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How Do Vaccines Work? Immune Mechanisms and Consequences - Page 2

Author // Stephen C. Marini, DC, PhD

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How Do Vaccines Work? Immune Mechanisms and Consequences
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Does the resulting pattern of immune imbalance promote imbalances in other body systems resulting in chronic health issues?

The 80s and 90s also brought us an explosion of research describing the various chemicals released by cells, especially the Th cells and the receptors on cell membranes capable of reacting to these chemicals. The chemicals (cytokines, interleukins) released by T cells act as signals interacting with satellite dish like receptors on all cell membranes, especially the cells of the nervous system. Similarly, chemical communication signals from the nervous system (neurotransmitters, neurohormones) can react with T-cell satellite dishes. T-cell chemicals can react and effect the entire brain.10 The concept that science now employs is psychoneuroimmunology. So, what you think can affect your nervous and immune systems as well as the immune and nervous system affecting how you think. So, when the immune system is out of balance and depressed, it sends out interleukins which react with the brain, generating depressed behavior, depressed moods and depressed thinking.11 This depression theme excites the sympathetic (flight or fight) nervous system and the cycle keeps on streaming out of control. Patterns of immune imbalance as seen with a Th2 vaccine-conditioned immune responses beget patterns of abnormal neurological and psychological patterns which can then affect all other body systems. Patterns of subluxation have been shown to result from and enhance sympathetic activity. Therefore, patterns of immune imbalance can generate subluxation and vice versa. Other factors that condition as well as support a Th2-dominant immune pattern and should be avoided are negative consciousness patterns, which generate stress, and antibiotics, which delete the normal Gram-negative bacteria and suppress Th1 cells, sugar, caffeine, trans-fatty acids, progesterone, antibiotics, mercury, oxidative damage etc.7


What is known about reversing the imbalance generated by vaccines and/or other immune stressors?

We know that a fetus thrives in a progesterone-rich maternal environment that is Th1 suppressive. But nature solves this by first exposing the baby to normal, probiotic bacteria while coming through the birth canal. These friendly Gram-negative bacteria from the mother stimulate Th1 activity in the neonate. Secondly, breastmilk contains the normal probiotic bacteria as well as the prebiotic chemicals that selectively supports the growth of the good bacteria and Th1 activity and discourages the growth of the bad fermenting-type bacteria. Colostrum and breast milk are also rich in the interleukins necessary to stimulate Th1 activity. It is understandable from this knowledge that breastfeeding is recommended for at least one year. Lastly, exposure to environmental viruses, other Gram-negative bacteria, and fungi will also stimulate neonatal Th1 activity. It is apparent that newborns who are delivered by C-section, not breastfed, and receive their baby shots have a remarkable squashing of their Th1 capability. Repeated vaccinations, poor nutrition, and nerve interference from subluxations, serve to support this failure in immunostasis. Things to do to reinforce Th1 activity and assist in reversing the immune imbalance generated by vaccines, C-sections, formula-only feeding, and other immunostasis disrupters, include developing positive, affirming consciousness behavior patterns and choices individually as well as within the family unit. Antioxidants, mushroom extracts, melatonin, dehydroepiandrosterone (DHEA), probiotic bacteria such as Lactobacillus acidophilus and GG, phytosterols and sterolins, and omega-3-fatty acids (fish oils) are just a few things that have been shown to increase Th1 levels. Chiropractic adjustments are also recommended to reduce the sympathetic nervous system influence on Th1 suppression. The summary table will review the roles of the Th1 and Th2 responses as well as list what is known to increase their respective levels.

Concerns for the future well being of our children should include yearly evaluations of their immune balance either through direct T-cell assessment or indirect analyses through cytokine evaluation. If children must submit to the current vaccine schedule12, their immune systems need to be evaluated for T-cell imbalances and all steps necessary employed to restore immune balance prior to the onset of chronic health issues. On the vaccine strategy end, it appears that the future focuses on the “dream vaccine.” This vaccine will consist of a large viral DNA strand containing spliced genes from all the microorganisms desired for vaccination. The genetically engineered DNA will be injected into the baby and then be integrated into the child’s cells. Once inside the cell, the vaccine DNA will be treated like the cell’s own DNA allowing the host cell to produce vaccine components over a prolonged period. So, the child’s cells will serve as their own vaccine manufacturing plant supplying the body with continuous booster stimulation for the immune system. Such implantation technology has already been implemented with the use of the Norplant device designed to release birth control medication over a 3 to 5-year period. Will the vaccine device generate the appropriate Th response? I cannot see how it can, but the real issue, from the public health standpoint, is not whether the appropriate Th response is generated but is a protective, antibody-generating response stimulated. So, we will end up where we began with regard to having vaccines generate Th2 responses only to replace that strategy with an implanted device that will condition the immune response the same way. The prospect of having our children implanted with a DNA-based vaccine device that promote an immune conditioning outcome over years is harrowing. Maintaining immunostasis as a result of this vaccine strategy will be a challenging struggle for years to come.


References:

  1. Abbas AK, Murphy KM, Sher A.  Functional Diversity of Helper T Lymphocytes.  Nature: 1996: 383  pp.787-793
  1. Golding S., Scott DE.,  Vaccine Strategy: Targeting Helper T Cell Responses.  Ann. NY Acad. Sci. 754:126-137,  May 31, 1995
  1. Moskowitz R., How Do Vaccines Work?  Pathways, Is. 10: 5-9, 2006
  1. Taylor,J.  Which Arm of the Immune Response most Likely Plays the Predominant Role in Host  Defense Against Influenza Virus: humoral or cell-mediated?  Medscape Feature, 1998, 08.98, p.443
  1. Urnovitz H.,  Archiving of Live Viral Vaccines.  From Proceedings of the First International Public Conference on Vaccination.  September 13-15, 1997.
  1. Ader R., Felten D., Cohen N.,  Psychoneuroimmunology.  Academic Press, 2nd edition, 1991.
  1. Kidd P., Th1/Th2 Balance: The Hypothesis, its Limitations, and Implications for Health and Disease. Alt. Med. Review, Vol.8 #3, 2003, p223-246.
  1. Hurwitz E., Morgenstern H. Effects of Diphtheria-Tetanus-Pertussis or Tetanus Vaccination on Allergies andAllergy Related Respiratory Symptoms Among Childern and Adolescents in the U.S.  JMPT Vol. 23#2 Feb. 2000
  1. Taylor, J .  Herd Immunity: The Varicella Vaccine Is it a Good Thing?  Archives Peds. Vol 155#4 Apr. 2001.
  1. Pert C.  Molecules of Emotion.   Touchstone, 1997.
  1. Watkins A. Mind Body Medicine  - A Clinicians Guide to  Psychoneuroimmunology. Churchill Livingstone, 1997.



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