Difference between revisions of "Seizures"
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#* Consists of transient neurological and behavious changes, which can last from hours to days. | #* Consists of transient neurological and behavious changes, which can last from hours to days. | ||
− | ==== | + | ====Idiopathic Epilepsy==== |
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+ | * Idiopathic epilepsy is a relatively common cause of generalised seizures in the dog. | ||
+ | ** NOT in the cat. | ||
+ | * The onset of seizures is between 1 and 5 years of age. | ||
+ | * The condition presents as recurrent, unprovoked seizures, with no specific cause. | ||
+ | * There are no neurological defects between episodes. | ||
+ | * Seizures tend to start as generalised seizures, with no aura. | ||
====Acquired Generalisd Seizures==== | ====Acquired Generalisd Seizures==== | ||
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|Lead, organophosphates, metaldehyde, strychnine | |Lead, organophosphates, metaldehyde, strychnine | ||
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==Investigation of Seizures== | ==Investigation of Seizures== | ||
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** Serum lead | ** Serum lead | ||
** MRI and CT scanning, and CSF analysis, help rule out cancer. | ** MRI and CT scanning, and CSF analysis, help rule out cancer. | ||
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[[Category:Central Nervous System - Pathology]] | [[Category:Central Nervous System - Pathology]] |
Revision as of 13:28, 8 March 2011
Introduction
- Seizures are paroxysmal changes in cerebral cortex electrical activity that start abruptly, end suddenly and have a tendency to recur.
- Epilepsy is the occurence of recurrent seizures.
Pathophysiology
- Seizures occur when there is imbalance between exitatory and inhibitory processes. This may be due to :
- Inadequate neuronal inhibition.
- Major inhibitory neurotransmitters include GABA and glycine.
- Excessive neuronal excitation.
- Major excitatory neurotransmitters include aspartate and glutamate.
- Inadequate neuronal inhibition.
Proposed Mechanisms
- Defective feed-forward inhibition or feed-back initiation of inhibitory neurons in cortical circuits.
- Recurrent excitatory collaterals may be formed.
- Changes in membrane properties of neurons.
- These may include changes at:
- Potassium, sodium, chloride and calcium ion channels
- GABA receptors
- Nicotinic acetyl choline receptors
- NMDA receptors
- Activation.
- These may include changes at:
- Changes in the ionic microenvironment.
Seizure Development
- At the onset of a seizure, abnormal neurons undergo prolonged depolarisations.
- These depolarisations are associated with the rapid firing of repeated action potentials.
- Depolarisation of abnormal neurons recruits adjacent neurons with which they are connected.
- The electrical discharges of the large number of neurons involved become linked together.
- A storm of electrical activity results, causing a clinical seizure.
- Seizures may then spread:
- To adjacent areas of the brain.
- Through established anatomic pathways to other distant areas.
Nomenclature
- Status epilepticus is the term used to describe
- A seizure lasting longer than 5 minutes, or
- A collection of discrete seizures without full recovery of consciousness.
- Cluster seizures occur when 2 or more seizures are experienced in a brief periods, but the patient regains consciousness between them.
- Three classes of seizures are recognised:
- Generalised seizures
- Focal seizures
- Focal generalising seizures
Generalised Seizures
- Generalised seizures may be:
- Idiopathic
- Symptomatic
- Due to intracranial disease e.g. neoplasia, storage diseases etc.
- Cryptogenic
- There is probably an underlying cause but it cannot be identified by the diagnostic tests available.
- Reactive
- Due to some extracranial disorder, for example a toxin or metabolic disorder.
Clinical Signs
- Initial clinical signs show involvement of both cerebral hemispheres.
- Generalised seizures result in:
- Change in consciousness
- Motor activity
- Tonic-clonic seizures are most common in dogs and cats.
- Autonomic signs
- The body's energy utilisation can increase to around 250% of the normal value during a generalised seizure.
Stages
- Prodromal Phase
- The animal experiences an indication of a forthcoming seizure.
- This occurs hours to days before the event itself.
- Aural Phase
- This is the very start of the seizure.
- Behaviour changes may be apparent.
- Ictal Phase
- The seizure "proper".
- Postictal phase
- Consists of transient neurological and behavious changes, which can last from hours to days.
Idiopathic Epilepsy
- Idiopathic epilepsy is a relatively common cause of generalised seizures in the dog.
- NOT in the cat.
- The onset of seizures is between 1 and 5 years of age.
- The condition presents as recurrent, unprovoked seizures, with no specific cause.
- There are no neurological defects between episodes.
- Seizures tend to start as generalised seizures, with no aura.
Acquired Generalisd Seizures
- Other general seizures may be acquired.
- Seizures can occur at any age, but generally occur in animals younger than 2 years and older than 5 years.
- Causes may include:
- Intracranial disease
- Neoplasia
- Trauma
- Infection
- Inflammation
- Extracranial disease (also known as "reactive epilpsy").
- Electolyte disorders
- Metabolic disorders
- Toxicity
- Intracranial disease
Focal Seizures
- Almost always an acquired disease.
- Active diseases often progress to become more general.
- Cause generalised seizures.
Simple Focal Seizures
- Onset occurs in a limited area of one cerebral hemisphere.
- No impairment of consciousness.
Complex Focal Seizures
- Arise in a single brain region, but cause impaired consciousness.
Causes of Acquired Seizures
Cause | Examples |
---|---|
Neoplasia | Primary or metastatic |
Inflammatory | Distemper, FIP, FeLV/FIV, rabies, cryptococcosis (cats), toxoplasmosis |
Traumatic | Immediate or delayed |
Vascular | Feline ischaemic encephalopathy, thromboembolism, hypertenstion |
Anomalous | Hydrocephalus |
Metabolic | Hepatic encephalopathy, uraemia, hyperparathyroidism, hypolycaemia, hyperkalaemia, hypocalcaemia, hypoxia, acid-base disorders, hyperthermia |
Toxic | Lead, organophosphates, metaldehyde, strychnine |
Investigation of Seizures
- It must first be determined whether seizure activity is in fact a seizure, rather than a non-epileptic paroxysmal event, for example:
- Syncope
- Exercise-induced weakness
- Obsessive-compulsive behaviour
- Narcolepsy
- Idiopathic epilepsy may be differentiated from secondary or reactive seizures by considering:
- Age of onset
- Breed disposition
- Partial seizures or asymmetrical post-ictal signs
- These suggest a discrete lesion.
- Older animals (>5 years) may be more likely to have an acquired aetiology.
- Younger animals (<6 months) may be more likely to have toxic or metabolic causes.
- Useful tests include:
- Metabolic screening
- Haematology
- Serum biochemistry
- Urinalysis
- Serology.
- Bile acid stimulation test
- Serum lead
- MRI and CT scanning, and CSF analysis, help rule out cancer.