Kindling model of epilepsy

Kindling is a commonly used model for the development of seizures and epilepsy in which the duration and behavioral involvement of induced seizures increases after seizures are induced repeatedly.^[1] The kindling model was first proposed in the late 1960s by Goddard and colleagues.^[2] Although kindling is a widely used model, its applicability to human epilepsy is controversial.^[1]

Method

The word kindling is a metaphor: the increase in response to small stimuli is similar to the way small burning twigs can produce a large fire.^[3] It is used by scientists to study the effects of repeated seizures on the brain.^[1] A seizure may increase the likelihood that more seizures will occur; an old saying in epilepsy research is "seizures beget seizures".^[1] Repeated stimulation "lowers the threshold" for more seizures to occur.^[4]

The brains of experimental animals are repeatedly stimulated, usually with electricity, to induce the seizures.^[1] Chemicals may also be used to induce seizures.^[3] The seizure that occurs after the first such electrical stimulation lasts a short time and is accompanied by a small amount of behavioral effects compared with seizures that result from repeated stimulations.^[1] With further seizures, the accompanying behavior intensifies, for example progressing from freezing in early stimulations to convulsions in later ones.^[5] The lengthening of duration and intensification of behavioral accompaniment eventually reaches a plateau after repeated stimulation.^[1] Even if animals are left unstimulated for as long as 12 weeks, the effect remains; the response to stimulation remains higher than it had been before.^[3]

It has been reported that repeated seizure stimulation can result in spontaneous seizures, but studies have had conflicting findings on this question.^[1] In humans, some seizure disorders come to an end by themselves even after large numbers of seizures.^[1] However, in both human epilepsy and in some animal models, evidence suggests that a process like that found in kindling does occur.^[1]

Historical perspective

Already in the 1950s and 1960s, numerous authors recognized the seizure-inducing potenital of focal stimulation.^[6] Here, Delgado and Sevillano demonstrated that repeated low-intensity stimuli to the hippocampus could lead to progressive increase of electrically evoked seizure activity.^[7] Yet, it was not until the late 1960s that Graham Goddard recognized the potential importance of this phenomenon and coined the term 'kindling'.^[8] Further research by Goddard on the characteristics of the kindling phenomenon led to his conclusion that kindling can be used to model human epileptogenesis, learning and memory.^[9] The publication of these results opened an complerely new niche for epilepsy research and has stimulated a significant amount of studies on the subject of kindling and its relevance to human epilepsy^[6]

See also

• Kindling (substance withdrawal)
• Epileptogenesis
• Racine Stages (a method by which seizure severity is quantified in animal models of epilepsy)

References

1. Bertram E (2007). "The relevance of kindling for human epilepsy". Epilepsia. 48 (Supplement 2): 65–74. doi:10.1111/j.1528-1167.2007.01068.x. PMID 17571354.
2. Sato M (2008). "Kindling: An experimental model of epilepsy" (PDF). Psychiatry and Clinical Neurosciences. 36 (4): 440–441. doi:10.1111/j.1440-1819.1982.tb03123.x.
3. Abel MS, McCandless DW (1992). "The kindling model of epilepsy". In Adams RN, Baker GB, Baker JM, Bateson AN, Boisvert DPJ, Boulton AA; et al. (eds.). Neuromethods: Animal Models of Neurological Disease. Totowa, NJ: Humana Press. pp. 153–155. ISBN 0-89603-211-6. {{cite book}}: Explicit use of et al. in: |editor= (help)
4. PK Sahoo, KI Mathai, GV Ramdas, MN Swamy (2007). "The pathophysiology of post traumatic epilepsy" (PDF). Indian Journal of Neurotrauma. 4 (1): 11–14. Temkin NR, Jarell AD, Anderson GD (2001). "Antiepileptogenic agents: how close are we?". Drugs. 61 (8): 1045–55. PMID 11465868.
5. Morimoto K, Fahnestock M, Racine RJ (May 2004). "Kindling and status epilepticus models of epilepsy: Rewiring the brain". Prog. Neurobiol. 73 (1): 1–60. doi:10.1016/j.pneurobio.2004.03.009. PMID 15193778.
6. McNamara JO, Byrne MC, Dasheiff RM, JG Fitz (1980). "The Kindling Model of Epilepsy; a Review". Progress in Neurobiology. 15 (2): 139–59. PMID 6109361.
7. Delgado JMR and Sevillano M (1961). "Evolution of repeated hippocampal seizures in the cat". Electroenceph. clin. Neurophys. 13 (2): 722–733.
8. Goddard GV (1967). "Development of epileptic seizures through brain stimulation at low intensity". Nature. 3 (214): 1020–1. PMID 6055396.
9. Goddard GV, McIntyre DC, Leech CK (1969). "A permanent change in brain function resulting from daily electrical stimulation". Exp Neurol. 25 (3): 295–330. PMID 4981856.