Decoding the Hive: Bees are What Causes Morgellons Disease

Fascinatingly eerie, isn't it? The idea that bees, those tireless little workers of nature, might establish their intricate honey-hued hives not only in lofty trees but also - astonishingly - on us human beings. Imagine swarms of bees and stealthy moths constructing their hive masterpiece from head to toe on a human canvas, invading our sacred spaces from our sinuses to our digestive track and burying the body externally, head to toe. It may sound unthinkable, but let us explore the compelling evidence suggesting that this phenomenon could be responsible for the enigmatic Morgellons disease. 

Don't worry; we'll guide you every step of the way, unearthing surprising connections and setting the stage for a whole new perspective on our intertwined destinies. In this article we will uncover:

• The most common symptoms of Morgellons.
• The existence of a highly intricate complex called the ‘Human Beehive’ built by silk-spinning, stingless bees.
• Explore the world of bees: From their hive-making abilities to the stages of their life cycle.
• Uncover the secret life of the albino moth: A possible pest of the bee hive with a link to Morgellons. Learn more about the Morgellons Moth in our blog post here.
• Discover the alarming signs of a home bee invasion: What to look out for and how to respond.
• The protocol designed to eradicate bees, the beehive, and invading pests of the hive: How to treat Morgellons disease.

As we delve into these pursuits together, we hope to leave you with a sense of wonder and a new respect for the intricate web of life that envelops us all—a web delicately spun by pint-sized architects like the stingerless bee and the albino moth. Are you ready to embark on this thought-provoking journey? Let's dive in.

Unraveling the Mystery: Symptoms of Morgellons Disease 

In the fight against Morgellons Disease, knowledge and understanding are crucial to paving the way for a healthier future. Known for causing unsettling and poorly understood symptoms such as crawl-like sensations under the skin, persistent scratching, stinging sensations, and resulting non-healing sores. It is important to note that multicolored or luminous fibers emerge from these wounds, a characteristic peculiar to this skin condition.

95% of sufferers report these unusual fibers on or under their skin. Morgellons is an indiscriminate invader, affecting anyone regardless of age, gender, or ethnicity, often targeting those in unsanitary or infested environments. 

The table below lists the most common occupations reported by Morgellons Disease sufferers during or around the time their symptoms manifested.

The table above clearly demonstrates that during the time Morgellons symptoms manifested, the majority of individuals were unemployed. Suggesting a time of significant stress, potential poverty and less than ideal situations in their life. It seems to be a direct correlation with homelessness too.

Individuals suffering from MD for an extended period often suspect that they contracted it from a close contact, such as a spouse or parent. This suggests that environmental factors and infectious attributes may play a significant role in our susceptibility to developing Morgellons Disease. The unemployed factor may also shed light on the overall health and immune status linked to the onset of Morgellons and development of MD lesions.

Among physical symptoms, a systematic review of Morgellons patients shows grain-like particles of potentially insect-like origin shedding from the skin or hair and tiny, rice-shaped debris embedded in the skin as common symptoms. More debilitating symptoms include chronic fatigue, cognitive difficulties, mental health changes like mental illness, and severe joint pain. 

The table below provides insights into the most common symptoms reported by patients. It's important to note that the severity and occurrence of symptoms may vary over time and differ between individuals.

About 70% of MD sufferers exhibit unusual dermatological signs including fuzz balls and thread-like fibers emerging from the skin that are anything but false beliefs. Other symptoms range from joint discomfort, persistent weakness to exacerbated symptoms at night. Adding to the distressing list are feelings of despair, anxiety, and the sensation of tiny insects buzzing nearby. 

If you frequent online communities and read conversations between MD sufferers you'll notice that some patients discover sand-like particles and brown flakes around their bed, fibers in their oral and nasal cavities, and visual anomalies, along with weight fluctuations and significant hair loss.

One of the most serious complications is the presence of thick, stringy secretions in the sinuses, mouth, throat, and possibly extending to the lungs and digestive system. This can result in severe breathing difficulties, constant nasal drainage, gagging, difficulty swallowing, and vision changes among other issues. 

The varied symptoms of Morgellons disease demonstrate the extensive physical and mental strain it places on patients, pointing to the urgent need for effective strategies for disease control and a better treatment plan.

Read about the full spectrum of symptoms of Morgellons here.

The Intersection of Bees and Morgellons Disease

Imagine a web of your life constantly being woven, thread by thread, by tiny, surreal architects – bees. How would it feel if these otherwise benign creatures, in a bizarre twist of nature, decided that our bodies would be their new nesting grounds, their places of transmutation?

Imagine it now - a bee, astonishing in its keen drive for survival, decides to forsake its typical floral environment and instead opts for an alternative site for hive construction - the human body.

With unnerving efficiency, it spins an intricate network of honeycomb, not on an endearing tree trunk, but on the surface of the skin. Meticulously, it lines the tissues with a maze of honeycomb, each hexagonal cell a potential nursery filled with eggs. Further cementing this grotesque spectacle, these eggs are anchored in place by a substance reminiscent of mucous, sticky and stringy in texture. While certainly not a comforting image, it's a theory that provides an explanation for the perplexing and unforgiving symptoms of Morgellons Disease.

This terrifying concept is far from fictitious for those suffering from Morgellons Disease. This post aims to shed light on the etiology of this condition and its potential link with bees, specifically the bacteria Borrelia burgdorferi.

The photo below captures a more advanced form of Morgellons lesions and clearly shows a honeycomb shaped structure located under the skin. Take a look at the open wound located at the bottom right side of our client's elbow, below.

According to new research, Morgellons Disease could be due to these notorious, partially translucent forms of these well-known insects setting up home in our bodies. These creatures not only build cocoons within our bodies but could be responsible for the honeycomb-like plaques observed in Morgellons patients. This concept, supported by evidence of genetic predisposition, explains both the cutaneous symptoms and the rapid aging associated with Morgellons Disease.

The image displayed above is from a client who is battling a progressed stage of Morgellons Disease (MD), as evident in their persistently unhealed arm lesions. One can clearly observe a fibrous layer on the skin surface, along with an underlying honeycomb pattern embedded within the dermal tissue.

Upon further examination of Morgellons sores we found that most skin abnormalities of non-healing nature fall in the color spectrums of red, green, yellow, or blue. And, they seem to be produced by a sticky, resin like substance that seeps from the skin and hardens upon exposure to air. Qualities akin to bee propolis and it's colors.

The photo below shows varied colors of bee propolis or "bee glue" used to patch holes or "wounds" in the skin of the beehive. The texture of the red propolis is very similar to the scabs seen on the surface of the skin in those who have MD.

Bizarre Existence 

To understand this, envision a bee entering your home. You're likely to notice extra insects, white or translucent web-like structures in dark corners, or tiny nests in hard-to-reach spots like behind the fridge or in-between the oven and the wall. Now, envision this scenario within your body - infiltrating skin, organs, and potentially your entire system, causing a range of presentations commonly tied to other illnesses. 

There are about 500 known species of stingless bees. These unexpected invaders are not just your average household pests; they're potentially the perpetrators behind Morgellons Disease, a mysterious condition that's baffled medical professionals for years. 

The photo above is a close up of the honeycomb cells filled with eggs and larvae from the beehive.

Imagine for a moment, milli-sized bees navigating their way through your bodily systems. As they constantly explore new habitats, they leave behind traces, such as translucent fibers synonymous with their web-making activities. Just like the fabrics they damage in your home, they could interact with your body's fibrous tissue, disrupt normal functions, and create mysterious symptoms on the body's surface. 

Bees prefer dark and cluttered environments and construct their hives inside crevices. These bees are attracted to crevices due to their uncanny resemblance to natural, undisrupted spaces like the hollows of trees or rock gaps. Crevices provide security and warmth, crucial for their survival and successful colony establishment. These bees are peculiarly adept at taking advantage of such niches because they've evolved to embrace living in confined spaces. 

When it comes to the human body, the correlation may be intriguing. Every fold of your skin - under the arms, behind the knees, behind the ears, in-between the thighs, or inside the elbow - can, metaphorically speaking, act as a 'crevice.' These folds mimic similar conditions to natural crevices - shaded and moist - making them potential zones for the so-called Morgellons creatures. An intriguing proposition for why body crevices are so heavily infested with fibers, as seen in a 2016 case study using an electron microscope.

Uncanny as this sounds, remember that nature has multiple instances of miniaturization functioning at various levels. Often, the intricate principles governing small worlds weave parallels to the broader universe we're familiar with. Morgellons and its proposed link to these insects is just a testament to the depth of mysteries our natural world holds. 

Silent Stingers: What Parasite Causes Morgellons Disease

Life begins for the bee, scientifically known as Apoidea Meliponini, in the heart of a hive. Born from an egg laid by the queen bee, this tiny creature enters the world with a unique destiny: to contribute to one of the most efficient and intriguing eco-systems that exist on our planet. 

When observing the structure of a honeycomb, one will come across a fascinating biological phenomenon - the formation of bee fibers. These fibers form the backbone of each cell in the honeycomb and act as scaffolding for construction of the comb. Some posit that these same fibers, when externalized, could contribute to the fibrous nature of Morgellons anomalies.

Below, is a photo of bee fibers made by bees using various types of proteins, inside honeycomb cells.

When the queen lays a honey bee egg, it becomes attached to the cell by a mucous strand. This prevents the baby bees from being removed from their cell that protects them. A potential reason behind the thick, sticky, stringy mucous build up inside the body?

During the first stage of development, the digestive system, nervous system and outer covering are formed. 

The embryo that metamorphosizes into a bee is generally about one millimeter in size, with an oval contour. To the unaided eye, these eggs resemble tiny, skin-hued grains of rice. The photo below is a close up of honeycomb cells filled with bee eggs (on the right) and bee larvae (on the left) inside the hive.

Numerous Morgellons patients frequently report the discovery of rice-grain-like particles on their skin, their clothing, and their bed linens, which is a prominent symptom of the condition.

Honey bee larvae have no legs, eyes, antennae or wings; they resemble a grain of rice with a small mouth, according to orkin pest control here.

The egg is laid in a brood cell, a small wax compartment designed to house and nurture the developing bee. The queen can lay hundreds or even thousands of eggs per day depending on the species and season.

After approximately three days, the tiny rice shaped egg hatches into a larva. This soft, white, grub-like creature is entirely dependent on the worker bees for its sustenance. Workers meticulously feed the larva a diet of honey and pollen under usual circumstances, harvested from the surrounding flora. During this stage, the larva will eat continuously, growing rapidly from the nourishment provided. 

This larval stage lasts about ten days, after which the larva spins a silk cocoon within the cell. Once the cocoon is spun, the larva transforms into a pupa. Its shape becomes more recognizable as a bee, as it starts to develop the physical attributes of a bee, such as legs, wings, and a stinger. This transformational phase is akin to metamorphosis, where the bee goes through a considerable physical transformation while it is still inside its protective cocoon. 

The photo above is a close up of the honeycomb cells containing bee pupae. 

Typically, after two weeks inside the cocoon, the fully formed bee chews its way out of the brood cell and emerges as an adult. From here, its roles within the hive will vary based on its sex and the needs of the colony. 

And so, the life cycle of the bee begins, highlighting the miraculous journey of these intrinsic creatures. 

Understanding Bees: What Causes Morgellons

Regardless of living in tropical or temperate climates, bees maintain their hives with a constant temperature of 90 to 97.5 degrees Fahrenheit. Interesting enough, according to medical examination, individuals with MD are found to have a lower average body temperature than the rest of the population. Morgellons patients body temperature averages around 97.5 degrees Fahrenheit, approximately 1 degree lower than the rest of the population. Could this explain what causes Morgellons?

Bees maintain the temperature of the hive through a complex and coordinated process known as thermoregulation. This is crucial for the survival of the colony.

During the warmer months, bees keep the hive cool by fanning their wings to circulate air and evaporate water brought into the hive. This process works much like a natural air conditioner, reducing the temperature inside the hive.

Another method bees use to cool down is through a process called 'evaporative cooling.' Bees will collect water and spread it throughout the hive. Then, the bees will fan their wings to evaporate the water, which in turn cools the air within the hive. This is similar to how humans sweat to cool down. Which could very well explain why people with Morgellons experience random and profuse periods of "sweating" for no reason.

In contrast, during the colder months, bees generate heat by clustering together in a tight group and vibrating their flight muscles. The bees in the center of the cluster, where the queen and brood are located, remain still and benefit from the heat generated by the outer bees. The outer bees rotate with the inner bees to avoid getting too cold. A plausible explanation to the vibrations in the body felt by MD patients? We think so.

Bees display a certain level of ambidexterity when it comes to maintaining the temperature within their hives. The hive, a bustling city of industrious bees, reflects a fine balance between adept architecture and complex thermal regulation. 

Worker bees employ their glands to transmute the sugar found in honey into wax. This wax then seeps out through tiny pores on their abdomens, turning into minuscule flakes. The worker bees then chew these wax flakes until they attain a pliable consistency, which is then incorporated into the honeycomb construction. 

Interestingly, certain individuals may experience a heightened wave of symptoms due to an increased consumption of sugar, as it spurs bee wax production, ultimately leading to increased bee activity and consequent itching. 

Building Blocks of Wellness: What Causes Morgellons Fibers?

The bee, a unique creature with a unique lifestyle, constructs its home - the hive - using nature's bounty. Key to this exquisite crafting process is the construction of honeycombs. Understanding this intricate creation sheds light on a significant part of the bee's life and provides insight into the correlation between hive conditions and the occurrence of Morgellons disease. 

Bees showcase an incredible ability to adapt to the materials at their disposal. They have been known to incorporate mud, plant resins, silk threads, and even fragments of human-made materials into the fabric of their hive. A plausible explanation for the vast array of materials and debris found embedded in the skin of those whom have Morgellons disease? It sure does explain the best potential answer to the question: what causes Morgellons?

But how precisely does the bee go about building its honeycomb? It all begins with the secretion of beeswax. Worker bees are equipped with special glands beneath their abdomen that produce this wax, which starts as a series of thin, malleable flakes.

Beeswax, the architectural marvel of the bee world, originates from the honeybee's diet of nectar and honey. Essentially, it is the transformed plant matter that bees consume and convert into this remarkably versatile and sustainable material. 

Although primarily yellowish-white when first formed, beeswax can assume various hues including light yellow, dark yellow, and practically all the way to brown. This color variation depends on factors such as the type of flora surrounding the hive and how aged the wax is. Freshly produced wax will often look nearly translucent and will progressively darken as it ages, especially if it comes into contact with propolis, a resin-like substance that bees also produce. Propolis turns the white beeswax to a deep golden or even brown color. 

Is it possible that the severe hyperpigmentation seen in Morgellons and related conditions, such as Lyme and Autoimmune diseases, is linked to this? Just as beeswax darkens as it ages, leading to "hyperpigmentation" in honeycomb cells, could similar processes be at work in the skin?

Let's take a look at this image below: here, you can see freshly produced beeswax flakes, situated on a bee's abdomen.

Do these bee wax particles possibly play a role in the frequent skin flaking experienced by Morgellons disease sufferers?

Qualities of Beeswax

The consistency, texture, and form of beeswax can also change significantly based on temperature fluctuations. Under normal conditions, it is firm but pliable. Exposed to extreme cold, beeswax becomes brittle and can easily crumble under pressure. However, when heat is introduced, it transforms into a malleable, almost dough-like mass, like when introduced to body heat. Could this be the culprit behind the build up of fake skin covering the body of those who have Morgellons disease? We think so.

This attribute of temperature responsiveness demonstrates the incredible adaptability of beeswax, enabling it to serve a wide range of uses both inside and outside the hive. 

Beeswax is made up of fatty acids, hydrocarbons, and esters. It's brittle when cold, but soft and pliable when heated or exposed to human body temperature. Natural beeswax has a melting temperature of 62–65°C or 149°F and doesn't spoil, become rancid, or expire. Beeswax has a needle-like crystal structure that forms a network, which is why it's often used to mimic fat crystals in structured oils. A reason behind the hard, painful, sharp crystals that protrude out of the skin of those with MD?

The wax comb also serves as a stable barrier of protection. Beeswax protects bees from environmental irritants and weather changes. Could the wax covering on the comb cells be the reason why most things that help treat Morgellons on the skin, simply just aren't enough to make a difference?

Beeswax is comparable to a natural biofilm or plaque. Just like biofilm or plaque that forms on our teeth and inside arteries, beeswax actually acts as the creation of a 'biofilm' for bees in their hives. This might sound unappealing, however, it's absolutely necessary for bees to survive and thrive. 

In a way, this wax can be understood as a protective skin for the hive, guarding the bees and their growing larvae against potentially harmful external influences. Beeswax also plays a crucial role in the preservation of food stores.

Beeswax is also a well known humectant, meaning it locks in hydrations and holds water inside the skin. Which could be a contributing factor in the inflammation and severe edema (fluid build up) seen under the skin, in those with Morgellons. The wax prevents water loss from occurring naturally. 

This also means that if you do find a remedy that's effective against this parasite, it's going to cause dehydration and rapidly. As the wax is broken down, water loss is soon to follow. Which is likely the reason why our clients often find themselves feeling lightheaded, dizzy, and extremely dehydrated when completing their soaping sessions with our level 5X apitherapy soaps.

Interestingly enough, Apitherapy soaps have been used by 40% of Morgellons patients as part of their treatment protocol. In addition to apitherapy soaps, bee venom injections alone, have shown a 80% reduction rate in reducing symptoms of Morgellons Disease and Lyme.

As we delve further into the life of the bee, it becomes clear that their actions directly impact us, providing significant insights into the biological and physiological mysteries that we are just beginning to unravel.

Knowing what causes this disease opens the door to treating it ― a task that requires understanding the bees’ life cycle and their interaction with the human body. It's only a matter of time before we can turn this newfound knowledge into a revolution for our community. 

Bee Hives: An Examination of Surface-Skin Habitats

Understanding the link between Morgellons Disease and stingerless bee hives begins with a common symptom observed in Morgellons and Lyme sufferers alike- the 'bullseye rash'. This eye-catching symptom, often reminiscent of a target, manifests itself as a circular skin rash. Individuals who interact closely with nature, like gardeners, outdoor enthusiasts, and even professional beekeepers, are frequently affected by such rashes too.

Interestingly, the bullseye rash exhibits a striking resemblance to the structural design manifested in a bee hive. Much like the concentric circles of the rash, a bee hive is architecturally structured in a peculiar, round formation. This formation is layered with hexagonal cells, much akin to the pattern observed on the skin rash. This theoretical resemblance extends beyond mere aesthetics as we delve deeper into Morgellons and the stingerless bee connection. 

Bees, Bacteria, and Aging

Bees, particularly stingerless bees, have a unique relationship with bacteria. In their hives, they cultivate a diverse microbiome that aids in various functions such as food preservation and protection against pathogens. Some of these bacteria, however, have the potential to contribute to plaque build-up in humans.

Plaque build-up, also known as biofilm, is a complex community of bacteria that adheres to surfaces and is encased in a protective matrix. The bacteria in bee hives can form similar biofilms, which are essential for the structure and function of the hive. When these bacteria come into contact with human skin or are ingested, they can potentially colonize the human body and contribute to plaque formation.

Moreover, bees are known to collect nectar and pollen from a wide variety of plants. This exposes them to a diverse range of bacteria, some of which may be harmful to humans. When bees come into contact with humans, these bacteria can be transferred and potentially contribute to oral health issues such as plaque build-up.

Biofilm/plaque build up is responsible for 80% of all human infections. Is Morgellons a potential factor of plaque build up inside and on the body?

In fact, The aging process is accelerated by 10% due to biofilm/plaque build up in the body. Could it be that everyone is infested with this parasitic bee? Is Morgellons perhaps the cause of aging including wrinkle formation, bone loss, and more? Is this bee the real factor of the plaque build up associated with other diseases like Alzheimer's, heart disease, loss of teeth, autoimmune conditions, and more?

Finally, it's important to note that while bees can potentially transfer bacteria that contribute to plaque build-up, this is not their primary function or purpose. Bees play a crucial role in our ecosystem, particularly in pollination. The potential for bacteria transfer is just one aspect of our complex relationship with these fascinating creatures.

The Symbiosis of Bees and Mold: Unmasking a Hidden Alliance

Bees and mold share a complex relationship that is often misunderstood. This relationship sheds crucial light on the mysterious Morgellons disease, proposed to be triggered by a combination of bees, moths, and a direct correlation with underlying mold spores.

It's vital to comprehend that mold is not the enemy of the bees, but an opportunistic organism that capitalizes on specific conditions. Similar to the proposed Morgellons organisms that affect the human body, mold doesn't outrightly kill the bees. It rather thrives on their habitat under conditions that are otherwise unfavorable for the insects. 

Depicted below is a iridescent fibrous-like form of slime mold that could potentially be linked to declining bee colonies.

It's intriguing to note that the emergence of mold may signify an upset within the hive, rather than be a reflection of poor beekeeping. This mold is not necessarily the root of the colony's demise but rather a consequence of it.

Just as Morgellons organisms infiltrate the human body, mold doesn't directly kill bees. Instead, it thrives in their habitat under unfavorable conditions.  

Interestingly, mold development may reflect an imbalance within the hive rather than poor beekeeping practices. This mold typically signals the hive's distress rather than being the root cause. 

Mold proliferation in the hive occurs when too many bees are either lost or unable to perform their essential daily tasks. For instance, if worker bees are too ill or incapable of cleaning honeycomb cells, debris and harmful microbes can rapidly accumulate.  

When a significant number of bees are lost, mold growth within the hive can become excessive. 

Is it possible that this mirrors how Morgellons often results in toxic levels of mold buildup in the body, including the development of severe mold allergies, fungi intolerance, mold illness, and other fungal-related conditions like Candida? 

How Antibiotic Therapies Contribute to Mold Growth

Our clients who have undergone long-term antibiotic therapies with anti-bacterial and anti-fungal combinations almost always report a severe resurgence of symptoms once treatment is stopped. If these antibiotics are potentially harming the bee colony within our bodily 'hive,' could our treatments inadvertently be encouraging toxic mold buildup?  

Antibiotics can harm bees by disrupting their gut microbiota. Just like in humans, bees have a complex community of beneficial bacteria in their digestive systems that help them digest food, fend off pathogens, and maintain overall health. When bees are exposed to antibiotics, these beneficial bacteria can be killed off, leading to an imbalance that makes the bees more susceptible to diseases and infections. 

The use of antibiotics in bees can also lead to the development of antibiotic-resistant bacteria. When antibiotics are overused or misused, bacteria can evolve to become resistant to the drugs, making it harder to treat infections in bees. This resistance can spread to other bacteria, posing a broader environmental and agricultural risk. 

Antibiotics can negatively impact the reproductive health of bees. Studies have shown that exposure to certain antibiotics can reduce the fertility of queen bees and affect the viability of their eggs. This can lead to a decline in bee populations, which are already under threat from various environmental stressors. 

Antibiotics can interfere with the bees' ability to forage and navigate. Some research suggests that antibiotics can affect the cognitive functions of bees, impairing their ability to find food and return to the hive. This can lead to reduced food intake and weakened colonies, further exacerbating the decline in bee populations. 

Antibiotics can also negatively affect the behavior of bees. Changes in foraging patterns, communication, and hive maintenance activities can occur, disrupting the social structure and efficiency of the colony. This could be another contributing factor in the phenomenon of symptom recurrence after antibiotic treatments.

There is a reason why we advocate for our valued customers to push the boundaries of conventional thinking, particularly when it comes to treatment alternatives. Pursuing remedies that eliminate the Morgellons bee when it's still residing within the skin, may inadvertently result in a surge of internal mold, not to mention other potential toxins that could exacerbate your symptoms and trigger long-term organ issues.

Pesticides Contribute to Mold Growth

No exploration of the symbiotic relationship between bees and mold would be complete without diving deep into the climatic conditions within which they thrive. High moisture content and restricted air circulation in a hive provide hospitable conditions for the growth of mold. A closer look would reveal that this is a calculated collaboration rather than a coincidental occurrence. 

How does this work, you ask? The moisture content within a bee hive comes from multiple sources, including the metabolic activity of the bees, the nectar in the cells, and the ambient humidity. It is this distinctive microclimate that the mold thrives in. As part of the natural cycle, when the balance is disrupted, say, when a colony weakens or dies off, mold can swiftly colonize and proliferate within the hive. 

Bees and mold even share an intricate partnership. When a dead bee or intruding pest is too large to remove, bees will 'mummify' the intruder with propolis. This keeps the hive hygienic but also creates micro-environments within which mold might flourish because of the increasing number of dead insects left inside the hive. Interestingly, certain bee species may actually benefit from this, as it can serve as a protective line of defense against other harmful pathogens. 

Intriguingly, while many view mold as a nemesis, its presence in hives can also play a vital role in the bee's environment. Some fungi have been found to produce enzymes capable of breaking down harmful pesticides, thus indirectly playing a part in ensuring bee health. A potential link between pesticide exposure and an overgrowth of mold?

 

Can you recall using pesticides and/or chemical based anti-parasitics before experiencing mold growth in your body or home? 

Before noticing symptoms of mold illness or developing mold allergies or toxic mold buildup, can you recall using multiple antibiotic treatments or man-made anti-parasitic medications?

Let us know in the comment section below.

As you explore the microcosm of a beehive, understanding these intricate relationships will provide a fresh perspective on the world of bees and their unseen companions within the hive.

An Unexpected Intruder: Albino Moths

Our previous blog post dove into the unique connection between Morgellons Disease (MD) and the albino moth. Unbeknownst to many, the albino moth could be a potential source of Morgellons infection. In the initial stages of evolution, moths like these played a significant role in the bee ecosystem as pests, indicating the direct contact and proximity they share with bees and their hives. 

The post also suggested various symptoms of Morgellons that could potentially be traced back to the albino moth. Manifestations such as skin lesions, crawling sensations under the skin, chronic fatigue, depression, and more may be triggered by interactions with the parasitic moth. 

Interestingly, the albino moth's interactions with the bees and hives indicate a possible contamination pathway. The moth may transport the fungi or viruses present in the bees or hives and subsequently infect humans, causing the range of symptoms associated with MD. The pests' potential capacity to carry and spread disease provides a compelling argument towards their role in the disease’s onset. 

With a growing body of evidence supporting this theory, albino moths are turning out to be not just random household pests but potential catalysts for Morgellons Disease. Decoding this connection further may hold the key to unfolding the mystery behind MD and its cure.

Be it the beehive's perpetual buzz or the sweet allure of honey, bees aren't the only creature that's drawn to their industrious homes. Among the various known pests of beehives, albino moths stand out because of their unique behavior and the potential threat they pose to the bee's habitat. 

Moths, particularly the albino ones, have long been associated with bee colonies, often causing significant destruction. They tend to invade beehives, largely during the cooler months when bees are less active. Colder temperatures reduce the bees' ability to defend their hives effectively, creating an ideal environment for moth infestation. 

Most moths, albino or otherwise, are nocturnal by nature, allowing them to navigate around the beehives under the cover of darkness. They primarily target weak, ill, or small bee colonies and exploit the lack of adequate defense. Once inside, they can cause havoc. 

An interesting observation we have made is that following antibiotic therapy for Morgellons disease, many patients report a heightened response in their symptoms. This paradoxical increase may be due to an unforeseen interaction between the antibiotics and the bee colony residing in the skin. Remember, antibiotics exert their functionality by diminishing bacterial colonies.

However, in this rather unique case, it might be implicating the bees, weakening their population. As the strength of the bee colony dips, it may be leaving room for moth pests, not impacted by the antibiotic treatment, to invade and assume control over the hive. The intruders could then instigate worsening Morgellons symptoms, a result of their intensive destructive activity within the hive. This shift in hive dominance may be a crucial factor to consider while evaluating post-treatment symptom exacerbation.

Read our Blog Post: How Moths Cause Symptoms of Morgellons here.

The female moths lay their eggs near the entrance of the hives. These eggs, once hatched into larvae, start devouring the beeswax, honey, pollen, and even the bee brood, thus upsetting the hive's balance and significantly reducing the hive's overall productivity. This disruptive behavior and the damage inflicted make moths, particularly albino ones, a pressing concern for beekeepers world over.

 

Graphic Warning: Real life Photos of the Morgellons insects are shown in multiple photos below. 

If you are sensitive to Morgellons content, you should stop reading now.

 

Spotting the Invasion: Signs of a Bee and Moth Infestation at Home

Identifying the presence of bees in our living space is paramount for both our health and the balance of our immediate ecosystem. Knowing the signs to look out for becomes crucial.

Below is a list of the most common signs that you have intruders in your home:

• Consistent, buzzing and humming sounds, particularly within your walls or attic, indicating a possible hive location.
• The presence of moths, beetles, mosquito eaters, and other insects in the home.

Moths are a common pest of the beehive and are more often than not, found within and around bee hives.

Beetles, spiders, and mice are known to eat moth and bee larvae and will invade homes that are heavily infested with Morgellons.

• Presence of many birds chirping around the house that won't go away. Birds feed bee and moth larvae to their young- 70% of their diet in fact.
• Spotting an unusual number of other bee species or moth colonies hovering around your home, especially if they're concentrated around a particular area.

Sometimes a honeybee hive is visible outside the home.

• Noticing an increase in the number of bees found dead inside your home or around the property.
• Discovering small, waxy deposits throughout your house, which could be pieces of the bee's honeycomb.
• Finding dark spots or stains on your walls or ceiling which might indicate honey seeping from a hive within. This often looks like a potential leak or water spill in the walls. 

This is most often reported in areas of the home with an increase in moisture levels like the kitchen, laundry room, and bathroom.

Another common place for MD hives is often located on the ceiling near the front porch or entryway. An example of this Morgellons nest can be seen in the photo below inside the green circle.

• Noticing a sweet aroma coming from your walls or attic, the potential scent of honey from a hidden hive.
• Experiencing recurring structural damage, as bees can chew through drywall, wood, and even some metals to make space for their hive. - a common phenomenon reported by individuals with Morgellons.

An example of the damage carpenter bees will cause to wood furnishings and structures is shown below. 

• Spotting clusters of bees repeatedly entering or exiting small holes in the structure of your house – a potential hive entrance.
• A clear, resinous, sticky substance on floors, surfaces, and or walls without reasonable cause.
• Faint, almost undetectable buzzing noises coming from inside your walls or ceiling.

Make no mistake, the presence of other types of bees around the home is another glaring hint. It could indicate that other bee species are around and could potentially interact with bees of other variety. Remember, these interactions between different bee species have been associated with disease transmissions. 

Interestingly, many of our clients who have amplified the background sounds of their home videos have detected faint buzzing noises. This is especially noticeable in recordings taken in the kitchen or bathroom during the warmer summer months. However, this buzzing often goes unnoticed by most people due to its subtle nature.

The sound of buzzing bees may appear faint initially, but intensifies as the colony grows. This usually indicates that the bee colony has grown in size and may represent a larger problem ahead. 

Listen to Honey Bee Noises here

The presence of wax debris around your home is an additional sign of a possible infestation. Bees utilize wax to construct their hives and a hive within or near your home could result in small wax particles appearing around your home. 

Should you encounter any of these symptoms, getting in touch with a bee removal professional is advised. Managing this issue yourself may lead to unforeseen complications, especially considering the potential transmission of Morgellons Disease. Always remember, the best form of pest control is prevention.

Hence, watching out for these signs and eliminating potential hive creation spots would be the key to a bee-free environment. It is important to note however that individuals who have Morgellons will continue to re-infest their environment until they are able to first eradicate the insects from the body. 

Learn more about why you should wait to disinfect your environment until protocol is complete and you no longer have symptoms in our website article: How to Disinfect the Environment of Morgellons here.

Introduction: Bee Venom Injections and Apitherapy Soaps

Uncovering a potential solution for the enigma that is Morgellons Disease, Megan's Miracle offers a novel and targeted protocol. Consisting of a two-fold approach - Bee Venom Injections and Apitherapy Soaps - the aim of this protocol is to holistically manage and alleviate the symptoms of Morgellons Disease, over time- eventually, getting you back to a disease free life.

Bee Venom Injections: As the name suggests, this part of the protocol involves injecting a small amount of bee venom into your body. The objective isn’t to cause you pain, but to leverage the therapeutic attributes of bee venom. Bee venom contains certain compounds, like melittin and apamin, which have been observed to have anti-inflammatory and neuroprotective effects, making them potentially effective in managing the symptoms of Morgellons.

These injections aren’t administered arbitrarily, but under controlled conditions and onto designated acupuncture points. This form of Bee Venom Therapy is geared towards stimulating your body's intrinsic healing potential, thereby improving your quality of life. 

Apitherapy Soaps: Shifting gears from injections, let's move on to the second component of our protocol – Apitherapy Soaps. Enriched with the goodness of honey, royal jelly, pollen, bee venom, and propolis, these soaps uphold the virtues of apitherapy, which is the therapeutic use of bee-produced substances.

Their consistent topical application is directed towards offering a palliative solution to manage the external manifestations of Morgellons, such as uncomfortable skin lesions. 

Botanically-based, the apitherapy soaps from Megan's Miracle are crafted to nurture and heal your skin, while also providing a much-needed respite from skin discomfort that Morgellons sufferers typically experience. A simple change in your daily routine to include these soaps brings you one step closer to managing Morgellons on your own terms. 

To effectively complete this protocol, you need keen dedication to the prescribed regimen. Regular and exact administration of bee venom injections is crucial. Simultaneously, daily usage of apitherapy soaps as part of your skincare routine is also pivotal. It's a journey that demands conscious effort, patience, and adaptability to new routines. 

New routines are inclusive of ear therapies and keeping one's focus on treating the area behind the ears- this is the only way out and only way to rid the body of Morgellons. 

While this protocol appears promising, remember that individual experiences will vary. Your willingness to comply with protocol tasks and use the recommended devices is crucial to your success. 

Some photos of what you can expect during the early stages of protocol and its relation to bees can be seen below:

The photo above is an adult buzzing bee that came out of my face, just above my left cheekbone, under my eye, after using my level 5X apitherapy soap. I had several more of these fly out from the crevice between my ear and head- along with others who have completed protocol. 

Pro tip: Don't worry! It will not hurt when these come out of your skin/behind the ears. In fact, 99% of the time you won't feel anything at all as they exit the body.

The large sized Morgellons bee is all black in color, with dark metallic blue stripes on it's mid section, as an adult. It is often mistaken for a house hold fly or other types of insects in the fly population. 

The other Morgellons bees (which seems to be the main culprit behind the cocoon hive that envelopes individuals with MD) travel in packs and are connected by strands of silk. These silk-spinning bees are much smaller than the blue/black colored bee.

Many have mistaken this fiber-making bee for a drain fly, fungus gnat, or fruit fly. However, upon closer examination or if you zoom in on the photo below, you can see the yellow & black stripes covering their bodies.

Below is a photo of the stingerless MD mini bees that exit in high numbers, once the ear connections are broken.

The insects here actually came out from one of my client's ears the first time we opened her ears up. I watched these fly out from the crevice behind her ears, one by one.

I was able to catch them in a cup of homemade goat milk kefir that I made from scratch with lactobacillus probiotic cultures.

Hundreds of these bees came out from behind her ears in a three day span while using my level 5X soap bars and completing behind the ear sessions. 

Despite the current research and tissue samples tested by the medical community showing no positive test results for parasites or living organisms, we have concluded this is likely connected to false negatives. As we have now witnessed hundreds of sufferers who had these same flying insects come out from behind their ears while following our protocol.

In fact, most if not all of our clients have videos and photos of the Morgellons bee that exited from the crevice behind their ears as they began to heal. Showcasing evidence that this stingless bee is in fact, associated with the fibers protruding from the skin of MD patients.

The photo above showcases more of the MD mini bees- sent to us from one of our clients who had set 25+ cups of Goat Milk Kefir out around the house once his Behind the Ear Sessions finally became successful. 

What are the unique traits of bees that could cause Morgellons?

The link connecting Morgellons Disease to the bee is a significant revelation. It poses thought-provoking questions about our understanding of this disease and its potential causes. Bees are seemingly harmless creatures, suddenly transcend their mundane roles as pollinators and emerge as possible culprits behind this debilitating disease. 

The bee's distinctive behaviors, anatomy, and traits illuminate its underrated capability to cause a parasitic invasion. Intriguingly, the possible role of the albino moth as a pest in the bee's hive can create an interconnected ecosystem of pathogens that, if penetrated into the human skin, can cause an array of symptoms. 

Consider a scenario where the bee builds its hive on the human skin surface, leveraging body openings for deeper penetration. This invasion could lead to the formation of a biofilm or microbial plaque that can create a significant health threat, possibly leading to various diseases, accelerated aging, and even death. 

• Fiber-like filaments: Silk-spinning bees are known for their unique hive building methods using bee fibers which bees produce using a variety of different proteins from plants, man-made materials, and other contents found in their surrounding environment.

The bees use proteins to produce bee fibers which they use to construct the honeycomb within the hive. In the bizarre instance of a hive on the human body, the bees could easily utilize the body's skin proteins like collagen & keratin to build the hive. This would ultimately lead to fiber-like filaments emerging from the skin, a symptom often associated with Morgellons disease.

• Intense itching and skin sores: The presence of bees on human skin might incite a feeling of crawling critters, compelling itching, and the emergence of cutaneous ulcerations. This occurs when bees try to mend the epidermal lesions with a resin-like substance, propolis, mirroring certain key indicators of Morgellons. If propolis served the role of repairing hive ruptures (similar to skin wounds), it could manifest as red (resembling scabs or scratches), green, yellow, or brown (mimicking uneven skin pigmentation changes) sores and skin scars.

• Cognitive difficulties & mood disturbances: f bees and their hives manage to effect the neurological system or disrupt the usual balance of hormones, functions of the immune system, and various other bodily processes, it could lead to mood disturbances experienced by Morgellons sufferers.
• Chronic fatigue: The body's continual fight against the foreign body (the bee hive) could lead to a state of chronic fatigue, aligning with a common symptom of Morgellons disease. In addition to the beehive structure composed of millions of linked fibers, holding body parts together and preventing range of motion.
• Joint and muscle pain: The encroachment of bees and their colonies can impose an added burden on the body's customary operations, potentially accelerating inflammation, a root cause for the joint and muscle discomfort commonly associated with Morgellons. Furthermore, the persisting strain borne from the combined weight and impediment to mobility — owed to the interconnected structure of the hives, which restricts fluid motion of joints and bones — might, over time, contribute to the deterioration of muscular strength and skeletal integrity.

When it comes to bee venom for combating Morgellons disease, the way it works is centered on its unique composition. In nature, this venom is a bee's defense mechanism, but translated to medical use, it is a powerful stimulant that induces the body's healing response. Let's delve into the details. 

Bee venom, while medicinal to humans in the right doses, displays a lethal toxicity to a range of insects. Its chemical constituents, like melittin and phospholipase A2, carry this inherent toxicity. When bees employ their mechanism of defense, they administer venom that's detrimental even to their own kind. It's a survival strategy that eclipses the individual for the sake of the colony. This potent toxicity is an evolutionary trait that safeguards the hive from various threats, effectively acting as a natural pesticide. 

Bee venom boasts a complex mixture of proteins, peptides, and enzymes that sit the forefront of treating Morgellons disease. One of these peptides is called melittin - capable of powerful anti-inflammatory and antibacterial functions. In the context of Morgellons disease, melittin can help by reducing inflammation and eliminating toxic levels of mold build up in the body often associated with the condition, while boosting the body's natural healing processes. 

When administered correctly and safely, bee venom injections work by introducing small, measured doses of bee venom into the body. This prompts the body to react defensively and thus strengthens the immune system. Over time, these reactions can help to eradicate the symptoms of Morgellons disease. 

The utility of bee venom is not without its caveats, however. Patients considering this treatment must bear in mind the potential for side effects. These can range from mild, such as headaches and nausea, to severe like projectile vomiting, loss of balance etc. Therefore, it's vital those looking to embark on a healing journey with bee venom, take the time to educate themselves on what to expect and how to utilize bee venom therapy safely.

Learn more about the most common adverse reactions associated with bee venom in our blog posts: Bee Venom Allergies: Debunking the Myths and Understanding the Role of Histamine in Venom here. 

See a full list of detox symptoms most commonly experienced during recovery as you heal from Morgellons here.

Apitherapy is a holistic treatment approach that utilizes various bee products, including honey, pollen, propolis, and royal jelly. 

Topical applications such as apitherapy soaps are especially useful in combating the skin symptoms of Morgellons. Infused with Buckwheat Honey, these soaps provide natural antimicrobial effects to help keep skin healthy and potentially limit the disease's progression. 

Apitherapy in conjunction with bee venom therapy and ear therapies can get rid of Morgellons completely when it's done right.

At Megan's Miracle, we believe in the power of nature in healing. By incorporating apitherapy and bee venom therapy, we aim to improve the quality of life for those coping with Morgellons disease. To further explore these treatments, visit our product pages or click here to download our full protocol.

What is the connection between bees and Morgellons disease?

The potential connections between bees, particularly stingerless bees, and the symptoms of Morgellons disease might be rooted in the unique behaviors and life cycle of these insects. Bees are known for their ability to build intricate hives using a substance called propolis. If a bee were to somehow establish a hive on the human skin, it could potentially introduce foreign substances into the body, leading to symptoms similar to those of Morgellons disease.

Another possible connection could be related to the bee's role in the ecosystem. Bees are key pollinators and interact with a wide variety of plants and other insects, including albino moths. If these moths are indeed pests of the bee hive, they could potentially carry pathogens or toxins that could contribute to the development of Morgellons disease. This could occur if the moths come into contact with the human body, either directly or indirectly through the bees.

The theory that Morgellons disease could be caused by a bee hive extending into body openings is intriguing. The hive, being a living structure, could potentially introduce a variety of foreign substances into the body. 

Bees are also known to produce biofilms in their hives, which are complex structures composed of various microorganisms. These biofilms could potentially contribute to the development of Morgellons disease if they were to somehow be introduced into the human body. Biofilms are known to be resistant to many types of antibiotics, which could explain why Morgellons disease is often difficult to treat.

Finally, the aging process, diseases, and death caused by the build-up of biofilm or plaque in the body could potentially be linked to bees. Bees are known to produce a variety of substances that could potentially contribute to this process, including propolis, also known as "bee glue," and various types of bacteria and other microorganisms normally found in their hives. If these substances were to somehow be introduced into the human body, they could potentially contribute to the development of Morgellons disease.

Understanding Biofluorescence

Bees, specifically some species of bees, exhibit a phenomenon known as biofluorescence. This means that they absorb light from one wavelength and then emit it at another, which can result in a 'glow'. This is not to be confused with bioluminescence, where organisms produce their own light through chemical reactions.

Biofluorescence in bees is thought to be an adaptive trait that aids in their survival. The glow can help bees identify each other and their hive, especially in low-light conditions. It can also act as a signal to potential predators that the bee is not a good target for a meal.

Interestingly, the glow is not visible to the naked human eye. Bees see the world differently than humans do, and they can perceive ultraviolet light, which humans cannot. The glow that bees emit is in the ultraviolet spectrum, so while we can't see it, other bees and certain other insects can.

The glow of bees can be observed under specific conditions, usually in a laboratory setting, using special equipment that can detect ultraviolet light. Scientists use this method to study the behavior and communication methods of bees.

However, it's important to note that not all bees glow. The trait is species-specific and varies among different types of bees. For example, honey bees do not exhibit biofluorescence, while some species of stingless bees do.

In conclusion, bees glow due to a phenomenon known as biofluorescence, which is an adaptive trait that aids in their survival. This glow, although not visible to the human eye, plays a crucial role in bee communication and predator deterrence.

Interesting Fact: After exposure to bee venom... Morgellons bees begin to glow in neon colors and they become visible to human eyes.

Morgellons Parasites Treatment

Regrettably, Morgellons patients regularly encounter frustrating dismissals and prejudicial attitudes from the medical community. Routinely, patients are wrongly assumed to have a high prevalence for drug abuse or to be suffering from delusional parasitosis – a belief that one is being infested by parasites when none are present. This leads to ineffective Morgellons treatments that can potentially worsen symptoms and further progression of disease.

Let us delve into a comprehensive list indicating the recurring misdiagnoses suffered by Morgellons Disease (MD) patients, leading to ineffective treatments that yield zero improvement. It's crucial to note that another significant misdiagnosis is Lyme disease—frequently self-identified by patients as they seek to comprehend their affliction.

A second study stated that fibers are often observed in skin biopsies, protruding from the dermal side of the skin.

The table below shows the most common wrongful diagnoses given to individuals with this medical condition. We can see that healthcare professionals most often associated Morgellons with a delusional disorder, delusional infestation, or psychiatric illness.

This not only distracts from the appropriate diagnosis but inflicts further mental and emotional stress onto victims who are already battling physical complexities. Widespread acceptance of these ungrounded assumptions can lead to an alarming cycle of inapt treatment, amplified symptoms, and deepening depression, intensifying a situation that is already desperately challenging.

However, recent clinical studies have shown that Morgellons Disease may not be exclusively delusional in origin and can potentially result from underlying somatic illness. This highlights the importance of conducting thorough clinical studies in order to properly diagnose and treat this complex condition.

Here at Megan's Miracle Studio, we believe in shining a light on conditions like Morgellons, keeping you informed, and offering solutions to help you lead a healthier, happier life. 

We've got all the resources you need to jumpstart your journey with Megan's Miracle Protocol today.

From detailed material lists complete with a month-by-month cost breakdown for budget conscious individuals, handy printable protocol task checklists and specific injection schedules. We've got you fully covered. 

It is easy to see that our bee venom and apitherapy protocol focuses on the importance of using your bee venom soap.

Why is this important? Why can't I use a moisturizer with apitherapy ingredients instead?

Why does a soap work better?

Water mixed with soap reduces the water’s surface tension. This is key, as water has a very high surface tension, which means that if a bee gets wet, the water will not easily penetrate the bee’s spiracles (spiracles are small holes in the side of the bee that allow oxygen in).

Soapy water reduces the water’s surface tension, thus allowing it to penetrate the spiracles. A bee with penetrated spiracles equals instant death, as the bee will attempt to breathe in water (which, as air breathers, they can’t do) and die. To ensure death, the bee must be entirely covered with soapy water. This method will also kill wasps and moths.

Get started learning how to defeat Morgellons in our free online courses today! 

How does the life cycle of a bee relate to Morgellons?

Surely, you must be wondering - how on earth could the life cycle of a humble bee have anything to do with a condition as complicated as Morgellons disease? Here is where the story starts to get twisty, so buckle up! 

Bee life cycle goes through four main stages: egg, larva, pupa, and adult. At first glance, this seems worlds apart from the human-related disease. But what if we looked closer? What if, for example, we saw tiny cocoons within our bodies as on-site nurseries, nurturing these unexpected residents, which could be causing internal damage, inflammation or irritation? 

What's there to support this startling idea? Recent studies have revealed a shocking relation between Morgellons disease and tiny, yet perilous cocoon-like structures made of silk, found inside some patients' bodies. Patients reporting Morgellons disease have also described feeling like “something” is crawling under their skin, similar to the movement of a bee during its larval or pupal stages. Could they be describing the movements of these unknown stingless bee organisms? And could these bee organisms be causing this rare disease? 

The hypothesis certainly stands to reason. The bees, in their mission to propagate, could be treating the human body as a beehive, setting the trajectory for an infection that leads to physical and mental symptoms similar to those seen in Morgellons disease. This being said, it's clear that there's an intersecting path between the life cycle of a bee and Morgellons disease. 

The whole scenario may sound straight out of a science fiction movie, yet the pieces of the puzzle seem to be leading towards this unexpected hypothesis. If it is so, and further studies are required, we are standing on the brink of a groundbreaking revelation about this poorly understood, often debilitating condition. This could even unlock new treatment methods and preventative strategies.

 

 

 

 

 

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