Difference between revisions of "Role of Drugs in Behavioural Therapy"
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==Introduction== | ==Introduction== | ||
− | In most cases of [[Feline Problem Behaviour|feline | + | In most cases of [[Feline Problem Behaviour|feline behavioural problems]], environmental modification alone is enough to resolve the problem. [[Feline Fear and Stress|Anxiety, fear and stress]] can be treated effectively using conventional methods such as desensitisation and counter-conditioning, or by allowing the cat to perform avoidance behaviour. |
The basis of using psychoactive medication in the treatment of behavioural problems in cats is to alter emotional and behavioural responses to situations and events in order to promote adaptation. | The basis of using psychoactive medication in the treatment of behavioural problems in cats is to alter emotional and behavioural responses to situations and events in order to promote adaptation. | ||
For example: | For example: | ||
− | *Reducing anxiety so that the individual is less stressed, | + | *Reducing anxiety so that the individual is less stressed, more able to make better use of its environment and interact socially. |
*Reducing compulsive motivation so that the cat is able to perform a wider range of normally motivated behaviours. | *Reducing compulsive motivation so that the cat is able to perform a wider range of normally motivated behaviours. | ||
− | * | + | *To reduce impulsiveness. |
*Reduce specific fear, so that the cat is less avoidant of fearful stimuli and better able to become desensitised. | *Reduce specific fear, so that the cat is less avoidant of fearful stimuli and better able to become desensitised. | ||
Line 16: | Line 16: | ||
It must be remembered that all of the current psychoactive medications licensed for use in humans have been discovered using testing in animal models of anxiety, fear, phobia, compulsion etc. Almost all have been tested in small animal species that are kept as pets, particularly rodents and dogs. This does not mean that clinically effective doses are known for these species, or even that equivalent behaviour disorders are naturally occurring in them. However, it has provided support for the use of psychoactive medications in veterinary patients which has ultimately led to licensing of some products for veterinary use. | It must be remembered that all of the current psychoactive medications licensed for use in humans have been discovered using testing in animal models of anxiety, fear, phobia, compulsion etc. Almost all have been tested in small animal species that are kept as pets, particularly rodents and dogs. This does not mean that clinically effective doses are known for these species, or even that equivalent behaviour disorders are naturally occurring in them. However, it has provided support for the use of psychoactive medications in veterinary patients which has ultimately led to licensing of some products for veterinary use. | ||
− | Typical situations in which psychoactive medication can be a useful adjunct to behavioural modification techniques include: | + | '''Typical situations in which psychoactive medication can be a useful adjunct to behavioural modification techniques include:''' |
− | :*When fear or anxiety are very intense | + | :*When fear or anxiety are very intense and are interfering with learning and responses to behavioural therapy. |
− | |||
:*Where conditions eliciting fear or anxiety are unavoidable in normal life. | :*Where conditions eliciting fear or anxiety are unavoidable in normal life. | ||
− | :*Where | + | :*Where chronic anxiety or repeated fearful experiences are impairing the animal's welfare. |
− | *When the prognosis is likely to be improved | + | :*When the prognosis is likely to be improved by the use of medication. |
− | |||
:*Where distraction is difficult (e.g. severe stereotypy/compulsion). | :*Where distraction is difficult (e.g. severe stereotypy/compulsion). | ||
:*If speed of recovery is critical (threat of legal action, eviction etc). | :*If speed of recovery is critical (threat of legal action, eviction etc). | ||
+ | :*Where safety may be improved through the use of medication (e.g. reducing impulsiveness). | ||
− | When considering whether to incorporate psychoactive drugs into a treatment program for problem behaviour, there are several conditions which should be met: | + | '''When considering whether to incorporate psychoactive drugs into a treatment program for problem behaviour, there are several conditions which should be met:''' |
− | #A | + | #A diagnosis, and ruling out of other causative medical problems. |
#The clinician should have knowledge of the neurochemistry relating to the condition. | #The clinician should have knowledge of the neurochemistry relating to the condition. | ||
#The clinician should have an awareness of the supposed mechanism of action of the selected drug. | #The clinician should have an awareness of the supposed mechanism of action of the selected drug. | ||
− | #The clinician must have a clear understanding of any potential | + | #The clinician must have a clear understanding of any potential adverse effects, contraindications and drug interactions (which the owner should be informed about). |
− | #Both the clinician and owner need to have a clear idea of how the selected medication will change the | + | #Both the clinician and owner need to have a clear idea of how the selected medication will change the pattern of problematic behaviour. |
+ | #Confidence in the compliance of the client, especially with respect to management intended to prevent damage to people or property. | ||
− | These guidelines are important to ensure the correct use of drugs within the behavioural field as administration of medication is always long-term in comparison to most other drug use and they help the owner take-part in the process of evaluation as to the effectiveness of the drug prescribed <ref>Overall, K.L., 2004. Paradigms for pharmacologic use as a treatment component in feline behavioral medicine. Journal of Feline Medicine and Surgery 6, 29-42.</ref>. | + | These guidelines are important to ensure the correct use of drugs within the behavioural field, as administration of medication is always long-term in comparison to most other drug use and they help the owner take-part in the process of evaluation as to the effectiveness of the drug prescribed <ref>Overall, K.L., 2004. Paradigms for pharmacologic use as a treatment component in feline behavioral medicine. Journal of Feline Medicine and Surgery 6, 29-42.</ref>. |
− | |||
− | ==Combining | + | Before any drug is prescribed, a comprehensive behavioural and medical history should be compiled. In older animals, those suffering from cardiac or endocrine disorders as well animals which are already on treatments for any existing conditions, '''extreme care should be taken'''. All animals should undergo a complete physical examination as well as blood tests. For a cat, a complete blood count, serum biochemistry profile and urinalysis, ideally with culture and sensitivity form a complete laboratory work up <ref name="Overall" />. In addition in older cats thyroid levels should be tested, and if cardiac disease is a worry a lead II ECG should be performed to exclude the existence of cardiomyopathy. This also provides a baseline for cardiac side effects of medications to be measured against <ref>Nattal, S., Mittleman, M., 1984. Treatment of ventricular tachyarrhythmias resulting from amitriptyline toxicity in dogs. Journal of Pharmacology and Experimental Therapeutics 231, 430–435.</ref>. |
+ | |||
+ | ==Combining Behavioural Therapy with Medication== | ||
Depression, anxiety, fear and phobia may be associated with genuine long-term neurotransmitter and synaptic changes in the CNS, but these changes are reversible through new learning in combination with medication. | Depression, anxiety, fear and phobia may be associated with genuine long-term neurotransmitter and synaptic changes in the CNS, but these changes are reversible through new learning in combination with medication. | ||
− | An example of a typical approach to fear using behavioural modification | + | '''An example of a typical approach to fear using behavioural modification is:''' |
− | *Identify all fear provoking stimuli | + | *Identify all fear provoking stimuli. |
− | *Identify the threshold for the fear response (e.g. distance from target) | + | *Identify the threshold for the fear response (e.g. distance from target). |
*Establish a gradient of stimuli (distance, appearance of person etc). This should be used to understand approach-avoidance behaviour. | *Establish a gradient of stimuli (distance, appearance of person etc). This should be used to understand approach-avoidance behaviour. | ||
− | *Control the pet’s environment to reduce stress (prevent exposure in uncontrolled situations) | + | *Control the pet’s environment to reduce stress (prevent exposure in uncontrolled situations). |
*Desensitisation and counter-conditioning: desensitise using gradually increasing exposure to fear-eliciting stimulus at a level below which fear is evoked, use counter-conditioning to replace fear with another incompatible emotional response to the same stimulus. | *Desensitisation and counter-conditioning: desensitise using gradually increasing exposure to fear-eliciting stimulus at a level below which fear is evoked, use counter-conditioning to replace fear with another incompatible emotional response to the same stimulus. | ||
− | In such a case, medication that reduces the intensity of fear, and increases exploratory behaviour | + | In such a case, medication that reduces the intensity of fear, and increases exploratory behaviour can facilitate desensitisation and counter-conditioning. |
− | A similar approach is used for anxious behaviour: | + | '''A similar approach is used for anxious behaviour:''' |
*Identify contexts and situations that elicit anxiety. | *Identify contexts and situations that elicit anxiety. | ||
*Desensitise and counter-condition contexts and situations that elicit anxiety. | *Desensitise and counter-condition contexts and situations that elicit anxiety. | ||
− | In such a case, an anxiolytic medication, such as an SSRI drug, can be used to facilitate desensitisation and counter-conditioning. This will reduce hyper vigilance and arousal so that the cat settles more quickly in the environment. | + | In such a case, an anxiolytic medication, such as an [[Selective Serotonin Reuptake Inhibitors (Clomipramine, Fluoxetine)|SSRI]] drug, can be used to facilitate desensitisation and counter-conditioning. This will reduce hyper vigilance and arousal so that the cat settles more quickly in the environment. |
+ | |||
In the human behaviour field, psychoactive medication is extensively used in combination with cognitive and behavioural approaches to treat problems relating to fear, phobia and anxiety. In the veterinary behaviour field there are only a very few drugs which have been properly tested under controlled trials. For the majority of other medications there is minimal available data and information is extrapolated from use in the field of human psychiatry. When using drugs which are not licensed for veterinary use, it is important to consider that drug metabolism and effects vary between species. <ref name="Merck">Merck Veterinary Manual - [http://www.merckmanuals.com/vet/behavior.html Behaviour] (10th Edition) 2011 The Merck Publishing Group</ref>. | In the human behaviour field, psychoactive medication is extensively used in combination with cognitive and behavioural approaches to treat problems relating to fear, phobia and anxiety. In the veterinary behaviour field there are only a very few drugs which have been properly tested under controlled trials. For the majority of other medications there is minimal available data and information is extrapolated from use in the field of human psychiatry. When using drugs which are not licensed for veterinary use, it is important to consider that drug metabolism and effects vary between species. <ref name="Merck">Merck Veterinary Manual - [http://www.merckmanuals.com/vet/behavior.html Behaviour] (10th Edition) 2011 The Merck Publishing Group</ref>. | ||
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<references/> | <references/> | ||
+ | <br><br> | ||
+ | {{Jon Bowen reviewed | ||
+ | |date=September 2, 2014 | ||
+ | }} | ||
− | + | {{Ceva}} | |
+ | {{OpenPages}} | ||
[[Category:Pharmacological Approach to Problem Behaviour]] | [[Category:Pharmacological Approach to Problem Behaviour]] | ||
− |
Latest revision as of 09:47, 16 July 2015
Introduction
In most cases of feline behavioural problems, environmental modification alone is enough to resolve the problem. Anxiety, fear and stress can be treated effectively using conventional methods such as desensitisation and counter-conditioning, or by allowing the cat to perform avoidance behaviour.
The basis of using psychoactive medication in the treatment of behavioural problems in cats is to alter emotional and behavioural responses to situations and events in order to promote adaptation. For example:
- Reducing anxiety so that the individual is less stressed, more able to make better use of its environment and interact socially.
- Reducing compulsive motivation so that the cat is able to perform a wider range of normally motivated behaviours.
- To reduce impulsiveness.
- Reduce specific fear, so that the cat is less avoidant of fearful stimuli and better able to become desensitised.
These are generally the more severe cases in which the emotional state of an animal interferes with the implementation of behaviour modification and the use of medication can be justified [1].
Any underlying medical cause for problem behaviours should be ruled out before any pharmacological intervention[2].
Use of Drugs in Animals
It must be remembered that all of the current psychoactive medications licensed for use in humans have been discovered using testing in animal models of anxiety, fear, phobia, compulsion etc. Almost all have been tested in small animal species that are kept as pets, particularly rodents and dogs. This does not mean that clinically effective doses are known for these species, or even that equivalent behaviour disorders are naturally occurring in them. However, it has provided support for the use of psychoactive medications in veterinary patients which has ultimately led to licensing of some products for veterinary use.
Typical situations in which psychoactive medication can be a useful adjunct to behavioural modification techniques include:
- When fear or anxiety are very intense and are interfering with learning and responses to behavioural therapy.
- Where conditions eliciting fear or anxiety are unavoidable in normal life.
- Where chronic anxiety or repeated fearful experiences are impairing the animal's welfare.
- When the prognosis is likely to be improved by the use of medication.
- Where distraction is difficult (e.g. severe stereotypy/compulsion).
- If speed of recovery is critical (threat of legal action, eviction etc).
- Where safety may be improved through the use of medication (e.g. reducing impulsiveness).
When considering whether to incorporate psychoactive drugs into a treatment program for problem behaviour, there are several conditions which should be met:
- A diagnosis, and ruling out of other causative medical problems.
- The clinician should have knowledge of the neurochemistry relating to the condition.
- The clinician should have an awareness of the supposed mechanism of action of the selected drug.
- The clinician must have a clear understanding of any potential adverse effects, contraindications and drug interactions (which the owner should be informed about).
- Both the clinician and owner need to have a clear idea of how the selected medication will change the pattern of problematic behaviour.
- Confidence in the compliance of the client, especially with respect to management intended to prevent damage to people or property.
These guidelines are important to ensure the correct use of drugs within the behavioural field, as administration of medication is always long-term in comparison to most other drug use and they help the owner take-part in the process of evaluation as to the effectiveness of the drug prescribed [3].
Before any drug is prescribed, a comprehensive behavioural and medical history should be compiled. In older animals, those suffering from cardiac or endocrine disorders as well animals which are already on treatments for any existing conditions, extreme care should be taken. All animals should undergo a complete physical examination as well as blood tests. For a cat, a complete blood count, serum biochemistry profile and urinalysis, ideally with culture and sensitivity form a complete laboratory work up [2]. In addition in older cats thyroid levels should be tested, and if cardiac disease is a worry a lead II ECG should be performed to exclude the existence of cardiomyopathy. This also provides a baseline for cardiac side effects of medications to be measured against [4].
Combining Behavioural Therapy with Medication
Depression, anxiety, fear and phobia may be associated with genuine long-term neurotransmitter and synaptic changes in the CNS, but these changes are reversible through new learning in combination with medication.
An example of a typical approach to fear using behavioural modification is:
- Identify all fear provoking stimuli.
- Identify the threshold for the fear response (e.g. distance from target).
- Establish a gradient of stimuli (distance, appearance of person etc). This should be used to understand approach-avoidance behaviour.
- Control the pet’s environment to reduce stress (prevent exposure in uncontrolled situations).
- Desensitisation and counter-conditioning: desensitise using gradually increasing exposure to fear-eliciting stimulus at a level below which fear is evoked, use counter-conditioning to replace fear with another incompatible emotional response to the same stimulus.
In such a case, medication that reduces the intensity of fear, and increases exploratory behaviour can facilitate desensitisation and counter-conditioning.
A similar approach is used for anxious behaviour:
- Identify contexts and situations that elicit anxiety.
- Desensitise and counter-condition contexts and situations that elicit anxiety.
In such a case, an anxiolytic medication, such as an SSRI drug, can be used to facilitate desensitisation and counter-conditioning. This will reduce hyper vigilance and arousal so that the cat settles more quickly in the environment.
In the human behaviour field, psychoactive medication is extensively used in combination with cognitive and behavioural approaches to treat problems relating to fear, phobia and anxiety. In the veterinary behaviour field there are only a very few drugs which have been properly tested under controlled trials. For the majority of other medications there is minimal available data and information is extrapolated from use in the field of human psychiatry. When using drugs which are not licensed for veterinary use, it is important to consider that drug metabolism and effects vary between species. [5].
References
- ↑ Marder, A.R.; Posage, J.M. p160, Chapter 11, Treatment of Emotional Distress and Disorders - Pharmacological Methods: Mental Health and Well-Being in Animals. 2005 Blackwell Publishing
- ↑ 2.0 2.1 Overall, K.L., 2003. Medical differentials with potential behavioural manifestations. Veterinary Clinics of North America: Small Animal Practice 33, 213–229.
- ↑ Overall, K.L., 2004. Paradigms for pharmacologic use as a treatment component in feline behavioral medicine. Journal of Feline Medicine and Surgery 6, 29-42.
- ↑ Nattal, S., Mittleman, M., 1984. Treatment of ventricular tachyarrhythmias resulting from amitriptyline toxicity in dogs. Journal of Pharmacology and Experimental Therapeutics 231, 430–435.
- ↑ Merck Veterinary Manual - Behaviour (10th Edition) 2011 The Merck Publishing Group
This article has been expert reviewed by Jon Bowen BVetMed DipAS(CABC) MRCVS. Date reviewed: September 2, 2014 |
The creation of this content was made possible by Ceva Santé Animale as part of the feline behaviour project. |
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