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Pre and Post Birth Immune Development for your Baby

For the past several decades there has been a significant increase in allergies ranging from food reactions to asthma along with an increase in autoimmune diseases such as Type 1 Diabetes and Hashimoto’s thyroiditis. This rise has been especially noticeable to parents and paediatricians as the number of children suffering with these issues has increased. At the same time, the impact from infectious diseases in children has increased. In fact, children have less exposure to dirt and bacteria. Less outside playing time and more inside screen time has led to this change.

Development of the Immune System

A child’s immune system initial development is critically tied to type of birth and newborn feeding. The digestive system houses a substantial portion of the immune system and is a front-line barrier to the outside world. When a baby is born, the digestive system is sterile. Only by passage through the vaginal canal does an infant become exposed to the microbiome of the mother to begin development of the immune system. Many women have their own digestive and immune issues so have an abnormal microbiome of bacteria to pass onto their infant.

Breastfeeding with the skin to skin contact is another mechanism developed by nature for an infant to be exposed to a mother’s microbiome. Breastfed infants have increased Th1 cytokines at one month compared to bottle fed infants. This is important because pregnancy and the neonatal immune system are naturally Th2 dominant to protect the infant. Exposure to the microbiome and immune factors present in breastmilk such as transfer factors and immunoglobulins prime the infant’s immune system towards a better Th1-Th2 balance.

An infant at birth has immature organ systems and this includes immature immune and digestive systems. Because of this early development, the immune system is extremely vulnerable to environmental toxins. An infant’s immune system is thought to have a 3 to 12-fold increase in sensitivity to toxins compared to an adult’s. Many toxins impact the immune system along with other developing systems such as the nervous system and the gastrointestinal tract. This exposure may also have a latent effect where there is a delay before symptoms appear.

Changes in the microbiome

The microbiome has many factors causing its alteration in day to day life. First there might be inadequate establishment of healthy bacteria in the intestine during delivery of the infant. Subsequently, there is an onslaught of antibiotics that kill normal flora through non-organic food, vaccines and treatment for common infections. The less an infant is exposed to antibiotics during the first few years of life, the better their chances of avoiding allergic conditions. Fermented and cultured foods as a source of beneficial bacteria are not common components of a modern diet. A common part of many diets today is processed foods which deter growth of a healthy microbiome.

Hygiene hypothesis

With the understanding of the influence of bacteria on our immune system, researchers developed the hygiene hypothesis. Children today are exposed to less dirt, less germs, and more hand sanitizer. In developed countries where children are exposed to less infections and less bacteria, there are higher rates of allergies and autoimmune diseases. With decreased infections, there are decreased microbial exposures. Bacteria and virus infections elicit primarily a Th1 immune response which downregulates the normal Th2 immune response in a young child that develops in utero.

Environmental toxins

Exposure to environmental toxins continues to mount in our world. Just as the immune system and the digestive system need to develop, the ability to detoxify chemicals needs to mature and is not fully formed at birth. Added to this fact is the size of the child. Children based on their smaller size and weight are much more susceptible to the effects of toxins than adults. Different toxins will have varying deleterious effects based on time of exposure, amount of toxin and length of exposure.

Heavy metal toxins such as lead, cadmium, arsenic and mercury can all negatively affect the immune system. Lead shifts T helper cells to form Th2 cells. It also inhibits humoral and cell mediated immunity. The prenatal and early natal period seem to be extremely sensitive to the effects of lead. Both cadmium and mercury induce autoimmune disease and research has shown increased rates of glomerulonephritis with exposure to these toxins. Arsenic compromises the primary immune response to infection by targeting front-line dendritic cells. Pesticides, including those on non-organic foods, decrease resistance to bacterial, viral, and parasitic infections leading to immunosuppression. Simultaneously they also lead to hypersensitivity reactions and increase Th2 responses. Pesticides alter proteins. Unrecognized proteins in the body cause antibody formation to attack these foreign proteins. Infants exposed to herbicides before age one have a ten-fold increased risk of asthma in childhood.

Environmental toxins such as PAH’s and PCB’s also cause immunosuppression. Indoor air pollution harms phagocytic activity in the respiratory tract. With decreased phagocytic response, there is a decrease in IFN-gamma leading to a decrease in Th1 cell formation. Pollution from indoor air from exposure to mould can also negatively impact the immune system. Epidemiological studies have shown that indoor moulds are associated with increased prevalence and worsening of respiratory hypersensitivity symptoms. Inhalations of mycotoxins play a role in the development of acute asthma, allergic rhinitis and urticaria. Some mycotoxins increase the allergic immune response by modulating the Th1/Th2.

Treatment Summary

Asthma rates have doubled since 1980 and food allergy prevalence among children has increased by 50 percent since 1997(CDC). With these increases, we must look at the contributing environmental influences. If we understand the environmental impact, we can address these issues. Knowledge about the microbiome is increasing daily. It is critical to establish the microbiome in infancy and continue to foster its health. Adding probiotics, including soil based probiotics for diversity and durability in the intestine are critical for supporting the microbiome. Organic minimally processed foods given to children early in life along with fermented and cultured foods is essential. Minimizing antibiotic exposure is also beneficial.

Reducing toxic exposure is important for development of organ systems. Investigating all potential exposures in the home and workplace is important. Although exposure to dirt and playing outside should be fostered, children do not need constant hand sanitizer to remove all evidence of outside play. Many of these products contain triclosan which is an estrogen promotor on top of sanitizing effects. Nutritional support for the immune system can also play a beneficial role. Nutrients needed for a strong response to infections include zinc, selenium, Vitamin A, C, and D. Transfer factors are a protein released from Th 1 cells that decrease Th2 allergic responses. These proteins bound with RNA are similar to antibodies released by humoral cells. Balancing the immune system of a young child away from the initial Th2 dominant state at birth and towards a more normal Th1-Th2 balance will help decrease these allergic conditions in children.

About the author

Peter Kahler ND has over 25 years experience within the naturopathy and anti-ageing area. Peter currently owns and manages Oxford Naturopathics Anti-Ageing & Wellnesss Centre based out of Bullimba, Queensland.

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