2 Main Differences Between Plant An Animal Cell Mitosis What Do Vaccines Really Contain?

You are searching about 2 Main Differences Between Plant An Animal Cell Mitosis, today we will share with you article about 2 Main Differences Between Plant An Animal Cell Mitosis was compiled and edited by our team from many sources on the internet. Hope this article on the topic 2 Main Differences Between Plant An Animal Cell Mitosis is useful to you.

What Do Vaccines Really Contain?

Getting a vaccine for a disease, such as mumps, can be a blessing to those afflicted and provide a true immunity to the disease. This may account for some of the disease-preventive effects of vaccines that have been demonstrated in a small number of individuals. Unfortunately, the majority of the vaccinated population does not get sick. If you do, the vaccine may have little value. However, if an adjuvant such as aluminum or squalene is added to the vaccine, which is typical for many vaccines, it can cause your immune system to react to the exposure of the body you are immunizing against.

In such cases, the human body has no help against foreign substances and they are covered by antigens and the result is an irritation of the immune system. This often gives rise to dangerous symptoms (among the agents often introduced by vaccines is thimerosal, which is linked to brain damage), mild side effects and even dangerous situations.

Despite documented evidence linking vaccination to disease and injury, modern medicine insists that vaccines are a form of ‘health insurance’. But just so you know the facts, here’s a brief look at what these chemicals are.

Antigen: At the core of every vaccine is the disease-causing microorganism or pathogen that the vaccine is intended to cause.

Treatments: Preservatives are used to increase the shelf life of the vaccine by preventing bacteria and fungi from attacking it. In the US, the FDA allows the use of three preservatives: phenol, 2-phenoxyethanol and thimerosal.

Contributors: Adjuvants stimulate the body’s immune response immediately after the vaccine is administered. Although very dangerous and known to even cause cytokine storms leading to rapid death, pharmaceutical companies continue to use adjuvants as ‘boosters’ in their vaccines.

Another important reason for using adjuvants is that these chemicals, by turbo-charging vaccines, allow pharmaceutical companies to use less of the antigen in each dose so they can make more doses. Calculate: More doses mean bigger profits.

Aluminum salts are the most widely used adjuvants employed by pharmaceutical manufacturers. They include: aluminum phosphate, aluminum hydroxide, aluminum hydroxyphosphate sulfate and potassium aluminum sulfateor simply alum.

Until recently, only aluminum salts in immunosuppressants in the US were allowed to be used. However, with the FDA toying with the idea of ​​accepting squalene as an adjuvant, alarm is growing that this chemical, which wreaked havoc with US Gulf War veterans, may be licensed for widespread use in the US.

Supplements or Stabilizing Agents: Stabilizing agents protect vaccines from being damaged or losing their effectiveness under certain conditions such as freezing and heat. They also prevent the antigen from sticking to the side of the vaccine vial, and the components of the vaccine from separating.

Common additives include sugars such as sucrose and lactose; amino acids like glycine, monosodium glutamate; and proteins such as gelatin or human serum albumin.

Concerns about these supplements surround the use of gelatin, human serum albumin and materials derived from animals, especially cows. While gelatin is suspected of causing allergic reactions, human serum albumin (derived from human embryos) can introduce antibodies into the body.

The material derived from cattle came into focus with the outbreak of Bovine Spongiform Encephalopathy or ‘mad cow disease’ in England in the 1980s.

The remaining agents: The remaining agents are used during the production process to inactivate the pathogen and to culture the virus. They have finally been eliminated from the vaccine, or at least that’s what the vaccine makers say.

The remaining agents include bovine serum (a popular agent used to grow virus in cell cultures); formaldehyde (used as an inactivating agent); and antibiotics such as neomycin, streptomycin and polymyxin B to prevent bacterial contamination.

Animal Products: Animal products are often used in vaccine production as a medium in which the virus is cultured and grown. They perform two important functions: they provide food to the pathogen and they provide cell lines that help to reproduce to make millions of commercially sold needles.

Animals whose organs, tissues, blood and serum are often used to make vaccines are monkeys, cows, sheep, chickens, pigs and occasionally dogs and rabbits.

Person Products: Human embryonic stem cells (human diploid cells) divide indefinitely and are used to make cell lines that allow a virus to replicate. For example, the rubella virus is grown in human culture because the virus is unable to infect animals.

After an insect is cultured, the pathogen is purified while it is removed from the growth culture. However, traces of genetic material from the culture are often present in the vaccine.

This presents a real and ever present danger. If the host animal or human becomes infected, secondary pathogens are likely to be passed on during vaccination.

This is exactly what happened when the polio vaccine, grown in monkey kidney cells, was later found to be contaminated with Simian Vacuolating virus 40 or SV40.

After looking at the broad categories of components in vaccines, here is a list of some of the toxic agents (with documented side effects) used in their production.

  • Acetone: nail polish remover
  • Oil donors: a neurotoxin linked to Alzheimer’s disease and seizures. It can also cause arthritis
  • Formaldehyde: A carcinogenic agent used as a perfume
  • Ethylene Glycol: Antifreeze widely used in automobile engines
  • Triton X100: A detergent
  • Glycerin: damages internal organs such as lungs, liver and kidneys and intestinal tract
  • Monosodium glutamate (MSG): According to the FDA, MSG Symptom Complex or MSG side effects can result in numbness, burning sensation, tingling, pressure or tightness, chest pain, headache, nausea, rapid heartbeat, drowsiness, weakness, and breathing problems for asthmatics. More specifically, studies have shown that MSG can cause arrhythmia, atrial fibrillation, tachycardia, rapid heart rate, palpitations, slow heartbeat, angina, excessive rise or drop in blood pressure, swelling, diarrhea, nausea/vomiting, stomach, rectal bleeding, bloating, flu-like achiness, joint pain, stiffness, depression, mood changes, aggressive reactions, migraine headache, dizziness, lightheadedness, loss of balance, disorientation, mental disorder, anxiety, panic attack, hyperactivity, behavioral problems in children, attention deficit hyperactivity disorder. disorders, lethargy, sleepiness, insomnia, numbness or paralysis, seizures, sciatica, slurred speech, chills and tremors, shuddering, blurred vision, difficulty concentrating, pressure around the eyes, asthma, shortness of breath, chest pain, tightness in the chest, runny nose, vomiting, frequent bladder pain, swelling of the prostate, swelling of the vagina, spotting, frequent urination, nocturia, hives (can be both internal and external), rash, sores, temporary numbness or paralysis numbness or tingling of the skin, flushing, very dry mouth, swelling of the eyes, swelling of the tongue, bags under the eyes
  • Phenol or Carbolic Acid: A deadly poison used in household and industrial products as an antiseptic and a dye.
  • Thimerosal (mercury derivative): A toxic heavy metal used as a treatment. Closely linked with autism, autoimmune diseases and other neuro-developmental disorders
  • Aluminum: A metallic substance which, apart from causing brain damage in children, can also predispose adults to neurological problems such as Alzheimer’s disease and dementia.
  • Polysorbate 80 (Tween80™): an emulsifier that can cause severe allergic reactions, including anaphylaxis. In addition, according to a Slovakian study on rats published in the journal Food and Chemical Toxicology in 1993, Tween80 can lead to intolerance. Tween80 hastened the rats’ maturation, delayed the estrous cycle, reduced the weight of the uterus and ovaries, and caused damage to the color of the uterus indicating chronic estrogenic stimulation.

All this makes me wonder why many millions of people began to suffer with the diseases listed as side effects of these toxins after many vaccines were introduced into modern societies. Many of these diseases were almost unheard of before the vaccine-mania began.

Video about 2 Main Differences Between Plant An Animal Cell Mitosis

You can see more content about 2 Main Differences Between Plant An Animal Cell Mitosis on our youtube channel: Click Here

Question about 2 Main Differences Between Plant An Animal Cell Mitosis

If you have any questions about 2 Main Differences Between Plant An Animal Cell Mitosis, please let us know, all your questions or suggestions will help us improve in the following articles!

The article 2 Main Differences Between Plant An Animal Cell Mitosis was compiled by me and my team from many sources. If you find the article 2 Main Differences Between Plant An Animal Cell Mitosis helpful to you, please support the team Like or Share!

Rate Articles 2 Main Differences Between Plant An Animal Cell Mitosis

Rate: 4-5 stars
Ratings: 2412
Views: 96485714

Search keywords 2 Main Differences Between Plant An Animal Cell Mitosis

2 Main Differences Between Plant An Animal Cell Mitosis
way 2 Main Differences Between Plant An Animal Cell Mitosis
tutorial 2 Main Differences Between Plant An Animal Cell Mitosis
2 Main Differences Between Plant An Animal Cell Mitosis free
#Vaccines

Source: https://ezinearticles.com/?What-Do-Vaccines-Really-Contain?&id=6171841