出典(authority):フリー百科事典『ウィキペディア(Wikipedia)』「2016/07/10 02:17:02」(JST)
Temporal lobe epilepsy (TLE) | |
---|---|
Lobes of the brain, temporal lobe in pink
|
|
Classification and external resources | |
Specialty | neurology |
ICD-10 | G40.1-G40.2 |
ICD-9-CM | 345.4 |
DiseasesDB | 29433 |
MedlinePlus | 001399 |
eMedicine | neuro/365 |
Patient UK | Temporal lobe epilepsy |
MeSH | D004833 |
[edit on Wikidata]
|
This article is written like a manual or guidebook. Please help rewrite this article from a descriptive, neutral point of view, and remove advice or instruction. (August 2015) (Learn how and when to remove this template message) |
Temporal lobe epilepsy is a chronic neurological condition characterized by recurrent, unprovoked epileptic seizures (epilepsy) which originate in the temporal lobe of the brain. The seizures involve sensory changes; for example, smelling an unusual odor that is not there like the smell of burning electrical wires (an olfactory illusion), or a strong deja vu event concurring with intense fear. These last less than one minute usually unless they progress into generalized seizures or grand mal. Treatment is through medication or surgery and prognosis is variable.
Over forty types of epilepsy are recognized and these are divided into two main seizures: Partial seizures and generalized seizures. Partial seizures account for approximately sixty percent of all adult cases.[1] Temporal lobe epilepsy (TLE) is the single most common form of partial seizure.[2]
The International League Against Epilepsy (ILAE) recognizes two main types of temporal lobe epilepsy: mesial temporal lobe epilepsy (MTLE), arising in the hippocampus, the parahippocampal gyrus and the amygdala which are located in the inner (medial) aspect of the temporal lobe and lateral temporal lobe epilepsy (LTLE), the rarer type, arising in the neocortex at the outer (lateral) surface of the temporal lobe.[1] The seizures of LTLE are characterized by auditory or visual features. Autosomal dominant Lateral Temporal Lobe Epilepsy (ADLTLE) is a rare hereditary condition.
In 2013, the ILAE published a new classification of MTLE based on abnormalities (hippocampal sclerosis) found at the microscopic level in the tissue of the hippocampus.[3] However, the pathology changes used in the classification cannot easily be predicted by clinical features.[4]
When a seizure begins in the temporal lobe, its symptoms and the patient's behavior as seen by bystanders, depend on the precise location of its point of origin, its locus. In 1981, the ILAE recognized three types of seizures occurring in temporal lobe epilepsy. The classification was based on EEG findings.[5]
Simple partial seizures (SPS) involve small areas of the temporal lobe such as the amygdala and hippocampus. The term "simple" means that the level of consciousness of the patient is not altered during the seizure. In temporal lobe epilepsy, a simple partial seizure usually causes abnormal sensations only.
These may be mnestic sensations such as déjà vu (a feeling of familiarity), jamais vu (a feeling of unfamiliarity); amnesia; or a single memory or set of memories; auditory (an abnormal sound or tune); gustatory (an abnormal taste); olfactory (a smell that is not physically present); visual; or sensory (involving feelings on the skin or in the internal organs) sensations. Sensory disturbances may seem to move over the body. Synesthesia (stimulation of one sense experienced in a second sense) may transpire.[6] Dysphoric or euphoric feelings, fear, anger, and other emotions may also occur. Often, the patient cannot describe the sensations.
Simple partial seizures may be called "auras" by lay people who mistake them for a warning sign of a subsequent seizure. Instead, the so-called aura is actually the partial seizure itself. People who only experience simple partial seizures may not recognize what they are, nor seek medical advice about them.
A simple partial seizure may or may not progress to any of the seizure types listed below.[7]
Complex partial seizures (CPS) are seizures which impair consciousness to some extent: they alter the person's ability to interact normally with their environment. They usually begin with a single partial seizure, then spread to a larger portion of the temporal lobe, resulting in impaired consciousness. Signs may include motionless staring, automatic movements of the hands or mouth, altered ability to respond to others, unusual speech, or other unusual behaviors.[8]
These seizures tend to have a warning or aura before they occur, and when they occur they generally tend to last only 1–2 minutes. It is not uncommon for an individual to be tired or confused for up to 15 minutes after a seizure has occurred. Though they may not seem harmful, due to the fact that the individual does not normally seize, they can be extremely harmful if the individual is left alone around dangerous objects. For example, if a person with complex partial seizures is driving alone, this can cause them to run into the ditch, or worse cause an accident involving multiple people. With this type, some people do not even realize they are having a seizure and most of the time their memory from right before or after the seizure is wiped. First-aid is only required if there has been an injury or if this is the first time a person has had a seizure.
Seizures which begin in the temporal lobe, and then spread to involve the whole brain are known as Secondarily Generalized Tonic-Clonic Seizures (SGTCS). The arms, trunk, and legs stiffen (the tonic phase), in either a flexed or extended position, and then jerk (the clonic phase). Secondarily generalized tonic clonic seizures are known in the vernacular as convulsions or grand mal seizures.[8] The word grand mal comes from the French term, meaning major affliction.
There is some period of recovery in which neurological function is altered after each of these seizure types. This is the postictal state. The degree and length of postictal impairment directly correlates with the severity of the seizure type. Simple partial seizures often last less than sixty seconds; complex partial seizures may last up to two minutes; and generalized tonic clonic seizures may last up to three minutes.[citation needed] The postictal state in the case of complex partial seizures and generalised tonic clonic seizures, the postictal state may last much longer than the seizure itself.
Because a major function of the temporal lobe is short-term memory, complex partial seizures and generalised tonic clonic seizures may cause amnesia for the period of the seizure. As a result, patients with temporal lobe complex partial seizures and generalised tonic clonic seizures may not remember having had a seizure.
Investigations which examine cerebral blood flow show a reduction in the perfusion of the ipsilateral temporal lobe between seizures in patients with intractable TLE. These investigations include H(2)(15)O positron emission tomography (PET) scanning and pulsed arterial spin labeling MR imaging.[9]
The causes of TLE include mesial temporal sclerosis, traumatic brain injury, brain infections, such as encephalitis and meningitis, hypoxic brain injury, stroke, cerebral tumours, and genetic syndromes. Temporal lobe epilepsy is not the result of mental health disorders or fragility of the personality.[8]
Although the theory is controversial, there is a link between febrile seizures (seizures coinciding with episodes of fever in young children) and subsequent temporal lobe epilepsy, at least epidemiologically.[10][11][12][13]
In the mid 1980s, human herpesvirus 6 (HHV-6) was suggested as a possible causal link between febrile convulsions and mesial temporal lobe epilepsy. However, although the virus is found in temporal lobe tissue at surgery for TLE, it has not been recognised as a major factor in febrile seizures or TLE.[14][15][16]
Dispersion of the granule cell layer in the hippocampal dentate gyrus is occasionally seen in temporal lobe epilepsy and has been linked to the downregulation of reelin, a protein that normally keeps the layer compact by containing neuronal migration. It is unknown whether changes in reelin expression play a role in epilepsy.[17][18]
In TLE, there is loss of neurons in region CA1 and CA3 of the hippocampus.[19][20] There is also damage to mossy cells and inhibitory interneurons in the hilar region of the hippocampus (region IV) and to the granule cells of the dentate gyrus. In animal models, neuronal loss occurs during seizures but in humans, neuronal loss predates the first seizure and does not necessarily continue with seizure activity.[21][22][23][24][25] The loss of the GABA-mediated inhibitory interneurons may increase the hyperexcitability of neurons of the hippocampus leading to recurrent seizures.[26] According to the "dormant basket cell" hypothesis, mossy cells normally excite basket cells which in turn, inhibit granule cells. Loss of mossy cells lowers the threshold of action potentials of the granule cells.[27]
Granule cell dispersion is a type of developmental migration and a pathological change found in the TLE brain which was first described in 1990.[28][29] The granule cells of the dentate gyrus are tightly packed forming a uniform, laminated layer with no monosynaptic connections.[30] This structure provides a filter for the excitability of neurons.[30]
In TLE, granule cells are lost, the structure is no longer closely packed and there are changes in the orientation of dendrites.[29][31] These changes may or may not be epileptogenic. For instance, if the dendrites of granule cells reconnect, it may be in a way (through the laminar planes) that allows hyperexcitability.[22] However, not all patients have granule cell dispersion.[19](p387–389)
Mossy fibers are the axons of Ponte nuclei cells. They project into the hilum of the dentate gyrus and stratum lucidum in the CA3 region giving input to both excitatory and inhibitory neurons.[30][32][33]
In the TLE brain, where granule cells are damaged or lost, axons, the mossy fibres, 'sprout' in order to reconnect to other granule cell dendrites. This is an example of synaptic reorganisation. This was noted in human tissue in 1974 and in animal models in 1985. In TLE, the sprouting mossy fibres are larger than in the normal brain and their connections may be aberrant. Mossy fibre sprouting continues from one week to two months after injury.[19](p416–431)[30][34][35][36]
Aberrant mossy fibre sprouting may create excitatory feedback circuits that lead to temporal lobe seizures. This is evident in intracellular recordings.[37] Stimulation of aberrant mossy fibre areas increases the excitatory postsynaptic potential response.[38][39]
However, aberrant mossy fiber sprouting may inhibit excitatory transmission by synapsing with basket cells which are inhibitory neurons and by releasing GABA and neuropeptide Y which are inhibitory neurotransmitters. Also, in animal models, granule cell hyper-excitability is recorded before aberrant mossy fibre sprouting has occurred.[40][41][42][43]
There are many oral medications available for the management of epileptic seizures. They were previously called anticonvulsants. However, this term is misleading because most TLE seizures are, in fact, not convulsions. The modern term is antiepileptic drugs (AEDs). Nearly all AEDs function by decreasing the excitation of neurons, for example, by blocking fast or slow sodium channels or by modulating calcium channels; or by enhancing the inhibition of neurons, for example by potentiating the effects of inhibitory neurotransmitters like GABA.
In TLE, the most commonly used older AEDs are phenytoin, carbamazepine, primidone, valproate, and phenobarbital. Newer drugs, such as gabapentin, topiramate, levetiracetam, lamotrigine, pregabalin, tiagabine, lacosamide, and zonisamide promise similar effectiveness, with possibly fewer side-effects. Felbamate and vigabatrin are newer AEDs, but can have serious adverse effects so they are not considered first-line treatments.
Up to one third of patients with medial temporal lobe epilepsy will not have adequate seizure control with medication alone. For patients with medial TLE whose seizures remain uncontrolled after trials of several AEDs (that is, the epilepsy is intractable), surgical excision of the affected temporal lobe may be considered.[44]
Epilepsy surgery has been performed since the 1860s and doctors have observed that it is highly effective in producing freedom from seizures. However, it was not until 2001 that a scientifically sound study was carried out to examine the effectiveness of temporal lobectomy.[45]
Temporal lobe surgery can be complicated by decreased cognitive function. However, after temporal lobectomy, memory function is supported by the opposite temporal lobe; and recruitment of the frontal lobe.[46][47] Cognitive rehabilitation may also help.[48]
If a person is not an optimal candidate for epilepsy surgery, further management options include, new (including experimental) antiepileptic drugs, vagus nerve stimulation, and in children, the ketogenic diet. Other avenues of treatment include brain cortex responsive neural stimulators, deep brain stimulation, stereotactic radiosurgery, such as the gamma knife, and stereotactic laser ablation.[49]
After childhood onset, one third will "grow out" of TLE, finding a lasting remission up to an average of 20 years. The finding of a lesion such as hippocampal sclerosis (a scar in the hippocampus), tumour, or dysplasia, on magnetic resonance imaging (MRI) predicts the intractability of seizures.[50]
The effect of temporal lobe epilepsy on personality is an historical observation dating to the 1800s. Sigmund Freud said
Personality and behavioural change in temporal lobe epilepsy is seen as a chronic condition when it persists for more than three months. A particular neural location (especially on the surface of the temporal lobe) may be the origin of such changes.[52]
Individuals with temporal lobe epilepsy have a high prevalence of depression. Although the psychosocial impacts of epilepsy may be causative, there are also links in the phenomenology and neurobiology of TLE and depression.[53]
Psychosis may occur in the peri-ictal, post-ictal, and inter-ictal periods in TLE.[54]
The temporal lobe and particularly the hippocampus plays an important role in memory processing. Declarative memory (memories which can be consciously recalled) is formed in the area of the hippocampus called the dentate gyrus.
Temporal lobe epilepsy is associated with memory disorders and loss of memory. Animal models and clinical studies show that memory loss correlates with temporal lobe neuronal loss in temporal lobe epilepsy. Verbal memory deficit correlates with pyramidal cell loss in TLE. This is more so on the left in verbal memory loss. Neuronal loss on the right is more prominent in non-verbal (visuospatial memory loss).[55][56][57][58][59]
The first to record and catalog the abnormal symptoms and signs of TLE was Norman Geschwind. He found a constellation of symptoms that included hypergraphia, hyperreligiosity, collapse, and pedantism, now called Geschwind syndrome.
Vilayanur S. Ramachandran explored the neural basis of the hyperreligiosity seen in TLE using the galvanic skin response (GSR), which correlates with emotional arousal, to determine whether the hyperreligiosity seen in TLE was due to an overall heightened emotional state or was specific to religious stimuli. Ramachandran presented two subjects with neutral, sexually arousing and religious words while measuring GSR. Ramachandran was able to show that patients with TLE showed enhanced emotional responses to the religious words, diminished responses to the sexually charged words, and normal responses to the neutral words. This study was presented as an abstract at a neuroscience conference and referenced in Ramachandran's book, Phantoms in the Brain,[60] but it has never been published in the peer-reviewed scientific press.[61]
One recent study reported that intrinsic religiosity and religiosity outside of organized religion were higher in patients with epilepsy than in controls.[62] Lower education level, abnormal background EEG activity, and hippocampal sclerosis have been found to be contributing factors for religiosity in Temporal Lobe Epilepsy.[63]
Temporal lobe epilepsy has been suggested as a physical explanation for the revelatory experiences of prominent religious figures such as Abraham, Moses, Jesus, Mohammed, Saint Paul, and Joseph Smith. These experiences are described as complex interactions with their visions, but lacking the stereotypy, amnestic periods, and automatisms or generalized motor events, which are characteristic of TLE. Psychiatric conditions with psychotic spectrum symptoms are a more plausible physical explanation of these experiences.[64] Pope Pius IX's doctrine of the immaculate conception is thought to have been influenced by his forensically diagnosed partial epilepsy.[65] It has also been suggested that the visions of Joan of Arc were probably an expression of partial epilepsy.[66] More recently, one case history found that a temporal lobe epileptic experienced a vision of God following a temporal lobe seizure, while undergoing EEG monitoring. The patient reported that God had sent him to the world to "bring redemption to the people of Israel".[67]
The purported link between TLE and religiosity has inspired work by Michael Persinger and many other researchers in the field of neurotheology, but some have questioned the evidence for a link between temporal lobe epilepsy and religiosity.[61][68] The novel, Lying Sleepily Awake, by Mark Salzman, deals with topic of temporal lobe epilepsy and religion.
Patients with mesial temporal lobe epilepsy with hippocampal sclerosis (MTLE-HS) had significantly higher SSRS scores than those with other epileptic syndromes and, than in individuals of the CG (control Group)
In this patient, a messianic revelation experience occurred several hours after a complex partial seizure of temporal origin, compatible with postictal psychosis (PIP)
|
全文を閲覧するには購読必要です。 To read the full text you will need to subscribe.
リンク元 | 「側頭葉てんかん」「TLE」 |
拡張検索 | 「mesial temporal lobe epilepsy」 |
関連記事 | 「lobe」「temporal」「epilepsy」 |
.