Gardasil: An experience no child should have to go through#android#iPad#retweet

By Tara Gramza, Phoenix AZ

Gardasil changed my life.

I am a labor and delivery nurse at Scottsdale Osborn, and studying to become a nurse practitioner. My daughter was born on December 6, 1999. She was approximately 14 years, and 2 months old when she first suffered an adverse reaction to a vaccine.

J.G. was a happy, very healthy, normal, teenage girl. All that changed when the doctor in her pediatrics office recommended she receive Gardasil as prevention against cervical cancer.

As a mother and an informed registered nurse, I was confident in the vaccination and willing to allow J.G. to be vaccinated. On January 7, 2012, J.G. received her first dose of Gardasil at East Valley Pediatrics in Arizona. She progressed normally over the next few months, showing no apparent signs of an adverse reaction to the vaccination.

On July 26, 2012, J.G. received the second shot of Gardasil at East Valley Pediatrics in Arizona. She again progressed normally, still showing no apparent signs of adverse reaction.

On January 23, 2013, J.G. received her third and final injection of Gardasil at East Valley Pediatrics.

By March of 2013, I noticed that J.G. was bruising relatively easily, but thought she was a normal teen with maybe a low iron deficiency. After all, she was growing normally and she had just started menstruating. However, J.G. had never bruised like this before, and I had never seen the bruises shaped like this before. I was concerned, but chalked it up to her being an active, growing teenager. Being a nurse, I did not see any reason for immediate concern.

However, my concern increased in July of 2013 during a vacation to Hawaii. J.G. was playing like a normal kid would and was pushed off the boat, hitting her hip against the side.

The next day, the bruise that developed looked like she had been hit super hard, almost as if someone had taken a baseball bat to her hip. I remember asking her, “How hard did you hit the boat?”

She replied, “Not that hard, I guess it’s low iron like you suggest.”

Despite my nursing background, I still did not think anything was seriously wrong.

Ultimately, at the end of January of 2014, J.G. and I went to see her primary care doctor, Dr. Chapman, for a well-child check-up. We reported to her that J.G. was bruising a lot and had been for months. We thought she needed her iron level checked.

Dr. Chapman sent her for labs. That afternoon, we had her labs drawn.

I wish one could be un-injected.

The next morning, we received a phone call. Dr. Chapman told us J.G.’s platelets were low (I believe at 23k), and she needed to see a hematology doctor A.S.A.P.

I picked up J.G. from school and kept her home until her appointment in 2 days. When we arrived to the office at Phoenix Children’s Hospital, they took more blood samples, 14 tubes, I believe, to double-check the labs and verify the diagnosis. She was again low – at approximately 24k platelets. They then asked how long we had noticed symptoms, and if we had seen bloody noses or spots on her skin. She had not at this time, just bruising.

Phoenix Children’s Hospital decided to refer J.G. to a rheumatologist named Dr. Ede and have her follow up with Dr. Shah, the hematologist. The plan was to send her labs and watch her to see what her body will do.

Dr. Ede told us during our appointment that J.G. did not meet the guidelines for Lupus, and her urine was negative for any indication of kidney damage that is present with kids with Lupus.

He did tell us that her labs were positive for something called Anti-phospholipid antibodies. This meant she was at high risk for clots. He wanted to follow her case, but felt she was not going to be a Lupus patient. He also asked that her labs be run again prior to any treatment for low platelets, such as Immunoglobulin therapy (“IGG”) to recheck the ANA and Double Stranded DNA.

J.G. was diagnosed on February 11, 2014, with immune thrombocytopenic purpura, ITP.

Dr. Shah told us J.G. would probably remain in the 30k platelet range for a few months, and would likely need intervention therapy such as IGG, Rituximab, or steroids.

The antiphospholipid issue was explained as being a possible positive as an auto immune response. The physicians could not say for sure which autoimmune condition came first, antiphospholipid antibody syndrome or thrombocytopenia.

They also said her labs were all negative for virus or other causes of ITP, and decided it was more likely a chronic immune thrombocytopenia. For several months, J.G. did stay at around 35K platelets.

Then, in May of 2014, J.G. experienced a seriously heavy period, nose bleeds twice in one day that would not stop, and little red dots all over her arms and legs. We took her to the Phoenix Children’s Hospital urgent care and they found J.G.’s platelets were 14K. (Note: a normal platelet count ranges from 150,000 to 450,000)

Gardasil took more than it gave me.

Dr. Williams, a hematologist with Dr. Shah, began seeing J.G. They told us to come back in the morning first thing for her first round of IGG. She was admitted all day for the infusion. They ran her blood for labs that Dr. Ede requested and started the infusion. These labs showed her ANA and double stranded DNA were both negative now. Dr. Ede decided to continue to follow her case, but did not need to see her anymore, because she does not meet the guidelines for Lupus.

J.G. came back to Phoenix Children’s Hospital for labs again to check her platelets a few days later. Her levels were around 75K. However, they quickly fell to 10K again, and she was then admitted again for another dose of IGG. Her levels rose again to 100k then fell down again to 23K.

Dr. Williams decided it would be best to start her on a medication called Rituximab to try to reverse the effects of her immune system’s response by resetting her B cells that cause her body to mark her platelets for destruction.

That night, J.G. started with bleeding of the nose again, small red marks all over her body, including her bottom, and heavy, irregular menstrual bleeding. She went to urgent care again and was told she had a 4k platelet count. The physician on call reported to the hematologist who then decided to admit her again for a high dose of steroids known as dexamethasone.

She took a super high dose of steroids for a few days to try to give her a boost while the Rituximab did its job. The steroids made J.G. very ill, with a stomach ache, headache, and racing heart. She gained some weight, too. She started the infusions of Rituximab, which is given in 4 doses for 4 weeks.

J.G. was admitted outpatient all day for those infusions and tolerated it well. She was to continue the lower dose steroids for several weeks so her platelet levels would stay above 25k. She did remain around 30K for many weeks. Then in August of 2014, her platelets jumped to over 150k. She was doing great and responding well to the treatment. She was removed from steroids. She officially completed Rituximab on June 24, 2014, and had a complete response with normal platelet count since July of 2014.

We have spent numerous hours and dollars fighting J.G.’s illness, all brought about by the Gardasil vaccination.

Worse yet, J.G. has lost her teenage years due to her debilitating condition, and cannot live a normal life. The fear of bruising and her potentially low platelet count dominates her mind wherever she goes.

J.G. continues to remain in remission, and continues to be seen by Dr. Williams every few months. During her last visit in January of 2015, her labs were rerun to show a negative DNA and slightly positive ANA and positive antiphospholipid antibodies.

Dr. Williams has said he thinks that the antiphospholipid antibodies and ANA should go away in time. However, she is still at a high risk for chronic ITP due to her age, her history of bruising post-vaccination, and the presence of other antibodies.

Her labs have continued to remain positive and her court expert Dr. Shoenfeld thinks she will remain APS positive for life. It will never go away. She will have high clot risk and the risk of return of blood related disorders and high pregnancy risk. Unfortunately it won’t go away. But so far so good. She’s still healthy.

No child should have to go through what my daughter has experienced.

This article in it’s entirety, is compliments of www.SaneVax.org

Tara and J.G., my heart aches for what you have been through.  I am so sorry you have been through such a trauma and live with the anxiety brought on by an unnecessary shot.

A terrible crime by the pharmaceutical industry and government agencies that allow it.

I am so happy you are maintaining well at this time.  Sounds like a lot of hoops and tests to get to this point.

You have no doubt been guided and blessed.

Stick with the guidance of the Lord and he will continue to carry you when you need it.

J.G. you are a brave girl and so positive. 

Always let the Lord be your constant guide and you will always have the best possible response.

Thank you for sharing your story.  Just know that another girl will be able to avoid what you have been through because of it.

There are physicians with expertise in healing from Gardasil/Cervarix/Silgard injuries.

Here is a Featured Doctors link and Sane Vax has wonderful doctors listed at their site as well.

I wish you all the best on the this journey.

 Fair thee well.  your friend, jen

There’s some boys that want to sing a little song to you.  🙂

Gardasil and Vitamin Deficiency?#Vaccines#Health#Adverse reactions to vaccines

Gardasil and Vitamin Deficiency?

April 22, 201

By Derrick Lonsdale, MD

Dr. Lonsdale: Gardasil and Vitamin Deficiency

Dr. Lonsdale: Gardasil and Vitamin Deficiency?

In July 2013, I received an e-mail from the mother of an adolescent girl who had received Gardasil vaccination some four years previously.  Her many symptoms that had mystified her doctors were eventually diagnosed as Postural orthostatic tachycardia syndrome (POTS), published recently as a complication after the administration of this vaccination[1].  The mother had conducted her own research and had come to the unlikely conclusion that her daughter suffered from beriberi.

A better name for this condition would be thiamin deficiency disease since the name beriberi was originally derived from its common occurrence in eastern countries where rice has been the staple diet for centuries.  Outbreaks of the disease were often associated with increased affluence when the peasants could afford to have the rice milled to remove the husks, yielding white rice that looked better when it was served.  The vitamins are in the husks, so this is a historical example of high calorie carbohydrate malnutrition, sometimes known as empty calories.

The question that this mother asked me was, “Does this make any sense and if so can it be proved?”

The idea of a vaccination actually causing a vitamin deficiency disease like this appears, at first sight, to be completely absurd. I reported to her that there was a very accurate blood test available to prove thiamin deficiency and this requires some explanation.

Erythrocyte (red blood cell) transketolase

All of our body and brain cells are chemical micro-factories.  Each cell must create energy in order to perform its specialized function. This energy is provided by “engines” (mitochondria) within each cell.

Using this energy to build complex molecules in the body (e.g. a hormone) is performed in a series of “steps” (chemical reactions), each of which requires an enzyme.  The enzymes, complex proteins, act as catalysts that enable a series of chemical reactions to take place as simpler chemical compounds are gradually made more and more complex.

Each enzyme, however, cannot work efficiently without one or more cofactors, naturally occurring vitamins, most of which, like thiamin, have to be obtained from diet.

Red blood cells, aside from their ability to transport oxygen from the lungs to the tissues, have another vital function involving a series of chemical changes, in which the enzyme transketolase is required.  Cofactors for this enzyme are thiamin (vitamin B1) and magnesium.  Without them, the enzyme is partially crippled.

By taking a blood sample and measuring the speed at which the chemical product of the transketolase enzyme is synthesized, we can ascertain its baseline efficiency.  If, by adding thiamin, this activity accelerates, we know that that is what the enzyme required in order to reach its maximum efficiency. The acceleration can be measured as the percentage increase over the speed of the first reaction before thiamin is added.

Although the so-called gold standard advised by the Mayo Clinic for ascertaining deficiency of thiamin is by measuring its level in the blood, this level may be completely normal in the presence of deficiency.  This is because thiamin is required inside the cell in order to maintain its vital functions.

Measuring the concentration of thiamin in blood when it is outside the cells that require it bears no relationship with its presence or biologic function inside the cell. The same thing applies to measurement of magnesium deficiency.

The enzyme transketolase is also present in brain where it has a vital function. Reduction of its activity from deficiency of thiamin or magnesium causes brain dysfunction, particularly in the lower part of the brain, the limbic system and brainstem that are known to be highly sensitive to these deficiencies.

Because thiamin is so vital to the enzymes involved in energy metabolism involving consumption of oxygen in the brain, thiamin and mild to moderate oxygen deficiency both produce exactly the same changes as recognized by a pathologist using a microscope.

POTS, beriberi and dysfunction of the autonomic nervous system

The courageous mother of this young lady followed through with the transketolase test. It was strongly positive for thiamine deficiency, providing scientific proof that her hunch was right.

Two other girls and a boy, all of whom were known to this mother and who were suffering from post-Gardasil POTS, also had the transketolase test done.  All showed thiamin deficiency.

Another girl, also known to the mother, had P OTS.  Although she had not received the vaccine, her transketolase test showed thiamin deficiency.

Let me explain this source of confusion.  We have two nervous systems.  One is called the voluntary system by which we can act according to will and controlled by the thinking brain.  The other one is called the autonomic nervous system (ANS), controlled by the limbic system and brainstem, the evolutionally more primitive part of the brain.  This computes a given mental or physical environmental situation (stress) by means of our senses and enables us to adapt automatically to what might be called the “stress factors” that we meet on a daily    basis. For example, we sweat when it is hot and shiver when it is cold, both activated as an adaptive response to the “stress” of environmental temperature.

When the function of the autonomic nervous system becomes abnormal it is known as dysautonomia (dys, meaning abnormal; autonomia referring to the ANS).  Because this part of the brain is automatic and acting on a 24 hour basis, its energy requirement is very great and it is highly sensitive to loss of efficiency in oxidative metabolism.

Thiamin plays a part in other enzymes besides transketolase and they all have a role in the fundamental basis of energy metabolism. The union of oxygen with glucose (cellular fuel) is catalyzed by thiamin in oxidation (burning) to provide energy used for function.  It is therefore not surprising that thiamin deficiency severely affects the limbic system and brainstem.

Beriberi in its early stages is exactly like POTS arising from other causes, both being forms of dysautonomia.  By depicting thiamin deficiency, one specific cause of POTS is isolated.

The potential role of stress

It took many years to discover that thiamin deficiency was the cause of beriberi and we can use the history of this discovery to illustrate what might be termed the stress factor.

In the 19th century, factories were built in blocks, separated by corridors.  In the summer months workers would take their lunch in the corridors.  Initially they would be in the shade but when they were exposed to the sun as it began to shine into the corridor, some of the workers would get their first symptoms of beriberi.  It was because of the symptoms being initiated in a group of people at the same time that led to the long held and inaccurate conclusion that it was an infectious disease.

We now know that the ultraviolet component of sunlight imposes a significant stress on the human body and is the reason that we tan to provide a natural form of protection.  Any form of stress imposes a biological burden, requiring energy to meet the adaptive response.  There are in fact several, genetically determined diseases of metabolism that are intermittent in nature.

The affected person may be relatively normal until a stress factor such as a mild infection, an injury or even an inoculation is imposed.  The clinical expression of the disease then becomes manifest.

The stress factor, completely innocuous to a healthy energy metabolism, can initiate symptoms in a person where that energy metabolism is at risk.  The workers that succumbed to their first symptoms of beriberi under these conditions had a degree of thiamin deficiency that was as yet without symptoms or they were trivial, perhaps ascribed to other causes.

Conclusion and hypothesis

Three girls and one boy, all who have suffered the long-term effects of post-Gardasil P OTS, have been shown to be thiamin deficient by means of a transketolase study.

Without going into details, the family history of the boy suggests that genetics may play a part.  Another girl with P OTS had the same test and was thiamin deficient, but had not received the Gardasil vaccine.

All four of the vaccinated individuals were considered to be unusually bright students, athletes, or both, before they received the vaccine.

Thiamine deficiency results in an energy deficit and has been shown to damage mitochondria.  The brain has a high oxygen demand and it would be expected that its use would be proportional to the degree of intelligence.  Hence the intelligent student might be expected to be more at risk from high calorie marginal malnutrition.

I suggest that HPV vaccination acts as a non-specific stress factor, in a marginal state of energy metabolism, although there is another peculiar caveat to the Gardasil vaccine.  It is a yeast based vaccine in its synthesis.  The type of yeast used contains thiaminase II (another enzyme exists called thiaminase I), an enzyme that breaks the thiamin molecule down, making it biologically inert

Thiaminase disease has been described in Japan in conjunction with dietary thiamin deficiency.  The ingestion of sugar in its many different forms in the modern world, particularly in children and adolescents, overloads the capacity of thiamin to process it.  This results in a calorie to vitamin ratio that is abnormal and could be referred to as relative vitamin deficiency.

The HPV vaccination “stress factor” might be the “last straw” in those with a genetically, or dietary determined risk.

 
References:
[1] Blitshteyn S.  Postural Orthostatic Tachycardia Syndrome following human papilloma virus vaccination. Eur J Neurol 2014;21:135-139.
 
SaneVax Inc.
 
This simple test that Dr. Lonsdale suggests might save families months of trial and error testing, and place them on the road to healing much earlier.   Thank you Dr. Lonsdale, for your concern and expertise in this area.