Bio Neutralization
• Organism Immunity
ASHKM researchers (Innovators), innovated a way of boosting organism immunity through precision nutrition with bioactive supplements involves using specific nutrients that have a beneficial impact on the immune system. Bioactive supplements can include a range of substances such as peptides, vitamins, minerals, and herbal extracts that have been shown to have immunomodulatory effects.
Precision nutrition with bioactive supplements is an innovative approach to enhancing the immune system’s function by providing specific nutrients that have a beneficial impact on immune health. This method involves the use of bioactive compounds, which are components in foods that have health benefits beyond basic nutrition.
Certain micronutrients and fatty acids are critical in precision nutrition strategies, as they play a role in modulating the immune response and maintaining overall health. The goal of precision nutrition is to tailor nutrient intake to individual needs, taking into account a person’s genetics, microbiome composition, and lifestyle. This personalized approach can help optimize immune function and potentially reduce the risk of infections and chronic diseases.
It's crucial to consult with a healthcare provider of ASHKM before starting any new supplement regimen, especially if you have underlying health conditions or are taking other medications.
Moreover, Immunity, in the context of an organism, refers to the ability to resist or defend against harmful agents such as pathogens and diseases. It can be broken down into two main types:
1. Innate Immunity: This is the first line of defense and is present at birth. It’s a non-specific type of immunity that does not adapt to specific threats but relies on general mechanisms to protect the body, such as physical barriers (like skin), inflammatory responses, and phagocytosis.
2. Adaptive Immunity: Also known as acquired immunity, this type develops after exposure to specific pathogens. It’s characterized by the ability to remember past infections, which allows the immune system to respond more rapidly and effectively upon subsequent exposures to the same pathogen.
This type of immunity can be further divided into:
• Active Immunity: Generated by an immune response due to exposure to a pathogen or by vaccination.
• Passive Immunity: Acquired through the transfer of antibodies, either from mother to child during pregnancy and breastfeeding or through the injection of antibodies.
Both innate and adaptive immunity work together to protect the organism from infections and maintain overall health. The immune system is complex and involves a network of cells, tissues, and organs that collectively defend the body against various threats.
Vaccinations work by training the immune system to recognize and combat pathogens, such as bacteria or viruses, without causing the disease itself.
A simplified explanation of how vaccines function:
1. Introduction of Antigens: Vaccines contain weakened or inactive parts of a particular organism (antigen) that triggers an immune response within the body. Some newer vaccines contain the blueprint for producing antigens rather than the antigen itself.
2. Immune Response: Once introduced, these antigens (or the antigens produced from the blueprints) are recognized as foreign by the body’s immune system, even though they are too weak to cause disease.
3. Antibody Production: The immune system then produces antibodies against these antigens. These antibodies are like soldiers trained to recognize and fight off the specific pathogens.
4. Memory Cell Formation: After the immune response, the body also creates memory cells. These cells remain in the body long after the vaccination and are ready to respond quickly if the body encounters the same pathogen again in the future.
5. Rapid Secondary Response: If the vaccinated individual is later exposed to the disease-causing organism, the immune system can quickly produce antibodies, thanks to the memory cells, and protect against the disease.
In essence, vaccines mimic a natural infection and allow the immune system to develop a memory of the pathogen. As a result, the body can respond more efficiently to future exposures, providing protection against the actual disease.