Immunoglobulin
Other names
beef immunoglobulin isolate
bovine-derived immunoglobulin concentrate
bovine immunoglobulin
bovine immunoglobulins
gamma globulin plus
ig
iga
igd
ige
igg
igg 2000 cwp
igg 2000 cwp(tm)
igg 2000 df(tm)
igm
immunoglobulin
immunoglobulin a
immunoglobulin concentrate
immunoglobulin fractions
immunoglobulin g
immunoglobulin g1 + g2
immunoglobulin m
immunoglobulin protein concentrate
immunoglobulin protein isolate
immunoglobulin proteins
immunoglobulins
immunoglobulins g
immunolin
immunolin(r)
lgg
naturally occurring immunoglobulins
natural occurring immunoglobulins
other immunoglobulins
secretory iga
serum-derived immunoglobulin concentrate
Synopsis
History
Immunoglobulin, commonly known as antibodies, has a remarkable legacy in the field of medicine and nutrition. Historically, immunoglobulin was first recognized for its crucial role in the immune response—identifying and neutralizing harmful pathogens such as bacteria and viruses. Its medicinal use dates back to the early 20th century, when serum therapy was developed to treat infectious diseases. Physicians would administer serum rich in immunoglobulins, derived from the blood of immune individuals or animals, to patients suffering from conditions like diphtheria, tetanus, and later, hepatitis. These antibody-rich preparations provided passive immunity, significantly improving survival rates and paving the way for modern immunotherapy.
In nutritional products, immunoglobulin is often sourced from colostrum or bovine serum and added to supplements designed to support gut health and immunity. Its ability to bind toxins and pathogens in the digestive tract makes it a valuable ingredient for maintaining intestinal balance and enhancing the body's natural defenses.
While immunoglobulin itself is not an herb, it has been thoughtfully combined with herbal extracts in advanced formulations. For example, blends with echinacea, elderberry, or astragalus are popular in immune-support supplements. These combinations harness the unique benefits of both immunoglobulin and immune-boosting herbs, offering a holistic approach to wellness. Such synergies not only amplify the body’s resistance against infections but also support recovery and overall vitality. Across decades, immunoglobulin has proven to be a safe and effective tool in both traditional and contemporary remedies, making it a valuable ally in human health.
Traditional and scientific validation
Immunoglobulin, also known as antibody, is a protein naturally produced by the immune system to identify and neutralize pathogens such as bacteria and viruses. In nutritional products, particularly those derived from bovine colostrum or plasma, immunoglobulin is included for its potential immune-boosting properties. Historically, the use of animal-derived immunoglobulins can be traced back to early 20th-century medical interventions, where serum therapy was employed to treat infectious diseases before the advent of antibiotics.
Scientific interest in immunoglobulin supplementation has grown over recent decades. Several clinical studies have explored its effectiveness, especially in populations with compromised immunity or gastrointestinal disturbances. For instance, some research suggests that oral immunoglobulin supplements may help decrease the incidence and severity of diarrhea in children and immunocompromised patients, as they can bind and neutralize pathogens in the gut. Additionally, animal studies and limited human trials have indicated that immunoglobulin-enriched nutritional formulas may support gut barrier function and modulate immune responses.
Despite these promising findings, the scientific community acknowledges that more robust, large-scale clinical studies are necessary to conclusively establish the efficacy of immunoglobulin supplementation in healthy populations. Regulatory authorities generally recognize immunoglobulins as safe when used appropriately in foods. Their inclusion in nutritional products remains a proactive strategy for potentially supporting immune health, particularly where conventional immune function may be compromised. Continued research will further clarify their specific benefits and optimal applications in nutrition.
Uses: Health Conditions
Autoimmune Disorders (Scientific)
Blood Poisoning (Scientific)
Cancer Treatment (reducing side effects) (Scientific)
Chemotherapy (reducing side effects) (Scientific)
Contagious Diseases (Scientific)
Hepatitis (Scientific)
Infection (Scientific)
Infection (bacterial) (Scientific)
Infection (viral) (Scientific)
Inflammation (Scientific)
Influenza (Scientific)
Lupus (Scientific)
Lymphoma (Scientific)
Meningitis (Scientific)
Myasthenia Gravis (Scientific)
Pneumonia (Scientific)
Staph Infections (Scientific)
Wounds and Sores (Scientific)
Body Systems
Blood (Scientific)
Digestive System (Scientific)
Gastrointestinal Tract (Scientific)
Immune System (Scientific)
Intestinal System (Scientific)
Lymphatics (Scientific)
Peyer’s patches (Scientific)