Difference between revisions of "Anti-Protozoal Drugs"
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− | In the UK the major group of protozoa of significant economic importance are the [[coccidia]]. As such the pharmaceutical industry have spent a lot of money developing anti-coccidial drugs to ensure that production isn't affected. This group of drugs will be the | + | In the UK the major group of protozoa of significant economic importance are the [[coccidia]]. As such the pharmaceutical industry have spent a lot of money developing anti-coccidial drugs to ensure that production isn't affected. This group of drugs will be the many topic on this page but other groups of drugs that have anti-protozoal action will also be discussed. |
==Anti-Coccidial Agents== | ==Anti-Coccidial Agents== | ||
− | It must be remembered that very few drugs are | + | It must be remembered that very few drugs are liscensed to treat avain coccidiosis, '''toltazuril''' is one of the exceptions. The following drugs are thus used to prevent infections occuring. |
===Ionophores - Monensin, salinomycin, narasin=== | ===Ionophores - Monensin, salinomycin, narasin=== | ||
− | * The most popular drug group to treat | + | * The most popular drug group to treat avain coccidia, they have been developed from the fermentation products of ''Streptomyces'' moulds. |
* They work by allowing an influx of sodium ions into the sporozoite, this leads to a water influx. The sporozoite uses up all its energy trying to restore its ion and water balance, eventually structural damage occurs and the organism dies. | * They work by allowing an influx of sodium ions into the sporozoite, this leads to a water influx. The sporozoite uses up all its energy trying to restore its ion and water balance, eventually structural damage occurs and the organism dies. | ||
− | * They are particular useful for | + | * They are particular useful for avain coccidiosis because: |
− | ** They | + | ** They supress clinical and subclinical coccidia |
− | ** As the entire coccidia population | + | ** As the entire coccidia population isn't destroyed it always natural immunity to develop |
** They reduce oocyst build up in the litter | ** They reduce oocyst build up in the litter | ||
** They exert little selection pressure on the coccidia and so resistance develops slowly | ** They exert little selection pressure on the coccidia and so resistance develops slowly | ||
* Some of these drugs are '''highly toxic to horses, turkeys and gamebirds'''. | * Some of these drugs are '''highly toxic to horses, turkeys and gamebirds'''. | ||
+ | |||
===Other Agents=== | ===Other Agents=== | ||
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===Anticoccidial Programmes=== | ===Anticoccidial Programmes=== | ||
− | The aim of these programmes | + | The aim of these programmes are to ensure that the birds in question develop natural immunity, without their production being affected, whilst ensuring that resistance doesn't develop in the population. This means that continous use of the same drug can not be used. |
A '''shuttle programme''' is the alternative. This means that in a bird's growing period it experiences a number of different drugs in sequence. These programmes try to balance risk, productivity and cost. They are obviously very complex and only skilled specialists develop them for use on poultry farms. | A '''shuttle programme''' is the alternative. This means that in a bird's growing period it experiences a number of different drugs in sequence. These programmes try to balance risk, productivity and cost. They are obviously very complex and only skilled specialists develop them for use on poultry farms. | ||
+ | |||
==Other Anti-protozoal Drugs== | ==Other Anti-protozoal Drugs== | ||
− | * The antibiotic [[Macrolides and Lincosamides|clindamycin]] and atovaquone (no | + | * The antibiotic [[Macrolides and Lincosamides|clindamycin]] and atovaquone (no liscense for animals) are used in man to treat Babesia infections. |
* Complex chemotherapy protocols are used to treat Leishmania. | * Complex chemotherapy protocols are used to treat Leishmania. | ||
− | * [[Nitroimidazoles|Metronidazole]] is used to treat | + | * [[Nitroimidazoles|Metronidazole]] is used to treat Treponema hyodysenteriae, Trichomonas foetus, Histomonas and Giardia. |
* Fenbendazole is used to treat ''Encephalitozoon caniculi'' and Giardia. | * Fenbendazole is used to treat ''Encephalitozoon caniculi'' and Giardia. |
Revision as of 17:08, 30 October 2008
This article has been peer reviewed but is awaiting expert review. If you would like to help with this, please see more information about expert reviewing. |
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In the UK the major group of protozoa of significant economic importance are the coccidia. As such the pharmaceutical industry have spent a lot of money developing anti-coccidial drugs to ensure that production isn't affected. This group of drugs will be the many topic on this page but other groups of drugs that have anti-protozoal action will also be discussed.
Anti-Coccidial Agents
It must be remembered that very few drugs are liscensed to treat avain coccidiosis, toltazuril is one of the exceptions. The following drugs are thus used to prevent infections occuring.
Ionophores - Monensin, salinomycin, narasin
- The most popular drug group to treat avain coccidia, they have been developed from the fermentation products of Streptomyces moulds.
- They work by allowing an influx of sodium ions into the sporozoite, this leads to a water influx. The sporozoite uses up all its energy trying to restore its ion and water balance, eventually structural damage occurs and the organism dies.
- They are particular useful for avain coccidiosis because:
- They supress clinical and subclinical coccidia
- As the entire coccidia population isn't destroyed it always natural immunity to develop
- They reduce oocyst build up in the litter
- They exert little selection pressure on the coccidia and so resistance develops slowly
- Some of these drugs are highly toxic to horses, turkeys and gamebirds.
Other Agents
Numerous chemicals have anticoccidial activity; they include nicarbazin, decoquinate, robenidine, diclazuril, clopidol and halofuginone. All these drugs will either kill the coccidia or stop it from reproducing. These drugs must therfore be used with care as they have a high selection pressure on the parasites, which can result in resistance. For that reason a lot of these drugs are only liscensed in combination therapy.
Anticoccidial Programmes
The aim of these programmes are to ensure that the birds in question develop natural immunity, without their production being affected, whilst ensuring that resistance doesn't develop in the population. This means that continous use of the same drug can not be used.
A shuttle programme is the alternative. This means that in a bird's growing period it experiences a number of different drugs in sequence. These programmes try to balance risk, productivity and cost. They are obviously very complex and only skilled specialists develop them for use on poultry farms.
Other Anti-protozoal Drugs
- The antibiotic clindamycin and atovaquone (no liscense for animals) are used in man to treat Babesia infections.
- Complex chemotherapy protocols are used to treat Leishmania.
- Metronidazole is used to treat Treponema hyodysenteriae, Trichomonas foetus, Histomonas and Giardia.
- Fenbendazole is used to treat Encephalitozoon caniculi and Giardia.