Neonatal seizure
Neonatal seizure | |
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Other names | Seizures in neonates |
A neonatal seizure is a
According to the International League against Epilepsy (ILAE), seizures are defined as excessive or synchronous neuronal activity in the brain that is manifested as signs or symptoms. As per the classification system by the American Clinical Neurophysiology Society, seizures can be classified into electroclinical (clinical signs of a seizure and electrical brain monitoring signs of a seizure), clinical only, and electrographic-only seizures (signs of a seizure on electrical brain monitoring without clinical-visual signs of a seizure). Some infants, especially critically ill ones, may experience electrographic-only seizures.[5][6]
Neonatal seizures have been classified into various types. Neonates were found to experience either tonic or clonic seizures. If seizures were found to be focal, they were further classified into unifocal or multifocal.
The incidence of seizures is more common in the
Neonatal seizures are generally subclinical and their diagnosis based on the clinical observations is generally difficult.[16][17] Diagnosis relies on identification of the cause of the seizure, and verification of actual seizure activity by measuring electrical activity with electroencephalography (EEG). The set of guidelines developed by the American Clinical Neurophysiology Society helps the healthcare providers know when the EEG is appropriate and corresponds to the seizures.[18] Treatment depends generally on the underlying cause of the seizure if it is provoked. anti-epileptic drugs are also administered.
Neonatal seizures that are provoked (due to a secondary cause) usually resolve in the neonatal period when the secondary cause is treated. Neonates with epilepsy syndromes often have seizures later in life.[4] It has been estimated that approximately 15% of neonatal seizures represent epilepsy syndrome.[19] The incidence of seizures is higher in the neonatal period than at any other time of life,[20] and most often occurs in the first week of life.[21]
Signs and symptoms
Seizures in the neonatal population often present differently than in other age groups due to brain immaturity.[22] Electroclinical seizures are defined by evidence of seizure activity on electroencephalogram as well as clinical signs or symptoms.[23]
MOTOR SEIZURES
Classification systems have been developed based on neonatal seizure motor manifestations, summarized below.[24]
- Focal or multifocal clonic
Clonic seizures are defined by repetitive contractions of groups of muscles, typically of the limbs, face, or trunk.
- Focal tonic
Focal tonic seizures are characterized by sustained muscle contraction of facial, limb, axial, and other muscle groups. It often involves asymmetric positioning of the neck and trunk and appears as abnormal posturing of a single limb. Horizontal eye deviation may or may not be involved.[27] They may be symmetric, asymmetric, focal, or multifocal. Such seizures cannot be provoked by stimulation or suppressed by restraint.
- Generalized tonic
A focal tonic seizure can generalize, or the first seizure can occur as a
- Myoclonic
Myoclonic movements can either be caused by seizures or be benign neonatal sleep myoclonus, a common mimicker of seizures in neonates. Myoclonic seizures are characterized by isolated and fast contractions of muscle groups that are non-repetitive. It generally involves flexor muscle groups of upper extremities- trunk, diaphragm, face.[28] These movements typically occur in the limbs or face. Stimulation can provoke myoclonic seizures.
- Spasms
Spasms include either flexor or extensor or both
SUBTLE
Some clinicians use the term subtle seizures to describe seizures that appear to be more normal and there is an absence of distinct tonic or clonic movements but the presence of abnormal eye movements, stereotyped lip-smacking, or apneic events.[29] They may be difficult to diagnose clinically due to the subtleness of symptoms.[29] Sometimes in subtle seizures complex limbic hyperactivity that is purposeless along with crying could be observed.[29]
BENIGN
Benign neonatal seizures are not classified as epilepsy and the seizures usually resolve after 1–4 months.[30] A benign familial neonatal seizure onsets as early as 3 days of birth and may involve one or both sides of the brain. Recurrent seizure episodes are observed to occur in neonates. Electroencephalogram of infants with BFNS often have normal readings. Sometimes, they may show theta pointy, a specific abnormality. They usually begin with tonic stiffening accompanied by apnea. Later clonic jerks are witnessed. It occurs in 1 in every 1,00,000 newborns.[31]
This condition is usually inherited and is passed on in
Most of the infants with
Pathophysiology
Seizures in the developing brain are more common than in a mature brain for several reasons. First, the developing brain is hyperexcitable due to excess in excitatory glutaminergic neurons and immaturity of inhibitory gamma-amino butyric acid (GABA) neurons. Preterm infants are at especially high risk for seizures for this reason.
- Seizure risk due to decreased inhibition: Gamma-butyric acid (KCC2(potassium-chloride cotransporter 2). NKCC1 causes net efflux of chloride ions[34] while KCC2 is responsible for causing a net influx of chloride ions. Increased expression of NKCC1 leads to depolarisation of the neuronal membrane. This depolarisation removes voltage-dependent Mg from N-methyl-D-aspartate(NMDA) receptors and triggers calcium influx. The binding of calcium to the receptors causes the generation of secondary messengers that increases the risks of seizures and increase the excitability of the brain.[35][36]
- Seizure risk due to increased activation: Glutamate is the primary excitatory neurotransmitter and the expression of its receptor is developmentally regulated.[37] It binds to NMDA receptors, kainite receptors, and AMPA receptors. In course of the developmental stages, in several parts of the brain, a subunit of NMDA receptor-GluN2B is highly expressed which increases calcium influx. This mechanism increases the duration of postsynaptic currents in the immature brain in comparison to adult brains.[38]
Causes
Neonatal seizures have a number of causes. Determining the cause of a confirmed seizure is important because treatment and prognosis vary based on underlying etiology of the seizure. In contrast to seizures that occur in other age groups, seizures that occur during the neonatal period are most often caused by the following processes:
- Hypoxic-ischemic encephalopathy: This is the most common cause of seizures in the neonatal period,[39] causing approximately 33% of neonatal seizures.[4] The onset of seizure associated with it occurs within first 12 to 24 hrs of life.[citation needed] Delays in diagnosis may further increase the brain injury.[citation needed] Seizure semiology and severity varies with the location and size of injured region of the brain.
- Perinatal arterial stroke: Arterial stroke can be caused by intra-arterial thrombosis or embolism from the heart or placenta. The risk for perinatal arterial stroke increases with a variety of conditions that occur due to material factors during birth (clotting disorders, congenital heart defects,[39] coagulation problems, systemic infection, male sex, placental abnormalities). The onset of seizures associated with focal strokes begin after 24hrs to 48 hrs of birth. Focal clonic seizure is generally associated with it due to involvement of motor cortex in middle cerebral artery region.[citation needed]
- ventricles, which are interior chambers of the brain. This is the most common cause of neonatal seizures in preterm infants.[4]
- Group B streptococcus and herpes simplex virus are also possible causes. Seizures related to it persist longer than those associated with HIE or ICH.[citation needed]
- Congenital central nervous system malformations: lissencephaly, polymicrogyria, and tuberous sclerosis are specific entities known to cause seizures due to defects in brain tissue development. These are responsible for approximately 9% of cases of neonatal seizures.[4]
- Inborn errors of metabolism: Inborn errors of metabolism can cause physiologic conditions that result in seizures. These errors are genetic and often are accompanied by other symptoms such as lethargy, poor feeding, and low tone.[39] Diagnosis often involves specific laboratory tests of metabolic products as well as genetic tests. Several classification systems exist for seizures caused by inborn errors of metabolism, one of which separates causes into problems with neurotransmitter metabolism, energy production, and biosynthetic substances crucial for brain formation.[40]
- Electrolyte abnormalities: Metabolic abnormalities such as hypocalcemiacan manifest as seizures.
- Substance-related: neonatal abstinence syndrome occurs when maternal drug use before birth results in a fetal withdrawal syndrome. Substances include alcohol, cocaine, narcotics, tricyclclic antidepressants, or other sedatives. Seizures can be prevented from occurring if the symptoms of withdrawal are recognized and treated early.[39]
Diagnosis
Seizure activity in a neonate is difficult to diagnose, as many seizures have subtle clinical symptoms. Diagnosis relies on a combination of brain monitoring (electroencephalography)(EEG) and observing clinical signs or symptoms of a seizure.[4] EEG may be continuous or intermittent, and it may also be combined with video recording of the infant to correlate any seizure movements with EEG recordings.[4]
There are several modes of EEG that are commonly used to diagnose neonatal seizures. Conventional continuous multichannel conventional EEG is the gold standard for diagnosis of epileptiform activity, but requires expert interpretation. Newer amplitude integrated EEG (aEEG) (also termed cerebral function monitoring, or CFM) allows easier monitoring of brain activity, but may not allow identification of short duration, low amplitude, or very high frequency seizure activity.[41] Often, both modes are displayed concurrently.
Evaluation for infection (often with blood counts, blood cultures, or lumbar puncture) may be done to determine if there is a secondary cause of seizures.[4] Blood glucose and electrolyte testing can identify metabolic problems that can be corrected. Further testing includes evaluation for genetic causes and other more rare metabolic causes.[42] Genetic testing may be done with an epilepsy gene panel to determine presence of neonatal primary genetic epilepsy syndromes.[4] Brain injury such as cerebral infarction or hemorrhage can be evaluated with imaging techniques such as magnetic resonance imaging (MRI) and brain ultrasound.[4]
Differential diagnosis
Infants can exhibit stereotyped movements that may be hard to distinguish from seizure activity. Since many of these non-seizure movements are not dangerous and require no treatment, differentiation from actual seizure activity is useful.[citation needed] Jitteriness is common in the neonatal period and is seen in upwards of 2/3 of neonates. It is characterized by a tremor that is especially prominent during sleep or periods of agitation.[citation needed] Gaze deviation or eye movements do not occur. Benign neonatal sleep myoclonus (BNSM) is another common movement that can be mistaken for a seizure. It is characterized by jerking limb movements only during sleep, and stop with waking of the infant.[4]
Treatment
Once diagnosis is made, the goals of management are to identify the cause of the seizure, stop the seizure activity, and maintain physiologic parameters such as oxygenation, ventilation, blood glucose, and temperature.[4]
Treatment greatly depends on the cause of the seizure. For example, infectious causes of seizures (meningitis, meningoencephalitis), are often treated with antimicrobials. Similarly, electrolyte or glucose abnormalities are treated by correcting the underlying abnormality.
If the cause of the seizures are unlikely to be easily or quickly corrected, once diagnosis of a seizure is made, the mainstay of treatment is pharmacotherapy with
Term or near term infants with moderate to severe hypoxic ischemic encepphalopathy causing neonatal seizures may be treated with
Outcomes
With prompt diagnosis, mortality after diagnosis of neonatal seizures has decreased dramatically from an estimated 33% in the 1990s to around 10% in the 2010s.[32] Underlying cause of the seizure remains the greatest predictor of ongoing seizures and neurologic problems later in life. Controversy remains with the extent of damage the seizures themselves cause. Clinician consensus is that frequent or intractable seizures (status epilepticus) leads to neuronal damage and are associated with later neurodevelopment problems.[44]
Infants that are premature, have hypoxemic ischemic encephalopathy, CNS infection, severe intraventricular hemorrhage, structural central nervous system defect, or severely abnormal EEG tracings have a worse prognosis.[32]
Low Apgar scores, need for resuscitation at birth, and perinatal distress place the neonate at greater risk for seizures[45]".
For all infants with neonatal seizures regardless of cause, the rate of subsequent seizures during childhood is estimated between 10 and 20%.[46] Infants who survive severe global HIE have the highest rate of epilepsy later in life.[32]
Untreated or repeated neonatal seizures, especially prolonged seizures or status epilepticus, are associated with hippocampal sclerosis later in life.[4]
Epidemiology
It is difficult to determine the incidence of seizures in the neonatal period. Estimations range between 1-5 per 1,000 live births, with other estimates being 1.1 cases per 1,000 live births in full term infants and 14 cases per 1,000 live births in preterm infants.[42][4] The actual rate of seizures during the neonatal period may be higher due to a lack of accurate diagnosis of sub-clinical seizure activity without continuous EEG monitoring. The epidemiology moreover varies in high-income countries (HIC) from that in low-income ones (LIC). The incidence is estimated to be 1-3 per 1000 live births in HIC whereas it ranges from 36 to 90 per live birth in LIC.[citation needed] Acute causes of seizures (hypoxemic ischemic encephalopathy, infection, intracranial hemorrhage, stroke, etc.) are more common than the first episode of neonatal epilepsy syndromes.[citation needed]
Research directions
Since interpretation of continuous EEG monitoring requires a trained neurologist, automated interpretation software has been proposed. Algorithms and machine learning have been studied, however logistical and mathematic challenges remain.[citation needed]
See also
References
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