Difference between revisions of "Ectoparasiticides"
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These are chemicals used to treat and control parasites that reside on, or in, the skin and coat of animals. They are a diverse set of products that can be applied in various ways. Some important terms must be discussed first before mentioning how each drug works. | These are chemicals used to treat and control parasites that reside on, or in, the skin and coat of animals. They are a diverse set of products that can be applied in various ways. Some important terms must be discussed first before mentioning how each drug works. | ||
'''Insecticides''' kill [[Insecta|insects]], whilst '''acaricides''' kill [[Arachnida|mites and ticks]]. | '''Insecticides''' kill [[Insecta|insects]], whilst '''acaricides''' kill [[Arachnida|mites and ticks]]. | ||
− | '''Endectocides''' are active against both endo and ectoparasites. This are discussed on the | + | '''Endectocides''' are active against both endo and ectoparasites. This are discussed on the antihelmintic pages. |
'''Insect Growth Regulators''' don't kill adult stages but are able to prevent hatching, larval development or metamorphosis. | '''Insect Growth Regulators''' don't kill adult stages but are able to prevent hatching, larval development or metamorphosis. | ||
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==Modes of Action== | ==Modes of Action== | ||
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These drugs mainly act on the parasites nervous system and neuromuscular junction. They are selectively toxic by having a greater affinity for the parasite receptor than the animal receptor. They can either by '''contact posions''' - arbsorbed through the parasites exoskeleton, or are '''stomach poisons''' - they are absorbed through the parasites stomach and so the parasite must bite to be affected. Thus the stomach poisons are usually given systemically to the host animal. | These drugs mainly act on the parasites nervous system and neuromuscular junction. They are selectively toxic by having a greater affinity for the parasite receptor than the animal receptor. They can either by '''contact posions''' - arbsorbed through the parasites exoskeleton, or are '''stomach poisons''' - they are absorbed through the parasites stomach and so the parasite must bite to be affected. Thus the stomach poisons are usually given systemically to the host animal. | ||
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===Insecticides=== | ===Insecticides=== | ||
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'''Synthetic Pyrethroids - Cypermethrin, Deltamethrin''' | '''Synthetic Pyrethroids - Cypermethrin, Deltamethrin''' | ||
* Many products and are in widespread use. | * Many products and are in widespread use. | ||
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* In high concentrations these products can cause adverse reactions in cats and dogs. | * In high concentrations these products can cause adverse reactions in cats and dogs. | ||
* '''Piperonyl butoxide''' is a syngeristic product that is often put in formulations to potentiate the action of the pyrethroids. | * '''Piperonyl butoxide''' is a syngeristic product that is often put in formulations to potentiate the action of the pyrethroids. | ||
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'''Semicarbazones - Metaflumizone''' | '''Semicarbazones - Metaflumizone''' | ||
* A new group of insecticides | * A new group of insecticides | ||
− | * They work | + | * They work be blocking sodium ion channels in the axonal membrane of nerves, this prevents the propagation of nerve impulses leading to paralysis of the insect and hence death. |
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'''Organophosphates and Carbamates - Diazinon, Dichlorvos''' | '''Organophosphates and Carbamates - Diazinon, Dichlorvos''' | ||
* Their use has been limited of late as they are potentially neurotoxic to animals and man, and can cause environmental damage. | * Their use has been limited of late as they are potentially neurotoxic to animals and man, and can cause environmental damage. | ||
* They are anticholinesterases and so resukt in the build up of acetylcholine in the parasites's synapses, leading to paralysis and death. | * They are anticholinesterases and so resukt in the build up of acetylcholine in the parasites's synapses, leading to paralysis and death. | ||
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'''Neonicotinoids - Imidacloprid, Nitenpyram''' | '''Neonicotinoids - Imidacloprid, Nitenpyram''' | ||
* These are mainly used for pest control in crop protection schemes. The above two drugs though are both currently used for flea control. | * These are mainly used for pest control in crop protection schemes. The above two drugs though are both currently used for flea control. | ||
* They work by stimulating and then blocking post-synaptic nicotinic acetylcholine receptors which leads to paralysis and death. | * They work by stimulating and then blocking post-synaptic nicotinic acetylcholine receptors which leads to paralysis and death. | ||
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'''Phenylpyrazoles - Fipronil, Pyripole''' | '''Phenylpyrazoles - Fipronil, Pyripole''' | ||
* These are used for flea control and work by blocking GABA transmitted impulses, thus blocking the influx of chlorine ione into nerve cells. | * These are used for flea control and work by blocking GABA transmitted impulses, thus blocking the influx of chlorine ione into nerve cells. | ||
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'''Macrocyclic Lactones - avermectins and milbemycins''' | '''Macrocyclic Lactones - avermectins and milbemycins''' | ||
* These are endectocides are will be discussed in full on the anti-helminth pages. | * These are endectocides are will be discussed in full on the anti-helminth pages. | ||
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'''Amidines - Amitraz''' | '''Amidines - Amitraz''' | ||
* This has limited action in veterinary medicine. | * This has limited action in veterinary medicine. | ||
* It works by acting on octoparamine receptor sites, these are within parasite muscles, resulting in increased nervous activity, spasming and death. | * It works by acting on octoparamine receptor sites, these are within parasite muscles, resulting in increased nervous activity, spasming and death. | ||
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===Inert Inorganics=== | ===Inert Inorganics=== | ||
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These are inert substances, often powder, that are used to treat the environment in a properly managed flea control scheme. They work by dessication of the flea eggs or by clogging their spiracles. An example is '''Sodium polyborate'''. | These are inert substances, often powder, that are used to treat the environment in a properly managed flea control scheme. They work by dessication of the flea eggs or by clogging their spiracles. An example is '''Sodium polyborate'''. | ||
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===Insect Growth Regulators=== | ===Insect Growth Regulators=== | ||
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'''Insect juvenile hormone analogues - methoprene, pyriproxyfen''' | '''Insect juvenile hormone analogues - methoprene, pyriproxyfen''' | ||
− | These work by blocking receptor sites for insect juvenile hormone. This stops the juvenile insect from continuing along it's natural | + | These work by blocking receptor sites for insect juvenile hormone. This stops the juvenile insect from continuing along it's natural form of devlopment and never reaching adult status. |
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'''Chitin Inhibitors - Cyromazine, dicyclanil, lufenuron''' | '''Chitin Inhibitors - Cyromazine, dicyclanil, lufenuron''' | ||
These likewise block insect development by preventing the insect access to chitin, one of the key components to an adult insect's exoskeleton. | These likewise block insect development by preventing the insect access to chitin, one of the key components to an adult insect's exoskeleton. | ||
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==Points to Consider When Choosing an Ectoparasiticide== | ==Points to Consider When Choosing an Ectoparasiticide== | ||
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When choosing an ectoparasiticide treatment for a particular animal it is always key to have in mind what animal you are dealing with, what is the main parasite problem, what sort of environment does the animal reside in and how much owner compliance do you think there will be. It is also important to understand the following properties of your drug options: | When choosing an ectoparasiticide treatment for a particular animal it is always key to have in mind what animal you are dealing with, what is the main parasite problem, what sort of environment does the animal reside in and how much owner compliance do you think there will be. It is also important to understand the following properties of your drug options: | ||
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Revision as of 13:35, 30 October 2008
This article is still under construction. |
|
These are chemicals used to treat and control parasites that reside on, or in, the skin and coat of animals. They are a diverse set of products that can be applied in various ways. Some important terms must be discussed first before mentioning how each drug works.
Insecticides kill insects, whilst acaricides kill mites and ticks.
Endectocides are active against both endo and ectoparasites. This are discussed on the antihelmintic pages.
Insect Growth Regulators don't kill adult stages but are able to prevent hatching, larval development or metamorphosis.
Modes of Action
These drugs mainly act on the parasites nervous system and neuromuscular junction. They are selectively toxic by having a greater affinity for the parasite receptor than the animal receptor. They can either by contact posions - arbsorbed through the parasites exoskeleton, or are stomach poisons - they are absorbed through the parasites stomach and so the parasite must bite to be affected. Thus the stomach poisons are usually given systemically to the host animal.
Insecticides
Synthetic Pyrethroids - Cypermethrin, Deltamethrin
- Many products and are in widespread use.
- They increase the permeability of neuronal membranes to sodium ions. This makes the membrane hyperxcitable leading to convulsions and death.
- In high concentrations these products can cause adverse reactions in cats and dogs.
- Piperonyl butoxide is a syngeristic product that is often put in formulations to potentiate the action of the pyrethroids.
Semicarbazones - Metaflumizone
- A new group of insecticides
- They work be blocking sodium ion channels in the axonal membrane of nerves, this prevents the propagation of nerve impulses leading to paralysis of the insect and hence death.
Organophosphates and Carbamates - Diazinon, Dichlorvos
- Their use has been limited of late as they are potentially neurotoxic to animals and man, and can cause environmental damage.
- They are anticholinesterases and so resukt in the build up of acetylcholine in the parasites's synapses, leading to paralysis and death.
Neonicotinoids - Imidacloprid, Nitenpyram
- These are mainly used for pest control in crop protection schemes. The above two drugs though are both currently used for flea control.
- They work by stimulating and then blocking post-synaptic nicotinic acetylcholine receptors which leads to paralysis and death.
Phenylpyrazoles - Fipronil, Pyripole
- These are used for flea control and work by blocking GABA transmitted impulses, thus blocking the influx of chlorine ione into nerve cells.
Macrocyclic Lactones - avermectins and milbemycins
- These are endectocides are will be discussed in full on the anti-helminth pages.
Amidines - Amitraz
- This has limited action in veterinary medicine.
- It works by acting on octoparamine receptor sites, these are within parasite muscles, resulting in increased nervous activity, spasming and death.
Inert Inorganics
These are inert substances, often powder, that are used to treat the environment in a properly managed flea control scheme. They work by dessication of the flea eggs or by clogging their spiracles. An example is Sodium polyborate.
Insect Growth Regulators
Insect juvenile hormone analogues - methoprene, pyriproxyfen These work by blocking receptor sites for insect juvenile hormone. This stops the juvenile insect from continuing along it's natural form of devlopment and never reaching adult status.
Chitin Inhibitors - Cyromazine, dicyclanil, lufenuron
These likewise block insect development by preventing the insect access to chitin, one of the key components to an adult insect's exoskeleton.
Points to Consider When Choosing an Ectoparasiticide
When choosing an ectoparasiticide treatment for a particular animal it is always key to have in mind what animal you are dealing with, what is the main parasite problem, what sort of environment does the animal reside in and how much owner compliance do you think there will be. It is also important to understand the following properties of your drug options: