or other organisms even though a physical examination by a healthcare professional doesn’t support this idea. The condition also is called delusional infestation.
One form of delusional parasitosis is Morgellons disease. Symptoms of Morgellons disease include the feeling that fibers are emerging from the skin. People with this condition often report feeling as if something is crawling on or stinging their skin. The intense itching and sores that come with delusional infestation can severely interfere with quality of life.
One of the largest studies of Morgellons disease was done by the Centers for Disease Control and Prevention (CDC) in 2012. It found that the condition isn’t caused by an infection or parasites.
This CDC study involved 115 people with Morgellons, which the CDC refers to as an unexplained dermatopathy. The study showed that most of the fibers in the skin sores could be explained by repeated itching and contamination by fabric fibers rather than fibers emerging from the skin. The study also noted that the condition is most often seen in middle-aged white women. The study found that the symptoms of Morgellons disease are very similar to those of a mental illness involving false beliefs about infestation by parasites. This condition is called delusional infestation. A 2012 European study of delusional infestation came to a similar conclusion. The study included a subset of people with Morgellons disease.
Small research studies have tried to determine the cause of and effective treatment for Morgellons disease. But there is still no proven guidance on diagnosis and treatment. Further study is needed.
The mainstream scientific consensus is that Morgellons disease is a form of delusional infestation. Some studies have suggested using the term Morgellons disease as it carries less stigma and may help forge a better patient-doctor relationship. Treatment may involve mental health therapy and medicine for delusions, anxiety or depression.
According to the university of Oklahoma, Morgellons disease (MD) is a multisystem infectious disease historically viewed as controversial and poorly understood by the medical community. These contentions involve difficulties in diagnosis, as symptoms of MD have similarities consistent with a psychiatric disorder involving the false beliefs of infestation by parasites, also known as delusional parasitosis or delusional infestation. Currently, the factors determining the etiology and transmission of MD are still unknown and the dispute surrounding Morgellons is substantial. MD doesn’t discriminate – it affects people of all ages, genders, and ethnicities. In MD patients, a distinct feature of near-microscopic and microscopic fibers is visual within the dermopathy, possessing unique characterizations and formations within the cutaneous and subcutaneous layers of the skin. These unique fibers are spontaneous and consist of a multitude of colors. Although the color of fibers is not fully understood, fiber-like filaments are perceived to be caused by an overproduction of keratin and collagen, with blue filaments containing granules of melanin. However, analysis from past research has given mixed results from unknown to keratin. Other signs and symptoms of MD include crawling sensations on and under the skin, intense itching, severe fatigue, cognitive difficulties, and behavioral effects.
The aim of this study is to investigate if an infectious etiology of the systemic dermatoses is present. Previous research endeavors suggest MD is a disorder associated with a tick-borne illness caused by the bacterium Borrelia burgdorferi. A pathogenic spirochete and the causative agent of Lyme disease (LD), transmitted to humans through the bite of an infected black-legged tick (Ixodes scapularis). MD studies are currently focused on spirochetes as the causative agent to understand if a coinfection exists and/or multifactorial etiology is a cohort. Recognition of the potential coexistence of multiple pathogens in MD etiology may stimulate the development of novel approaches to diagnosis and treatment. Therefore, allowing multiple diagnostic approaches to be applied simultaneously to detect for the major pathogens in MD.
Epithelial tissue samples are collected and deidentified for DNA extraction and polymerase chain reaction (PCR) is performed using specially designed primers to detect if Bartonella henselae, Borrelia burgdorferi, Helicobacter pylori, and Treponema denticola are present. After amplification, PCR products are visualized on a 1-2% agarose gel, stained with SYBR Safe, and visualized on the GelDoc Imager. Positive bands are excised and purified from gels using chemical and centrifugal measures. Eluted DNA is quantified using a NanoDrop spectrophotometer and then sent to OSU’s core facility for Sanger Sequencing. Bioinformatic tools are implemented, and nucleotide sequences interpreted for verification of our genes of interest.
Our results indicate the presence of multiple pathogenic organisms found in dermatological specimens, suggesting an infectious etiology of the dermopathy is present. Replication of preliminary data is ongoing for credibility of scientific claims. Future research needs to be conducted to continue the exploration of etiologic causes to support our findings. Through further analysis, the potential coexistence of multiple pathogens in MD may hold the answers to this unsolved mystery and bring a better understanding for MD to be recognized in the medical community.
Biologist Mary Leitao is credited with coining the term “Morgellons disease” in 2002. Leitao was inspired by a description of a similar condition in a 1674 letter written by English physician Sir Thomas Browne. In the letter, Browne described a skin disease in French children that caused hair-like extrusions to break out on their backs. Browne noted that these breakouts relieved the children of coughs and convulsions.
Leitao was investigating her son’s scabies diagnosis when she discovered “fibers” in his skin and began to suspect a similar condition. After a doctor suggested her son might be suffering from delusions, Leitao rejected the idea and began the Morgellons Research Foundation. Significant news coverage of Morgellons in 2002 led to a dramatic increase in the disease’s prevalence.
Morgellons disease is a type of delusional parasitosis, where patients report that their skin contains parasites, toxins, fibers, or other foreign material. The Diagnostic and Statistical Manual (DSM) doesn’t recognize Morgellons disease, so there are no specific diagnostic criteria or treatments.
According to the NIH, The name “Morgellons” (pronounced with either a hard or soft “g”) comes from a letter written in 1674 by Sir Thomas Browne, an English physician. The letter contains a brief description of a skin disease in French children:
Hairs which have most amused me have not been in the face or head, but on the back, and not in men but children, as I long ago observed in that endemial distemper of little children in Languedock, called the Morgellons, wherein they critically break out with harsh hairs on their backs, which takes off the unquiet symptoms of the disease, and delivers them from coughs and convulsions.
Browne’s description of “the Morgellons” and other historical accounts of similar maladies date from 1544–1884 and were found in Browne’s library in 1935 by Kellett, who then summarized and discussed them.
The accounts by Browne and others were likely referring to a heterogeneous group of skin conditions that may have differed from the skin condition that we refer to as MD today. These early accounts describe primarily childhood illnesses, many of which were associated with convulsions. There is mention of hairs, worms (with black protruding heads), or comedones that protruded from the skin, primarily on the arms, legs, and back, and at that time there was much debate as to whether these objects were animate or inanimate.8Ettmüller, for example, provided a drawing of infesting organisms that look like various arthropods, some resembling scabies mites, while the famous Dutch microscopist Leuvenhoeck concluded that such objects were inanimate.8 In 1894, Thibierge described patients who had erroneous and unshakeable beliefs of skin infestation by parasites, and proposed the name “acarophobia”. In 1946, Wilson and Miller suggested that “acarophobia” should be replaced by the name “delusions of parasitosis” (DOP).
From 1902 to 1938, case studies describing “parasitophobias” or “dermatological hypochondriasis” that resulted in delusional interpretation of skin sensations were published sporadically. However, as early as 1935, an association between spirochetal infection and DOP was documented by the French physician Vié, who reported that six of eight of the subjects in his case studies had syphilis.18 In 1938, a pivotal narrative of DOP was published by Ekbom, a series of case studies describing patients who had sensations of movement and the belief that insects were crawling on or under skin. Ekbom felt that determining the underlying cause of the formication was important, stating that “it is the underlying illness that determines the overall presentation of the beliefs” and “it is perhaps too simple that the parasitophobias should be considered as mental illness and nothing more”. Interestingly, like Vié, Ekbom found that spirochetal infection was present in his patient cohort, and three of Ekbom’s seven patients had documented cases of syphilis. Despite the fact that syphilis was considered rare in Sweden, Ekbom did not believe that spirochetal infection was a contributing factor.
Ekbom reported that the skin sensations consisted mostly of itching, but also that there was a feeling that something was crawling on or under the skin, and that stabbing and biting sensations could also occur. He mentioned that in such cases, “little animal” specimens were sometimes brought in by patients to show to physicians and that such collections consisted of “little hairs, little threads, grains of sand, and skin scales”. He noted that apart from delusional ideas of infestation, no consistent mental problems were present.20 Although Ekbom could not find any arthropods, parasites, or other microscopic animals, it is important to note that he found hairs, “little threads”, and “grains of sand” in patient specimens. His description is consistent with the findings of unusual hairs, fibers, and hardened comedo-like dermatological objects that we see in MD specimens. Such objects will be discussed in depth later in this report.
It is possible that patients in the case studies written by other physicians and mentioned by Ekbom had syphilis or other spirochetal infections. The causative agent of syphilis was first reported in 1905 by Fritz Schaudinn and Erich Hoffmann, who used dark-field microscopy and described spiral-shaped bacteria – Spirochaeta pallida – now called Treponema pallidum. The first test for syphilis was developed shortly afterward in 1906 by German physician and bacteriologist August von Wassermann. The Wassermann test was a complement-fixation test that detected antibodies reactive to the syphilis spirochete. The Wassermann tests performed in the 1920s and 1930s lacked accuracy, and cases of syphilis among patients with delusional parasitosis (DP) may have gone unacknowledged as a result.
Regardless of the test accuracy for syphilis, it is possible that some of the patients described in these historical case studies may have been infected with Borrelia spp., other treponemes or Leptospira spp. B. burgdorferi (Bb) is not a new organism: the earliest known case dates back 5,300 years in the mummy dubbed Ötzi,24 and BorreliaDNA was also detected in two museum specimens of the white-footed mouse, Peromyscus leucopus, collected in 1894. Spirochetes resembling Borrelia have also been found in amber-fossilized ticks from 15–20 million years ago. Therefore, spirochetal infections associated with MD may have occurred periodically hundreds or even thousands of years ago in human history, yet have gone unrecognized and unreported.
There is a brief mention of “the Morgellons” by Emslie-Smith in 1946, where he proposes that the condition was a form of myiasis caused by the larva of a Hypoderma species, although his account did not provide convincing evidence to support his theory. In a 1983 lecture, Lyell described a survey of several hundred dermatologists treating patients with DOP who reported that many of their patients exhibited specimens in matchboxes, baggies, scraps of paper, or photographs. Lyell labeled this practice the “matchbox sign”. The survey was reported in a short editorial in the Lancet, after which the “matchbox sign” was adopted by dermatologists as being proof of delusional mental illness. Likewise, the manipulation of skin to extract specimens for relief was also considered to be proof of having a delusional disorder, and this practice was labeled “the tweezer sign”.
After Emslie-Smith’s mention of MD in 1946, there were no significant references to MD in medical literature until 2002. In 2001, biologist Mary Leitao noted nonhealing lesions on her young son, who complained that he had “bugs” under his skin. She removed a scab, and upon magnification she did not see arthropods or parasites, but she did see embedded blue and red filaments. Leitao searched the Internet looking for similar conditions, and Browne’s description bore a resemblance to her son’s condition, so she appropriated the name.1,2 Leitao subsequently founded the not-for-profit Morgellons Research Foundation (MRF). The MRF website included a database where those with the disorder could self-report their skin and systemic symptoms.
Leitao did not get answers from the mainstream medical establishment. She had sought help from many doctors, including Fred Heldrich, a Johns Hopkins pediatrician, who arrived at the conclusion that Leitao should not use her son to “explore the problem” and that she could benefit from a psychiatric evaluation.32 Leitao gathered a group of patient advocates, medical practitioners, physicians, and nurses into a volunteer board of directors, which included Georgia-based pediatrician Greg Smith, Texas-based nurse practitioner Virginia Savely, patient advocates Charles E Holman and Cindy Casey-Holman, and former National Aeronautics and Space Administration (NASA) physician and researcher William Harvey32 (C Casey, Charles E Holman Morgellons Disease Foundation, personal communication 2017). Leitao also sought help from Randy Wymore, a pharmacology professor at Oklahoma State University.
In 2006, Dan Rutz, a spokesman for the US Centers for Disease Control and Prevention (CDC) contacted Leitao and said that the CDC would form a task force to investigate MD, declaring that “these people deserve more than to be blown off”. The CDC published their study results in 2012, declaring that MD was “similar to more commonly recognized conditions, such as delusional infestation [DI]”.33 As of 2012, Leitao had withdrawn from the public eye and closed the MRF. The website run by the MRF is no longer active, and the domain name was taken over by others, now promoting fringe etiologic theories of MD.
Music legend Joni Mitchell, 80, made her Grammys debut at an awards show, taking home a golden trophy for Best Folk Album.
The album, recorded in 2022, was a surprise performance by the musician who had stepped away from the spotlight in 2015 after suffering a brain aneurysm. But Ms Mitchell, 80, has also revealed she suffers from a ‘weird, incurable’ illness called Morgellons disease.
It causes ‘fibers in a variety of colors [to] protrude out of my skin like mushrooms after a rainstorm,’ she told The Los Angeles Times in 2010.
However, despite similar patient reports, America’s top health agencies fail to recognize the syndrome and medical professionals often refer to it as a ‘delusional’ disease. The condition doesn’t have a known organic basis and is believed to instead to be a psychiatric condition.
The disease, according to Mayo Clinic, is characterized by a belief that parasites or fibers are embedded under and emerging from a person’s skin.
People with Morgellons report feeling as if something is crawling on or stinging their skin and describe intense itching and sores.
Some healthcare providers classify the condition as a delusional infestation and prescribe antidepressants and antipsychotic drugs to treat it, along with therapy and counseling.
Other providers attribute symptoms to skin cell infections.
The medical community at large says more research needs to be done regarding MD.
Symptoms of MD include skin rashes and sores that are extremely itchy, the sensation of crawling on or under the skin, the belief fibers, threads or strings are underneath the skin, muscle and joint pain, depression and an inability to concentrate.
More than 14,000 people are estimated to be affected by the disease, according to Medical News Today.
A study in 2018 in the journal Clinical, Cosmetic and Investigational Dermatology, said the skin condition is characterized by the presence of multi-colored filaments and fibers that are embedded in or project from the skin.
I remember when morgellons hit the scene in the 2,000’s. The amount of videos and images of it was startling. Multicolored fibers and they move on their own. Truthers merged it with smart dust. This article was written in 2013.
How Smart Dust Could Spy On Your Brain
Intelligent dust particles embedded in the brain could form an entirely new form of brain-machine interface, say engineers. The real time monitoring of brain function has advanced in leaps and bounds in recent years. That’s largely thanks to various new technologies that can monitor the collective behaviour of groups of neurons, such as functional magnetic resonance imaging, magnetoencephalopathy and positron emission tomography.
This work is revolutionising our understanding of the way the brain is structured and behaves. It has also lead to a new engineering discipline of brain-machine interfaces, which allows people to control machines by thought alone.
Impressive though these techniques are, they all suffer from inherent limitations such as limited spatial resolution, a lack of portability and extreme invasiveness.
Today, Dongjin Seo and pals at the University of California Berkeley reveal an entirely new way to study and interact with the brain. Their idea is to sprinkle electronic sensors the size of dust particles into the cortex and to interrogate them remotely using ultrasound. The ultrasound also powers this so-called neural dust.
Each particle of neural dust consists of standard CMOS circuits and sensors that measure the electrical activity in neurons nearby. This is coupled to a piezoelectric material that converts ultra-high-frequency sound waves into electrical signals and vice versa.
The neural dust is interrogated by another component placed beneath the scale but powered from outside the body. This generates the ultrasound that powers the neural dust and sensors that listen out for their response, rather like an RFID system.
The system is also tetherless–the data is collected and stored outside the body for later analysis.
That gets around many of the limitations. The system is lower power, can have a high spatial resolution, and it is easily portable. It is also rugged and can potentially provides a link over long periods of time. “A major hurdle in brain-machine interfaces (BMI) is the lack of an implantable neural interface system that remains viable for a lifetime,” say Seo and co.
The difficulty is in designing and building such a system and today’s paper is a theoretical study of these challenges. First is the problem of designing and building neural dust particles on a scale of roughly 100 micrometres that can send and receive signals in the harsh, warm and noisy environment within the body.
That’s why Seo and co have chosen ultrasound to send and receive data. They calculate that the power required to use electromagnetic waves on the scale would generate a damaging amount of heat because of the amount of energy the body absorbs and the troubling signal-to-noise ratios at this scale.
Next is the problem of linking the electronics to the piezoelectric system that converts ultrasound to electronic signals and vice versa. Ensuring that the system works efficiently will be tricky given that it has to be packaged in an inert polymer or insulator film (which must also expose the recording electrodes to nearby neurons).
Finally, there is the challenge of designing and building the interrogation system that generates the ultrasound to power the entire array but at a low enough power to avoid heating skull and the brain.
On top of all this is the additional challenge of implanting the neural dust particles in the cortex. Seo and co say this can probably be done by fabricating the dust particles on the tips of a fine wire array, held in place by surface tension, for example. This array would be dipped into the cortex where the dust particles become embedded.
That’s an ambitious vision that is littered with challenges beyond the state-of-the-art. However, the team has a strong background in nanoelectromechanical systems and in the interface between electronic systems and cells.
Smart dust is a tiny sensor that measures temperature, sound, and humidity. It is like a mini-computer that can send this information wirelessly to other computers. Implanting smart dust devices can monitor vital signs, detect pathogens and track medication adherence. These applications enable remote patient monitoring and personalized healthcare interventions. The term “smart dust” was coined by Kristofer Pister of the University of California, Berkeley in 1997 to describe his wireless array of sensor nodes. Also known as nano dust A large fraction of the heavy chemical elements in different cosmic environments is contained in small solid dust particles, among them particles with sizes smaller than about 100 nm are loosely referred to as nano particles. The goal of the Smart Dust project is to build a millimeter-scale sensing and communication platform for a massively distributed sensor network. This device will be around the size of a grain of sand and will contain sensors, computational ability, bi-directional wireless communications, and a power supply. Smart Dust gets its power from thick-film batteries or solar energy via a solar cell consisting of a CMOS chip.
A supercapacitor might serve as the mote’s power source. A significant technological problem is developing submillimeter-sized energy storage devices for ever smaller microelectronic components. Neural dust is a hypothetical class of nanometer-sized devices operated as wirelessly powered nerve sensors; it is a type of brain–computer. The neural dust platform uses ultrasonic power and communication to enable a scalable, wireless, and batteryless system for interfacing with the nervous system. A Smart Dust is a propellantless femtosatellite, with a characteristic side length of a few millimeters and a high value of its area-to-mass ratio. It exploits the solar radiation pressure to create a propulsive acceleration sufficient enough to substantially affect its orbital dynamics.
According to Hightech Nectar:
Smart Dust Applications Across Transport, Military, Factories & More
In the current technology trend, we are witnessing a lot of products to be significantly compact in size, yet having applications which are intricate in nature.
This is true, particularly when it comes to the electronics industry. Today, we use USB drives with over 1TB storage that are the size of an eraser.
On similar lines, today, we also have cameras with sensors and communication mechanisms that are as tiny as a grain of salt.
These tiny devices are known as microelectromechanical systems (MEMS), which are also called motes. And the system consisting of a number of motes working together is called Smart Dust.
These motes can be used in a number of applications. Before jumping to the applications, let’s understand what Smart Dust actually is.
Smart Dust comprises of many small wireless microelectromechanical systems (MEMS). MEMS are tiny devices that have cameras, sensors, and communication mechanisms to transmit the data to be stored and processed further.
These small devices are also called motes. They generally range from 20 micrometers up to a millimeter in size.
They are usually connected to a computer network wirelessly and are distributed over a specific area to accomplish tasks, usually sensing through RFID (radio-frequency identification) technology.
Smart Dust encompasses nano-structured sensors that can automatically assemble, align, sense, and report about its local environment.
They are very difficult to detect, and once deployed, it is even more difficult to get rid of them.
These particles are so tiny and light that they can remain suspended in the air like ordinary dust particles. They can also be swept away or displaced by air currents.
The primary features of motes are:
Motes are capable of measuring light, position, stress, acceleration, pressure, humidity, vibration, and sound. The data is transferred from mote to mote until it reaches the transmission node.
They collect and integrate data, as required, for the task from many miniature sensors.
They are capable of analyzing the data as collected by the sensors, which is specified by the system controls. Communicate the result of these analyses to other motes and the base system station.
Advantages and Disadvantages of Smart Dust
Some of the advantages of Smart Dust are as follows:
The small size of particles makes it possible for them to be positioned in narrow areas.
Lightweight.
Can work without human intervention and are alert 24*7, when certain conditions are met.
Can be programmed to monitor a variety of ecosystems in many industries.
Dramatically reduces human resources cost and increases safety and compliance.
As with all technologies, there are certain disadvantages to Smart Dust as well:
Privacy is a primary concern. Since the particles are so small and difficult to detect, it is feasible to collect information about people without their knowledge and consent.
High cost.
They could have an adverse effect on the environment as there will be numerous dust-sized particles in the air around us.
Applications of Smart Dust
Smart Dust finds applications in various industries and projects wherein data needs to be collected and analyzed without disturbing the ecosystem and any human involvement. Some of the applications are as follows:
In the Transport Sector
In transportation, smart Dust is used only on occasions of transporting perishable goods, animals, and any valuable dispatches among others.
Transportation of perishable goods
Perishable goods deteriorate fast and need special conditions to be preserved in. While transporting such goods, certain conditions such as temperature, humidity, vibrations, dust, and aeration need to be controlled.
Smart Dust helps in monitoring and maintaining these predefined conditions for those particular commodities. In case of malfunctioning of equipment, the system signals to the base system regarding the same.
Transportation of animals
This is particularly important because it involves taking individual precautions during transportation.
Smart Dust helps with monitoring the health of the animals along with controlling the conditions such as humidity, temperature, etc. according to the weather as necessary.
Transportation of valuable goods
Valuable goods can include a wide variety of products, from precious minerals to fragile sculptures.
Monitoring the transportation of these goods would mean keeping a check on the conditions maintained inside the wagon or any change in transportation conditions.
These could mean any damage to the goods or the transportation vehicle during conveyance, change in the settings inside the wagon, etc.
Military Applications
Smart Dust can be used to monitor activities in remote or inaccessible areas.
It can also be used to keep a tab on enemy movement in cases where it is not feasible to send drones or humans.
Smart Dust can also help alert our troops about poisonous gas or dangerous substance in the air and signal them to leave the premises.
Factory Automation
Smart Dust can be installed in factories to monitor the condition of equipment at all times and alert if there happens to be an issue with the equipment, This helps in avoiding any probable accidents.
Computers can be programmed to turn off the lights and the AC in empty offices.
AC can be automatically turned on and off in the server room if the server becomes too hot.
Virtual Keyboard
A mote can be glued to each of the fingertips. The accelerometer will sense the orientation and motion of each of the fingers.
This along with the MEMS augmented-reality heads-up display, your entire computer I/O would be invisible to everyone around you.
Agricultural Sector
The motes can be programmed to monitor the temperature and humidity in the soil. This can protect the crops from any damage.
It can also be used to monitor plant growth so that we can determine what stage of the cultivation process the plant is in.
With so many applications of Smart Dust, it should come as no surprise that it is the technology for the future.
It will need some more innovations to ensure it is 100% accurate and efficient at what it does. But it definitely will be in use a lot more.
The NIH and academia deny Morgellons stating it is a disease of the mind. However, it came out the same time smart dust did. Of course the military denies experimenting on the people as well and the majority believe their lies. The implications of using self assembling nano technology into the human body has a lot of potential for control. Monitoring the people in real time. Since the particles assemble in the body, use our body as a battery and sends out formation to cell towers in real time, the military, if used on the entire population, could essentially monitor the health of the entire state.
It could also be used for outbreaks and knowing where and when to quarantine. However, they never told us of the success of the Covid outbreak and how the government was able to monitor the entire country and the spread of the virus. Covid could have been the testing of the smart dust and execution of protocols in the event of a biological attack. That coupled with whatever was in the vaccine could be the ultimate disease monitoring solution. Of course, at the expense of the small percentage of people whose bodies have rejected the filaments. Let’s not assume the government isn’t capable of causing such a horrendous feat. History shows us they do this all the time and barely pay a price for it.
Here are some of the notable experimental projects that were unlawfully used on the American People. Just the ones we caught them in.
Tuskegee Syphilis Study (1932-1972): This infamous study involved withholding treatment for syphilis from hundreds of African American men in Alabama, even after penicillin became the standard cure. The participants were told they were receiving free medical care.
MK-ULTRA (1950s-1960s): A CIA program that conducted experiments on unwitting American citizens to test the effects of mind-altering drugs, such as LSD, and other techniques to manipulate behavior.
Radiation Exposure Experiments: The U.S. government conducted numerous experiments involving radiation exposure, including exposing soldiers to atomic bomb tests and injecting patients with radioactive substances.
Plutonium Injection Experiments: The Manhattan Project conducted experiments on unsuspecting patients, injecting them with plutonium to study its effects on the human body.
Biological Warfare Experiments: The U.S. military conducted experiments with biological agents, such as bacteria and viruses, on both military personnel and civilians.
Sources
Gemini AI
2. Morgellons Disease: A Mysterious Disease – Dermatology Times
History of Morgellons disease: from delusion to definition – PubMed
How Smart Dust Could Spy On Your Brain – MIT Technology Review
Smart Dust Applications Across Transport, Military, Factories & More