Infantile spasms syndrome

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EEG typically, although not universally, reveals hypsarrhythmia.[26]Hancock EC, Osborne JP, Edwards SW. Treatment of infantile spasms. Cochrane Database Syst Rev. 2013 Jun 5;(6):CD001770. https://www.cochranelibrary.com/cdsr/doi/10.1002/14651858.CD001770.pub3/full http://www.ncbi.nlm.nih.gov/pubmed/23740534?tool=bestpractice.com Hypsarrhythmia is characterized by random high-voltage spike and slow waves of varying amplitude, arising from multiple foci that vary over time. The background is asynchronous and generally chaotic.[27]Gibbs FA, Gibbs EL. Atlas of encephalography, vol 2: epilepsy, 2nd ed. Cambridge, MA: Addison-Wesley; 1952.[Figure caption and citation for the preceding image starts]: EEG demonstrating hypsarrhythmiaFrom the collection of Dr Teesta Soman and Dr Shelly Weiss [Citation ends].

Typical hypsarrhythmia is more likely in the early phase of infantile spasms and in younger patients.[26]Hancock EC, Osborne JP, Edwards SW. Treatment of infantile spasms. Cochrane Database Syst Rev. 2013 Jun 5;(6):CD001770. https://www.cochranelibrary.com/cdsr/doi/10.1002/14651858.CD001770.pub3/full http://www.ncbi.nlm.nih.gov/pubmed/23740534?tool=bestpractice.com It may evolve over time into multifocal and interictal epileptic discharges.

The interictal EEG is very abnormal in this syndrome, but occasionally only during sleep. Hypsarrhythmia may disappear during rapid eye movement (REM) sleep and is found with greater sensitivity during other sleep stages. If there is a strong clinical suspicion of infantile spasms, a prolonged sleep recording is required as the typical hypsarrhythmic pattern may be missed.[26]Hancock EC, Osborne JP, Edwards SW. Treatment of infantile spasms. Cochrane Database Syst Rev. 2013 Jun 5;(6):CD001770. https://www.cochranelibrary.com/cdsr/doi/10.1002/14651858.CD001770.pub3/full http://www.ncbi.nlm.nih.gov/pubmed/23740534?tool=bestpractice.com ​ Hypsarrhythmia may be asymmetrical, suggesting a lesional epilepsy, cortical malformation, or disorder of neuronal migration. Modified hypsarrhythmia may be more synchronous, be less symmetrical, and show more focal changes or areas of attenuation.

The ictal EEG is variable but may show suppression, fast activity, or attenuation of the background activity (an electrodecremental response), which may be preceded by high-amplitude vertex slow waves or spindle-like activity.

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May reveal signs of infection such as leukocytosis that could cause or contribute to seizures.

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May reveal electrolyte abnormalities such as hyponatremia or hypokalemia that can cause or contribute to seizures. May also demonstrate associated renal function abnormalities.

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To identify hypoglycemia.

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To identify hypocalcemia.

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To identify hypomagnesemia.

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Elevated creatine kinase, aspartate aminotransferase, alanine aminotransferase, total bilirubin, alkaline phosphatase.

Abnormalities can be seen with intrauterine infections such as cytomegalovirus and toxoplasmosis.

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Indicates urea cycle disorders or organic acidemias.

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This is a rapid test that may reveal acidemia (low pH, low bicarbonate), electrolyte disturbances, or elevated lactate (which can be elevated in infection or in mitochondrial disorders) that could cause or contribute to seizures.

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Elevated in mitochondrial disorders.

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To screen for inborn errors of metabolism (e.g., nonketotic hyperglycinemia, homocitrullinemia, phenylketonuria).

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To screen for inborn errors of metabolism (e.g., nonketotic hyperglycinemia, homocitrullinemia, phenylketonuria).

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Indicated in disorders of fatty acid metabolism.

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Indicates biotinidase deficiency.

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Indicated in pyridoxine-dependent epilepsy.

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Indicated in cerebral creatine deficiency disorders such as guanidinoacetate methyltransferase deficiency (GAMT).

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May reveal pathogenic variants in: CDKL5, STXBP1, ARX, IQSEC2, TSC1, TSC2, or one of over 100 developmental and infantile epileptic encephalopathy (DEE) genes.

If there are existing genetic test results, do not perform repeat testing unless there is uncertainty about the existing result, for example, the result is inconsistent with the patient’s clinical presentation or the test methodology has changed.[33]American College of Medical Genetics and Genomics. Five things physicians and patients should question. Choosing Wisely, an initiative of the ABIM Foundation. 2021 [internet publication]. https://web.archive.org/web/20230326143738/https://www.choosingwisely.org/societies/american-college-of-medical-genetics-and-genomics

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May reveal intermediate-scale genomic rearrangements not detected by standard chromosome analysis.

If microarray CGH is not available, chromosomal analysis should be performed.

If there are existing genetic test results, do not perform repeat testing unless there is uncertainty about the existing result, for example, the result is inconsistent with the patient’s clinical presentation or the test methodology has changed.[33]American College of Medical Genetics and Genomics. Five things physicians and patients should question. Choosing Wisely, an initiative of the ABIM Foundation. 2021 [internet publication]. https://web.archive.org/web/20230326143738/https://www.choosingwisely.org/societies/american-college-of-medical-genetics-and-genomics

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MRI brain may identify underlying structural and migrational abnormalities.[Figure caption and citation for the preceding image starts]: Cortical tubers on MRI in tuberous sclerosisFrom the collection of Dr Teesta Soman and Dr Shelly Weiss [Citation ends].

The scan may show areas of malformation or lesions secondary to hemorrhage, calcification, cystic changes, encephalomalacia, infarction, infection, or tumor.

Cortical hamartomas, subependymal nodules, and subependymal giant cell astrocytomas may be seen in tuberous sclerosis.

Lesions may suggest other etiologies, including various neurocutaneous syndromes and inborn errors of metabolism.

The scan may be entirely normal.

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Should include CSF glucose and lactate paired with plasma, amino acids, pyridoxal-5-phosphate, and methyltetrahydrofolate.

CSF neurotransmitters to screen for PNPO (pyridoxine phosphate oxidase deficiency) and folinic acid responsive seizures.

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May reveal thyroid function abnormalities that can cause or contribute to seizures.

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May reveal abnormalities associated with congenital defects of glycosylation (CDG).

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May reveal abnormalities associated with peroxismal disorders such as X-linked adrenoleukodystrophy.

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May reveal abnormalities associated with Menke disease.

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To screen for molybdenum cofactor deficiency, isolated sulfite oxidase deficiency, and hereditary xanthinuria.

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A CT brain scan is less sensitive and should be considered only if it is not possible to perform an MRI scan.

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Serology could include IgG and/or IgM.

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Toxoplasmosis IgG and/or IgM.

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May reveal rhabdomyomas in case of underlying tuberous sclerosis.

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May reveal renal angiomyolipomas in case of underlying tuberous sclerosis.

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May reveal abnormalities including chorioretinitis in intrauterine infections, and hamartomas in tuberous sclerosis