Epileptic spasms

Epileptic spasms
Classification and external resources
Specialty neurology
ICD-10 G40.4
ICD-9-CM 345.6
OMIM 308350
DiseasesDB 6788
eMedicine neuro/171
MeSH D013036

Epileptic spasms, infantile spasms, juvenile spasms or West syndrome [1] is an uncommon-to-rare epileptic disorder in infants, children and adults. It is named after the English physician, William James West (1793–1848), who first described it in an article published in The Lancet in 1841.[2] The original case actually described his own son, James Edwin West (1840–1860).[3] Other names for it are "Generalized Flexion Epilepsy", "Infantile Epileptic Encephalopathy", "Infantile Myoclonic Encephalopathy", "jackknife convulsions", "Massive Myoclonia" and "Salaam spasms". The term "infantile spasms" can be used to describe the specific seizure manifestation in the syndrome, but is also used as a synonym for the syndrome itself. West syndrome in modern usage is the triad of infantile spasms, a pathognomonic EEG pattern (called hypsarrhythmia), and developmental regression[4] - although the international definition requires only two out of these three elements.

The syndrome is age-related, generally occurring between the third and the twelfth month, generally manifesting around the fifth month. There are various causes ("polyetiology"). The syndrome is often caused by an organic brain dysfunction whose origins may be prenatal, perinatal (caused during birth) or postnatal.

Signs and symptoms

The epileptic seizures which can be observed in infants with West syndrome fall into three categories, collectively known as infantile spasms. Typically, the following triad of attack types appears; while the three types usually appear simultaneously, they also can occur independently of each other:

Etiology (causes)

It is still unknown which bio-chemical mechanisms lead to the occurrence of West syndrome. It is conjectured that it is a malfunction of neurotransmitter function, or more precisely, a malfunction in the regulation of the GABA transmission process. Another possibility being researched is a hyper-production of the Corticotropin-releasing hormone (CRH). It is possible that more than one factor is involved. Both hypotheses are supported by the effect of certain medications used to treat West syndrome.

Cases of epilepsy have been historically divided into three different groups: symptomatic, cryptogenic, and idiopathic. The International League Against Epilepsy (ILAE) recommended in 2011 to abandon these terms[5][6] for reasons of clarity and instead try to place individual cases into one of the following 3 groups: genetic, structural/metabolic, and unknown. The new terms are more immediately clear in their meaning, except that the structural and metabolic group includes cases that have a genetic component that does not always directly lead to the condition. Only the genetic grouping has a known direct genetic cause. "Unknown" cases may be of unknown genetic, structural, metabolic, or other unknown cause.

The old terminology was defined by the ILAE as follows:

The remainder of this section will refer to the older terminology.

Symptomatic

If a cause presents itself, the syndrome is referred to as symptomatic West syndrome, as the attacks manifest as a symptom of another problem. Almost any cause of brain damage could be associated, and these are divided into prenatal, perinatal, and post-natal. The following is a partial list:

Down syndrome

West syndrome appears in 1% to 5% of infants with Down syndrome. This form of epilepsy is relatively difficult to treat in children who do not have the chromosomal abnormalities involved in Down syndrome. However, in children with Down syndrome, the syndrome is often far more mild, and the children often react better to medication. The German Down Syndrom InfoCenter noted in 2003 that what was normally a serious epilepsy was in such cases often a relatively benign one.

EEG records for children with Down syndrome are often more symmetrical with fewer unusual findings. Although not all children can become entirely free from attacks with medication, children with Down syndrome are less likely to go on to develop Lennox-Gastaut syndrome or other forms of epilepsy than those without additional hereditary material on the 21st chromosome. The reason why it is easier to treat children with Down syndrome is not known.

If, however, a child with Down syndrome has seizures that are difficult to control, the child is at risk to develop an autistic spectrum disorder.[7]

Cryptogenic

When a direct cause cannot be determined but the child has other neurological disorder, the case is referred to as cryptogenic West syndrome. The cryptogenic group is often considered idiopathic while referred to as "cryptogenic".

Sometimes multiple children within the same family develop West syndrome. In this case it is also referred to as cryptogenic, in which genetic and sometimes hereditary influences play a role. There are known cases in which West syndrome appears in successive generations in boys; this has to do with X-chromosomal heredity.

Idiopathic

Occasionally the syndrome is referred to as idiopathic West syndrome, when a cause cannot be determined. Important diagnostic criteria are:

Those are becoming rare due to modern medicine.

Treatment

Compared with other forms of epilepsy, West syndrome is difficult to treat. To raise the chance of successful treatment and keep down the risk of longer-lasting effects, it is very important that the condition is diagnosed as early as possible and that treatment begins straight away. However, there is no guarantee that therapy will work even in this case.

Insufficient research has yet been carried out into whether the form of treatment has an effect upon the long-term prognosis. Based on what is known today, the prognosis depends mainly on the cause of the attacks and the length of time that hypsarrhythmia lasts.[8] In general it can be said that the prognosis is worse when the patient does not react as well to therapy and the epileptic over-activity in the brain continues. Treatment differs in each individual case and depends on the cause of the West syndrome (etiological classification) and the state of brain development at the time of the damage.

Prednisone

ACTH

Vigabatrin

Vigabatrin is known for being effective, especially in children with tuberous sclerosis, with few and benign side effects. But due to some recent studies[9] showing visual field constriction (loss of peripheral vision), it was not approved in the United States until mid-2009. It is currently debated that a short use (6 months or less) of Vigabatrin will not affect vision. Also, considering the effect of frequent seizures on day-to-day life and mental development, some parents prefer to take the risk of some vision loss.

Other

Other drugs may be used in conjunction or alone. In Japan, there is a good experience with pyridoxine therapy. Further, topiramate (Topamax), lamotrigine (Lamictal), levetiracetam (Keppra) and zonisamide (Zonegran) are amongst those drugs most widely used.

The ketogenic diet has been shown to be effective in treating infantile spams,[10] up to 70% of children having a 50% or more reduction in seizure.[11]

Prognosis

It is not possible to make a generalised prognosis for development due to the variability of causes, as mentioned above, the differing types of symptoms and etiology. Each case must be considered individually.

The prognosis for children with idiopathic West syndrome are mostly more positive than for those with the cryptogenic or symptomatic forms. Idiopathic cases are less likely to show signs of developmental problems before the attacks begin, the attacks can often be treated more easily and effectively and there is a lower relapse rate. Children with this form of the syndrome are less likely to go on to develop other forms of epilepsy; around two in every five children develop at the same rate as healthy children.

In other cases, however, treatment of West syndrome is relatively difficult and the results of therapy often dissatisfying; for children with symptomatic and cryptogenic West syndrome, the prognosis is generally not positive, especially when they prove resistant to therapy.

Statistically, 5 out of every 100 children with West syndrome do not survive beyond five years of age, in some cases due to the cause of the syndrome, in others for reasons related to their medication. Only less than half of all children can become entirely free from attacks with the help of medication. Statistics show that treatment produces a satisfactory result in around three out of ten cases, with only one in every 25 children's cognitive and motoric development developing more or less normally.

A large proportion (up to 90%) of children suffer severe physical and cognitive impairments, even when treatment for the attacks is successful. This is not usually because of the epileptic fits, but rather because of the causes behind them (cerebral anomalies or their location or degree of severity). Severe, frequent attacks can (further) damage the brain.

Permanent damage often associated with West syndrome in the literature include cognitive disabilities, learning difficulties and behavioural problems, cerebral palsy (up to 5 out of 10 children), psychological disorders and often autism (in around 3 out of 10 children). Once more, the etiology of each individual case of West syndrome must be considered when debating cause and effect.

As many as 6 out of 10 children with West syndrome suffer from epilepsy later in life. Sometimes West syndrome turns into a focal or other generalised epilepsy. Around half of all children develop Lennox-Gastaut syndrome.

Epidemiology

Incidence is around 1:3200 to 1:3500 of live births. Statistically, boys are more likely to be affected than girls at a ratio of around 1.3:1. In 9 out of every 10 children affected, the spasms appear for the first time between the third and the twelfth month of age. In rarer cases, spasms may occur in the first two months or during the second to fourth year of age.

History

West syndrome was named after the English doctor and surgeon William James West (1793–1848), who lived in Tonbridge. In 1841 he observed this type of epilepsy in his own son, James E West, who was approximately four months old at the time. He published his observations from a scientific perspective in an article in The Lancet. He named the seizures "Salaam Tics" at the time.

See also

References

  1. Lachhwani, editor-in-chief, Elaine Wyllie ; associate editors, Ajay Gupta, Deepak K. (2006). The treatment of epilepsy : principles & practice. (4th ed.). Philadelphia: Lippincott Williams & Wilkins. p. 333. ISBN 9780781749954.
  2. West, W. J. (1841). "On a Peculiar Form of Infantile Convulsions". The Lancet 35 (911): 724. doi:10.1016/S0140-6736(00)40184-4.
  3. http://www.whonamedit.com/synd.cfm/3217.html
  4. 1 2 "NINDS Infantile Spasms Information Page". Retrieved January 10, 2012.
  5. http://www.ilae.org/Visitors/Centre/ctf/documents/NewConcepts-Classification_2011_000.pdf
  6. http://www.ilae.org/Visitors/Centre/ctf/CTFoverview.cfm
  7. Goldberg-Stern et al., 2001 & Eisermann et al. 2003 in: American journal of medical genetics part C, 2006, S. 163: Neurobehavioral disorders in children, adolescents and young adults with down syndrome
  8. "Treatment of epileptic encephalopathies.". CNS Drugs 27 (3): 175–84. Mar 2013. doi:10.1007/s40263-013-0041-6. PMID 23397290.
  9. Iannetti, Paola; Alberto Spalice; Francesco Massimo Perla; Elena Conicella; Umberto Raucci; Barbara Bizzarri (October 2000). "Visual Field Constriction in Children With Epilepsy on Vigabatrin Treatment". Pediatrics 106 (4): 838–42. doi:10.1542/peds.106.4.838. PMID 11015531.
  10. Nordli Jr, Douglas R.; Maxine M. Kuroda; Joanne CarrollDagger; Dorcas Y. KoenigsbergerDagger; Lawrence J. Hirsch; Harlan J. Brunerparallel; William T. Seidel; Darryl C. De Vivo (2002). "Experience With the Ketogenic Diet in Infants". Pediatrics 108 (1): 129–133. doi:10.1542/peds.108.1.129. PMID 11433065.
  11. Kossoff, Eric H.; Paula L. Pyzik; Jane R. McGrogan; Eileen P. G. Vining; John M. Freeman (May 2001). "Efficacy of the Ketogenic Diet for Infantile Spasms". Pediatrics 109 (5): 780–783. doi:10.1542/peds.109.5.780. PMID 11986436.
Much of this article is translated from the German Wikipedia article
This article is issued from Wikipedia - version of the Monday, March 28, 2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.