Relationship Between Polymorphisms of TRPV1 and KCC2 Gene in Children With Febrile Seizures

Institut za Rehabilitaciju Sokobanjska Beograd121 enrolled

Overview

Febrile seizures (FS) are the most common neurological disorder in chilhood. The etiology of FN is still the subject of numerous studies and it is known that it can depend on genetic predisposition.

Febrile seizures (FS) are the most common neurological disorder in chilhood. It is precisely because of the high incidence of the disease, the age that includes the tendency of repetition, represent a particular challenge in pediatric practice. FS, as defined by the American Academy of Pediatrics (AAP), are " seizure occurring in febrile children between the ages of 6 and 60 months who do not have an intracranial infection, metabolic disturbance, or history of afebrile seizures ". Simple febrile seizure is defined as a short (\<15 min) generalized seizure, not repeat within 24 h, that occurs during a febrile illness not resulting from an acute disease of the nervous system in a child aged between 6 months and 5 years, with no neurologic deficits and no previous afebrile seizures. Complex febrile seizures are a focal, or generalized and prolonged seizure, of a duration of greater than 15 min, recurring more than once in 24 h, and/or associated with postictal neurologic abnormalities, more frequently a postictal palsy (Todd's palsy), or with previous neurologic deficits. The etiology of FN is still the subject of numerous studies and it is known that it can depend on genetic predisposition. Animal studies have shown that mice without the KCC2 gene have frequent generalized seizures, while those with heterozygous deletion of the KCC2 gene have a reduced threshold for seizure onset. In the human population, mutations of this gene have been reported in children with FN as well as in children with epilepsy. There is no examined an association between polymorphism rs2297201 KCC2 gene and FS. Studies have shown an association between TRPV1 genes and the appearance of FS in experimental models, however, similar studies in the human population have not been done so far. Studies Moria et al. 2012 showed that polymorphism rs222797 TRPV1 gene involve the regulation of human cortical excitability, glutamate transmission and increased neuronal excitability. The C allele this polymorphism is associated with a greater maximal response to the caspaicin and anadamine agonists. All of this indicate that changes TRPV1 gene that lead to increased channel function may suggest a predisposition for FS. Since FS are genetically controlled, we want to determine the association of TRPV1 and KCC2 gene polymorphisms with the occurrence of FN.

Study Type

OBSERVATIONAL

Enrollment

121

Conditions

Febrile Seizure

Interventions

Isolated DNA, Real Time PCRGENETIC

We are isolated DNA from the blood sample. To determine the genotypes of the analyzed polymorphisms use real-time PCR using TaqMan essays. When analyzing the KCC2 polymorphisms, the VIC dye gene corresponded to the C allele, and the FAM dye corresponded to the T allele, while at the TRPV1 gene polymorphism, the VIC dye corresponded to the C allele and the FAM dye to the G allele.

Eligibility

Sex: ALLMin age: 1 YearMax age: 14 YearsHealthy volunteers:

Medical Language ↔ Plain English

Inclusion Criteria: * Our research involve patient with diagnosed Febrile Seizure which were hospitalized or recieved ambulatory treatment in University Children´s Hospital in Belgrade * For each patient, a diagnosis of FS was made based on the ILAE definition (International Leage * The main criterion for inclusion in the study was enhanced FS without prior occurrence of afebrile seizure. Exclusion Criteria: * Patients with evidence of intracranial infections and metabolic disbalance * Patients with incomplited medical documentation

Outcomes

Primary Outcomes

Detection of the polymorphism in the TRPV1 gene polymorphisms

The detection of the polymorphism in the TRPV1 gene will be done by the PCR Real time method: During PCR ampification, in addition to primers, an allele of specific oligonucleotide probes is used, which at the 5 'end is labeled with specific fluorescent dye (Reporter dye, eg VIC and FAM), while at the 3' position there is a quencher, which is the role of blocking fluorescence emissions.The fluorescence intensity increases during each cycle and allows us to monitor dynamic reactions in real time.After the final PCR reaction, increasing the fluorescence of the dyes is displayed on the heterozygosity of the test allele. Fluorescence coupling of only one color indicates a homozygous state.VIC dye corresponds to allele C, and FAM dye to allele G.

Time frame: 2 weeks

Detection of the polymorphism in the KCC2 gene polymorphisms

The detection of the polymorphism in the KCC2 gene will be done by the PCR Real time method: During PCR ampification, in addition to primers, an allele of specific oligonucleotide probes is used, which at the 5 'end is labeled with specific fluorescent dye (Reporter dye, eg VIC and FAM), while at the 3' position there is a quencher, which is the role of blocking fluorescence emissions.The fluorescence intensity increases during each cycle and allows us to monitor dynamic reactions in real time.After the final PCR reaction, increasing the fluorescence of the dyes is displayed on the heterozygosity of the test allele. Fluorescence coupling of only one color indicates a homozygous state. VIC dye corresponds to allele C, and FAM dye to allele T.

Time frame: 2 weeks

Data from ClinicalTrials.gov

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