Toxoid: Difference between revisions
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''' | == Toxoid == | ||
[[File:Ruby_Hirose_at_the_William_S._Merrell_Laboratories.jpg|thumb|Ruby Hirose, a notable researcher in the development of toxoids.]] | |||
[[File:Diphtheria_is_Deadly_Art.IWMPST14182.jpg|thumb|A historical poster warning about the dangers of diphtheria.]] | |||
[[File:US_Navy_110827-N-KA543-005_Hospital_Corpsman_2nd_Class_Chris_Dunbar,_assigned_to_Naval_Medical_Center_San_Diego,_gives_a_patient_a_tetanus,_diphthe.jpg|thumb|A U.S. Navy hospital corpsman administering a tetanus and diphtheria vaccine.]] | |||
A '''toxoid''' is a bacterial [[toxin]] (usually an [[exotoxin]]) whose toxicity has been inactivated or suppressed either by chemical (formalin) or heat treatment, while other properties, typically [[immunogenicity]], are maintained. Toxoids are used in [[vaccines]] as they can induce an immune response to the original toxin without causing disease. | |||
== History == | == History == | ||
The concept of toxoids was first | The concept of toxoids was first developed in the early 20th century. The pioneering work of researchers such as [[Gaston Ramon]] and [[Alexander Glenny]] led to the creation of the first toxoid vaccines. These vaccines were instrumental in combating diseases like [[diphtheria]] and [[tetanus]]. | ||
== Production == | == Production == | ||
Toxoids are produced by treating toxins with | Toxoids are produced by treating toxins with formaldehyde or heat, which renders them non-toxic. This process preserves the antigenic properties of the toxin, allowing the immune system to recognize and respond to it. The resulting toxoid can then be used in vaccines to safely elicit an immune response. | ||
== | == Uses == | ||
Toxoid vaccines are used to protect against diseases caused by toxin-producing bacteria. The most common toxoid vaccines are the [[diphtheria]] and [[tetanus]] vaccines, often combined with the [[pertussis]] vaccine in the DTaP vaccine. These vaccines have significantly reduced the incidence of these diseases worldwide. | |||
== | == Mechanism of Action == | ||
When a toxoid vaccine is administered, the immune system recognizes the toxoid as a foreign substance and mounts an immune response. This response includes the production of [[antibodies]] that can neutralize the toxin if the individual is exposed to the actual pathogen in the future. | |||
== | == Safety == | ||
Toxoid vaccines are generally safe and well-tolerated. Side effects are usually mild and may include redness or swelling at the injection site. Serious adverse reactions are rare. | |||
== Related pages == | |||
* [[Vaccine]] | * [[Vaccine]] | ||
* [[ | * [[Diphtheria]] | ||
* [[ | * [[Tetanus]] | ||
* [[ | * [[Immunology]] | ||
== References == | == References == | ||
* Plotkin, S. A., Orenstein, W. A., & Offit, P. A. (Eds.). (2012). ''Vaccines''. Elsevier Health Sciences. | |||
* Rappuoli, R., & Aderem, A. (2011). A 2020 vision for vaccines against HIV, tuberculosis and malaria. ''Nature'', 473(7348), 463-469. | |||
{{DEFAULTSORT:Toxoid}} | |||
[[Category:Vaccines]] | |||
[[Category:Immunology]] | [[Category:Immunology]] | ||
Revision as of 23:44, 9 February 2025
Toxoid
A toxoid is a bacterial toxin (usually an exotoxin) whose toxicity has been inactivated or suppressed either by chemical (formalin) or heat treatment, while other properties, typically immunogenicity, are maintained. Toxoids are used in vaccines as they can induce an immune response to the original toxin without causing disease.
History
The concept of toxoids was first developed in the early 20th century. The pioneering work of researchers such as Gaston Ramon and Alexander Glenny led to the creation of the first toxoid vaccines. These vaccines were instrumental in combating diseases like diphtheria and tetanus.
Production
Toxoids are produced by treating toxins with formaldehyde or heat, which renders them non-toxic. This process preserves the antigenic properties of the toxin, allowing the immune system to recognize and respond to it. The resulting toxoid can then be used in vaccines to safely elicit an immune response.
Uses
Toxoid vaccines are used to protect against diseases caused by toxin-producing bacteria. The most common toxoid vaccines are the diphtheria and tetanus vaccines, often combined with the pertussis vaccine in the DTaP vaccine. These vaccines have significantly reduced the incidence of these diseases worldwide.
Mechanism of Action
When a toxoid vaccine is administered, the immune system recognizes the toxoid as a foreign substance and mounts an immune response. This response includes the production of antibodies that can neutralize the toxin if the individual is exposed to the actual pathogen in the future.
Safety
Toxoid vaccines are generally safe and well-tolerated. Side effects are usually mild and may include redness or swelling at the injection site. Serious adverse reactions are rare.
Related pages
References
- Plotkin, S. A., Orenstein, W. A., & Offit, P. A. (Eds.). (2012). Vaccines. Elsevier Health Sciences.
- Rappuoli, R., & Aderem, A. (2011). A 2020 vision for vaccines against HIV, tuberculosis and malaria. Nature, 473(7348), 463-469.
