- Category: Phage Viruses
Alkalinity destroys COVID-19 HIV AIDS SARS MALARIA HERPES SYPHILIS Alkaline supplements destroy Crustaceous shells and Polysaccharide Capsules The Pycnogonida species, commonly called the spider crab consists of a crustaceous body with an exoskeleton composed of a sugary carbohydrate.
In 1917 Oswald Avery of the Rockefeller institute first discovered that some pneumococci were surrounded by a capsule of polysaccharides, a pure carbohydrate sugar shell. In Avery’s first research paper on the subject, he investigated these “specific soluble substances”. The crustaceous shell of the Pycnogonida is the polysaccharide capsule of the phage virus. In both the large breed Pycnogonida and the microscopic phage virus, the composition and stereochemistry of the lifeform is the same. The exoskeleton of the Pycnogonida is a low-Ph acetic sugar that provides physical protection to the internal gelatinous mass of the species. The exoskeleton becomes tempered at elevated temperatures and is extraordinarily strong.
In a parasitic infection of Pycnogonida, the exoskeleton is nearly impenetrable to the immune system of a host. Although the exoskeleton of the Pycnogonida provides a great physical tensile strength, the chemical composition of low Ph acetic sugar carbohydrates is the species' primary weakness. In an alkaline environment, or when in contact with an alkaline substance, the polysaccharide capsule or exoskeleton of the Pycnogonida completely dissolves. Upon dissolution of the carbohydrate exoskeleton or polysaccharide capsule of the Pycnogonida species, a gelatinous globule of purple-colored mass of internal organs will remain. This purple gelatinous mass is the Physalia physalis, commonly known as the Portuguese Man O’ War. The Physalia physalis is the large breed of all plasmodium parasites. Oswald Avery, Rene Dubos, Michal Heidelberger, Fred Griffith, Michael Dawson, Colin Macleod, Maclyn McCarty, and other scientists during and after the great influenza outbreak of 1918 began the study of polysaccharide capsules in pneumococci. Avery coined the term “the sugar-coated microbe”.
Defeating Phage Viruses with High-Ph Diets
Pycnogonida can be dissolved in the human body via chemical REDOX reaction with common alkaline substances such as Niacin, Creatine, Zinc, Turmeric, Ginger, Nutmeg, and Colloidal Silver. Learn More Learn more about REDOX reactions Alkaline Materials turns the acidic virus into salts Learn More Ancient humans used herbs and supplements to fight off plague, the U.S. military uses them to fight off disease on nuclear-powered vessels, and now you can use them at home to fight off COVID-19 and other phage viruses Military tested Niacin Creatine Zinc Turmeric Silver Nutmeg Carotene Verified Alkaline Boosters Get instant alkaline supplements from Amazon as soon as same day! These supplements have been verified by the United States Department of Defense to kill phage viruses and create a body chemistry that is incompatible with phage virus biology.
- Category: Phage Viruses
Third Party Microscopy Using high bandwidth, datacenters, cloud storage, and robotics, modern scientists will monitor microscopes and biological experiments via computer screens in remote laboratories, far from hazerdous materials. My Portfolio Retrospective Forensic Biology studying biology in retrospect means archiving and combing through history's previous virus outbreak reports and medical journals to look for clues which may be reinterpretated using data only available through modern technology. My Portfolio Stereochemistry developed from previous microscopy generations Stereochemistry developed by past scientists used obsolete and antiquated microscopy techniques and equipment provides inadequate resolution to advanced lifeforms. Under inadequate microscopy, Intricate proteins can only be observed as spikes, cones, blocks, pyramids, mushrooms, hydras, umbrellas, ribbons, and spheres. Scientists inaccurately accept that these shapes floating around the body are the key to virus protein binding and that infections only occur when certain shapes match.
When scientists realized the risk of looking at viruses under microscopes and as HAZMAT levels were developed, numbers of scientists who could stand all day over a microscope and really do research decreased. Theories developed over a hundred years ago have not been changed, because we don't spend enough time looking at the viruses themselves. Button Text Stereochemistry developed using robot-assisted third party microscopy Using advanced robotics at USAMRIID, a team of researchers at the University of Washington's Dunkin Emergency Laboratory developed remotely operated laboratories for monitoring experiments carried out by NASA robots. A non-living robot in the lab does not attract viruses and can work unlimited hours without sleep. Studying biology in retrospect allows science, engineering, and modern medicine to look at previous outbreaks, and extract facts. With robots we look backwards to plagues which existed when we had no technology. Researching biology in retrospect, with robot assisted third party microscopy, and new methods of virus protein sampling allows scientists and engineers to take their time in collaboratively identifying features and characteristics of virus proteins.
Archived diseases, parasites, and infectious viruses are being reinvestigated using modern technology and compared to recordings of Pycnogonida and Physalia Physalis from all angles. Button Text Virus protuberances have been identified as Pycnogonida claw leg head mouth tail sections
- Category: Phage Viruses
Phage Viruses come in All Sizes Size differences are great between generations of Pycnogonida and phage viruses. Scientists mistakenly view multiple generations of the same genus as separate species of cytokine, macrophage, granulocyte, or RNA protein. Modern medicine lacks a centralized method for dealing with viruses as many doctors and scientists don’t know what exactly we are fighting.
Nuclear Biological and Chemical (NBC) research and published literature contain theories and beliefs that were written by scientists after standing above antiquated microscopes, while dealing with political compartmentalization of military laboratories, hospitals, nuclear reactors, and hazardous environments. Phage Virus and Immune System Proximity Viruses, white blood cells, enzymes, and bacteria collide together in battle. 2D images of biological events provide scientists with questionable perspectives. Two species tangled together under the microscope, may appear as if one species is a process of the other. An error of proximity has led to mistakes in microscopy. Scientists often mistake the proximity of the two substances under a microscope as evidence that one produces the other. In fact, the proximity of the two substances under a microscope is often a result of the arrival of one substance to combat the other.
Virus Infections VS. The Immune System Pycnogonida offspring, termed “macrophages” by past and present scientists have been previously believed to be a product of immune system response by an infected host. Macrophages have been inaccurately theorized to exist as part of the immune system because they attack and consume all types of bacteria as prey. These macrophages kill both invading bacteria and healthy cells within the body because they are predatorial and consume any available calories. These are facts of reality that science must accept if our species and others are to survive. Phage Viruses and White Blood Cells Higher presence of white blood cells and antibacterial enzymes near microphage infections within the body have misled scientists to believe that Macrophages produce or stimulate the growth of the white blood cells and enzymes. White blood cells and antibacterial enzymes found near macrophage colonies are a product of the immune system’s attempt to fight off macrophages and are not a product of the macrophages themselves.
The Pycnogonida are not a chemist, a cook, or a magician. The Species simply does not have the means, ability, or intention to produce anything but exponentially increasing offspring, plasmodium parasites, and Tritium-rich waste. Phage Viruses, Bone Marrow, and Leukemia Another example of an inaccurate belief system published by modern science is that cytokines that reproduce in the bone marrow of an infected host stimulate the production of white blood cells by an infected host. Many scientists believe white blood cell production by cytokines within the bone marrow of an infected host is the source of the aching bone pain and inflammation associated with a virus infection. In reality, cytokines, macrophages, and granulocytes reproduce in bone marrow because it is a source of expansive, densely packed valuable calories that support the rapid growth and reproduction of the species. Higher levels of white blood cells are formed near and around populations of cytokines in bone marrow because the body is trying to kill these phage virus populations. Aching bones, pain, and inflammation of the skeletal system is a symptom of spider-like crab creatures crawling around within our bones and consuming the marrow, which is contained within our skeleton, not from stimulation of white blood cells.
Phage Viruses and Elevated Body Temperature
An example of an inaccurate belief system published by modern science is that cytokines that bind to receptors in the hypothalamus and raise body temperature are part of a host’s natural immune system and a response to a viral infection. In reality, observations of Pycnogonida show that the species can survive at well over 105 degrees Fahrenheit and much higher temperatures than anything found within a living human body. Cytokines bind to the hypothalamus for no other reason than because it is a source of readily available calories for consumption by the predator species.
Phage Viruses and Inflammation of Bodily Fluids Yet another example of an inaccurate belief system published by modern science and medicine involves the “cytokine storm” which is defined as a dilation of the body's capillaries and a flood of fluid throughout the body which contains white blood cells, antibacterial enzymes, antibodies, and high volumes of cytokines. These fluids fill the lungs, inflame the body, pour from the throat, nasal cavities, and sweat glands. In reality, the flood of white blood cells, antibacterial enzymes, and antibodies is an immune system response which attacks, kills, and floods out cytokines, macrophages, and granulocytes from every available cavity and pore of the body. Cytokines are a hostile and foreign enemy being driven out of the body by this flood, not a part of the immune system itself. These floods can severely damage the lungs and cause death. Consuming nutrient-vitamin-rich alkaline fluids and shedding dead cytokines via phlegm, snot, and sweat with vigorous exercise has been proven to promote faster recovery during these immune system flooding responses. Running and cardio help clear blockages of the bronchi and aids the body in breaking down and removing toxins.
Coughing out and spitting mucus during isolated intense cardio exercise is the fastest way to remove toxins from an infected person during military trials. Use of heat via a hot shower and the use of a sauna promotes open pores within the skin which removes clogs in pores within the epidermal layer and allows shedding of waste fluids.
Phage Viruses and Tumor Necrosis Factor (TNF) Yet another example of an inaccurate belief system published by modern science and medicine is the existence of Tumor Necrosis Factor (TNF) as a part of an infection host’s immune system response. TNF is named after its ability to melt tumors in laboratory tests. In reality, TNF proteins are very microscopic generations of macrophages that consume tumors as a source of calories. TNF is lethal, the antigen destroys any cells which it encounters. TNF is a predator which kills the entire body. TNF is a major cause of toxic shock syndrome. Vaccines trigger the body’s natural defenses with weakened viruses Current strategies of virus vaccination promote the injection of viruses into the body with the theory that the recipient’s body will learn the shape of the Pycnogonida and how to use shapes to fight off viral infection.
Never in recorded history has any specific shape ever killed a Pycnogonida. In reality, weakened viruses injected during vaccination only help fight the virus infection by alerting the body to a viral attack by the presence of injected antigens. The immune system responds with a buildup of white blood cells prepared to fight viruses. If a vaccinated person’s immune system does not respond in this manner, the individual may become extremely ill. The vaccinated person may or may not come in contact with the virus after being vaccinated.
Read more: Phages, Plasmodium Parasites, and The Immune System
- Category: Phage Viruses
The process of transmission, spread, and outbreak Infections in reproductive organs of men and women have been published by modern science and medicine as only capable of transmission via the transfer of bodily fluids. In reality, viruses that create vesicles within reproductive organs are not limited to transfer via bodily fluid, blood-to-blood contact, or sexual transmission. Although microscopic Phages and Plasmodium parasites are often in high concentration in sperm and other bodily fluids, larger Pycnogonida may become excited and exit the body via reproductive organs if the host becomes sexually aroused and/or during close intimate contact such as foreplay, etc. Most species of Pycnogonida can leap up to 15 times the length of their leg span. All species of Pycnogonida are capable of sprint-like speed during crawling movements.
Modern science must quickly realize in today’s virulent age, that diseases as dangerous as HIV and AIDS can transfer from person to person via simply crawling out of an infected person's body cavity, traveling down a pant leg or dropping out of a skirt, finding a healthy person to target and breathing a body cavity such as the mouth, nose, vagina, penis, or anus. A virus can exit a stranger in a restaurant, travel between tables, crawl up your pant leg or dress and enter you without even shaking hands or ever meeting the person. In the 1980s during the height of the AIDS epidemic, NBA players wisely refused to play basketball with HIV host Magic Johnson to prevent an infection.
Pycnogonida are Violent and Aggressive Parasites Viruses are highly mobile and aggressive. Modern medicine and science are suppressed to “prevent widespread panic” via publishing inaccurate claims that close contact such as hugs and kisses cannot transmit HIV while AIDS patients are secretly killed in hospitals when their shedding of the virus becomes too severe. Any healthy body with a Ph level below 9.0 is prey for a species that is drawn to lox-Ph bodies like a magnet by an internal Tritium compass. All phages, cytokines, and plasmodium parasites will take every opportunity to shed from a dying host and infect a new healthy host as a source of fresh calories needed for further reproduction of the species.
Once a virus population senses the death of a host, the population will exit the dying host in search of a healthy body. Viruses Need a Living Body to survive and are aggressive in Attaining One. HIV can survive outside the body for as long as it can find calories and avoid being killed. You can catch a virus infection from someone who sat on a bus seat before you if a Pycnogonida has been shed from the previous passenger. Transmission only requires that a Pycnogonida run up your pant leg or get near your face. Pycnogonida target prey and violently leap into any available body cavity. Pycnogonida use radioactive Tritium as a compass Pycnogonida Phage Viruses find suitable prey or new hosts by feeling for “charge”, or “Ph level”. Overabundances and absences of electrons in nearby lifeforms are critical to the parasites when hunting. Negatively charged “Alkaline” bodies and cells with plenty of electrons present a dangerous reducing agent to Pycnogonida and phage viruses. Alkaline bodies are considered a type of chemical predator to the parasite. Positively charged “acidic” bodies and cells with a lack of electrons offer no danger of chemical reduction to Pycnogonida and are prey.
Read more: The Process of Transmission, Spread, and Outbreak
- Category: Phage Viruses
The Process of Virus Absorption The current theory on virus “absorption" onto healthy cells involves the use of “spike-shaped” protuberances on the viruses called “hemagglutinin” to bind and latch onto sialic acid “receptors" on the targeted cell-like grappling hooks. As the theory continues: as more hemagglutinin binds to more sialic receptors on the cell, the virus adheres to the body of the targeted cell. The reality of absorption is: like any other predator in the wild, the Pycnogonida must grip onto areas on its prey where its claws will fit. Once a Pycnogonida gets a hold of a host with several of its eight legs, the predator will quickly grab a hold of the host with the rest of its appendages and make aggressive maneuvers to breach its prey.
On both living bodies and living cells, tactics of predatorial approach by the Pycnogonida species are the same. During microscopic infancy, phage viruses 1/10,000th of a millimeter in diameter are doing the same thing to cells that a 3dm diameter Pycnogonida will do to a fully grown person. Microscopy is never perfect, as scientists are forced to publish explanations for objects, lifeforms, actions, activities, and processes that they cannot see in clear focus. Fancy terminology like hemagglutinin, sialic acid receptors, and binding of the two only supply confusion to the fact that extremely aggressive eight-legged spider-like creatures are jumping onto cells and wrapping their legs around their target to grab hold wherever their claws will fit. Pycnogonida in the wild or running loose in human environments are witnessed using eight legs to crawl, run, leap, swim, and climb toward capturing a host suitable for parasitic infection and reproduction.
Suitable hosts at any scale include prey with an acidic or low-Ph level, which will not break down and cook off the cell via acid-base REDOX reaction. Hive-minded Pycnogonida are highly intelligent and will use all available senses to look for an available host which will not reduce the virus.
- Category: Phage Viruses
The Process of Forming a Vesicle As soon as Phage viruses have engulfed a cell to complete the process of “absorption”, powerful claws and jaws of the phage viruses begin tearing into the cell and looking for a way inside. Phages tear open cell membranes and/or find existing cavities that attack aggressively. Once an entry point is created or found, more phages begin attacking the opening and digging themselves into pockets called “vesicles”. The vesicle is used as a tophaphagous feeding point for the parasitic phage viruses to drain calories from their new host. Once vesicles are formed in a host cell, the cavity or pocket expands as the host cell is consumed by the invading phage viruses and plasmodium parasites.
Pycnogonida invade and enter human bodies or other species using methods identical to tactics of cell invasion used by their infant phage viruses at the microscopic level. Pycnogonida target body cavities such as the mouth, nose, ears, eyes, anus, and genitals. Pycnogonida enter the mouth or nose, then use the lungs, throat, sinuses, and the stomach as the parasite’s vesicles to draw blood from within their new host. Areas of a host’s epidermal layer that is ripped open by the claws and jaws of the Pycnogonida or stung by nematocysts from gonopores on the underside of a Pycnogonida's legs or physalia physalis' tentacles quickly become vesicles for parasite infection.
Lesions formed by species of Pycnogonida are recognizable symptoms of certain smallpox, leprosy, herpes, HIV, Equestrian Encephalitis, Malaria, Coronavirus, and multiple influenza infections. Physalia Physalis is commonly known as the “Portuguese Man O’ War” and their microscopic scale infant plasmodium parasites create vesicles via epidermal injection of nematocysts into a targeted host. Physalia Physalis and Plasmodium parasites alike wrap their prey up with their exposed tentacles. Once these parasites have a grip on a target body or cell, coils that once led to gonopores in the exoskeleton of their previous form (Pycnogonida) are used to inject nematocysts (infant Pycnogonida) directly into an epidermal layer or cell membrane.
Infant Pycnogonida, referred to as “Nematocysts” use a direct coil to epidermal or membrane contact to burrow into a new host much like a blood-sucking tick. Portuguese Man O’ War are deadly to humans and other species if the genus of Pycnogonida which dissolved to form the "jellyfish in appearance" parasite is a type-A or another extremely aggressive variety. The following videos feature a tribal method for removal of Pycnogonida which have created vesicles in the throats of a man and woman in Cuba. This method of removal does not remove the viral load which is left by the Pycngonida within the throat and leaves a dangerous amount of the Pycnogonida’s remains left in the body. These people do not fully understand what the Pycnogonida parasite is, or how they were infected. They know that they have some type of “insect” inside them and want to get it out. Pycnogonida Forming A Vesicle In A Female Vagina
- Category: Phage Viruses
Process of rapid consumption of calories at an exponential growth rate Once an invading population of Phage viruses has successfully invaded body cavities or the epidermal layer of their targeted prey, the parasite begins consuming their host. The processes of decay which results from parasitic infection by Pycnogonida become the symptoms from which modern medicine creates cases for various diseases. A host becomes not only a source of calories for the parasite but also an incubator for their new spawn.
Pycnogonida dissolve the body from within, while Tritium shed from the species becomes a multiplier for the rate of decay within the host. At a microscopic level, the process of a parasite virus dissolving a host cell is called “uncoating”. Uncoating begins with a loss of the host’s calories at an exponentially increasing rate. The Pycnogonida is a tophaphagous predator which targets healthy areas within the host’s body from which it can leach available calories from the host. A first-generation invading parasite will consume a host’s calories in excess, grow, and produce as many strong offspring as possible. Second-generation invading parasites produced from the first generations will do the same thing.
- Category: Phage Viruses
The Process of Demyelination and Acquired Diseases Pycnogonida and their associated viral infections attack, destroy, and manipulate the brain, spine, and nervous system of hosts that they infect. During autopsies of hosts of lethal viruses, the proteins, cytokines, macrophages, granulocytes, plasmodium parasites, and their various Genuses are found within the white matter of the cerebrum, in the meninges which surrounds the brain, and within the spinal cord. The fatty lipid layers which cover and insulate portions of the brain are called Myelin. Myelin to the function of the nervous system is like the silicone insulation which surrounds and insulates electrical copper wires and cables or used in circuit boards to separate individual electric components.
Myelin protects and isolates electrical signals produced within the brain which travel down the spinal cord and throughout the nervous system. To viruses, Mylin has only one function, being a source of available calories as a food supply. In the brain, virus infections target and consume the fatty lipid content which surrounds and insulates neurons, dendrites, and nerve bundles contained within the white matter of the cerebrum. When Myelin which protects the brain is consumed in a process called Demyelination, electrical signals within the nervous system are unprotected. Degeneration of signal power and quality of transmissions throughout the nervous system are common systems of Demyelination resemble symptoms of decay found on insulation within electrical systems and devices from rodent infestations.
Acute demyelination of the nervous system can lead to more severe short circuits within the nervous system of a host of a virus infection. Acute demyelination or short-circuiting of the nervous system is often responsible for seizures, tremors, shaking, spasms, uncontrollable muscle movement, physical impairment, mental degradation, and trouble during speech found as epidemic diseases such as M.S., Parkinson’s, and epilepsy. Demyelination can only be halted and reversed via removal of the virus infection from the body and consumption of massive volumes of regenerative supplements such as collagen, MSM, and glucosamine, and amino acids.
Zinc is used by the body to build and repair neurons and nerves within your body. These regenerative supplements help rebuild the Myelin lipid content throughout the nervous system. While modern science and medicine offer multiple prescriptions and medications to treat Demyelination in hosts of disease, only high-Ph alkaline treatments and a high intake of regenerative supplement-rich diets can repair and stimulate Myelin growth needed for rebuilding and supporting a healthy nervous system.
Pycnogonida are a highly intelligent, hive-minded species that uses electrical signals generated from Tritium beta decay as a method of communication. Coiled nervous systems found within the species use double latch gates to keep quantum bonds between generations of the species. Physical breakage between a child Pycnogonida’s nervous system and the gonopore of its parent leaves behind chemical bonds which can transmit electrical signals throughout offspring exponentially produced by generations of the species. Electrical signals, data, information, communication, and knowledge received by a signal Pycnogonida is available to a neural network which is expanded throughout every connected generation of the species.
The neural network available to Pycnogonida is larger than any other species found on earth, except possibly for another yet Unkown species of polyping medusa found within the ocean. Exponentially reproducing Pycnogonida parasites that have gained access to an infected host’s brain and neural network quickly learn (or already have knowledge) of the language of signal code used by the human nervous system to command the executive functions. In “Acquired” diseases, a host or host has been demyelinated and the viral infection has acquired the ability to intercept, interpret, and send electrical signals to and from an infected brain of an infected host.
A host of an acquired disease becomes a puppet of varying degrees of control to a type of “middle-man attack" by the virus population. Acquired hosts stand for the well-documented appearance of schizophrenia, delirium, mental inertia, physical prostration, psychosis, mental collapse, mental disturbances, and general insanity documented after the appearance of a majority of historical influenza and virus outbreaks. At the height of the largest and deadliest virus epidemic in modern recorded history, the influenza outbreak of 1918 brought in reports of outbreak induced mental disturbances from all over the world:
At the U.S. Army’s Walter Reed Hospital, physicians Dr. Egbert Fell reported via the June 1919 issue of the Journal of the American Medicine Association, that patients possessed “Delirium occurring at the height of the Disease”, and that these symptoms did not “clear with cessation of fever”. Patients developed severe mental health symptoms during influenza infections which did not pass even when other symptoms of the virus had. Doctors in Britain reported “profound mental inertia with intense physical prostration. Delirium has been very common … It has varied from more confusion of ideas through all grades on intensity up to maniacal excitement”. Influenza patients were having and communicating wild ideas that may not have existed prior to a virus infection. These hosts became motivated by these ideas from an unknown origin to the point that they became excited and overcame physical inhibitions in response. These symptoms resulted from the presence of alien virus infections.
- Category: Phage Viruses
07/02/2022 - 130ft HIV Pycnogonida kills Seattle family in RV before returning to Lake Washington