Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:2.7.10.1 (
ERK
)
95,504
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
SE in the pediatric age group presents challenges in diagnosis and management. There is need for renewed consensus on the temporal definition of SE, both clinical and electrographic. SE in children exhibits an age-dependent vulnerability, with genetic predisposition and etiology as determinants of susceptibility. Nonepileptic phenomena may mimic SE. Clinical and electrographic SE in neonates are relatively rare, while serial (clinical and electrographic) and repetitive seizures are more common. Neurometabolic disease, chromosomal disorders, and abnormalities of cortical development are important etiological considerations. Abrupt discontinuation of or an aberrant response to AEDs can also precipitate SE. Metabolic perturbations and toxins can further aggravate the situation. Clinical and experimental data suggest that the longer a seizure lasts, the more difficult it becomes to control, and that seizures can have immediate and long-term adverse consequences on the immature and developing brain. Hence, treatment (usually with a benzodiazepine) should be started early in the clinical course. A trial of pyridoxine, biotin, or folinic acid should be considered in the appropriate clinical setting (e.g., neonates or young infants, in particular).
Phenytoin
/fosphenytoin and phenobarbital remain important treatment options. Pentobarbital and midazolam are preferred choices in the management of
RSE
. Once metabolic causes are excluded, children with
RSE
should be evaluated for surgical treatment early in the clinical course. Clinical guidelines based on best available evidence have to be periodically reviewed. The clinical consequences and management of electrographic SE, especially in the neonate, have to be addressed. Guidelines for continuous (video) EEG monitoring are needed to facilitate this task. AEDs that do not have an adverse effect on the developing brain have to be developed. Our review suggests a continuing need for prospective studies into all aspects of SE in the pediatric age group.
...
PMID:Status epilepticus in pediatric practice: neonate to adolescent. 1638 32
Phenytoin
(
PHT
) oxidative route leads to its main metabolite p-hydroxyphenytoin (p-HPPH), by means of CYP2C9 and CYP2C19. Formation of p-HPPH proceeds via a reactive arene-oxide intermediate. This intermediate can also be converted into
PHT
dihydrodiol by microsomal epoxide hydrolase (
EPHX
). The three enzymes are polymorphically expressed and the genetic variants are responsible for changes in the enzyme activity. In order to evaluate the effect that these polymorphisms have on
PHT
metabolism,
PHT
and p-HPPH plasma concentrations were measured and the genotype for the three enzymes was assessed in 50 Uruguayan epileptic patients. 30% of the patients were intermediate and 2% were poor metabolizers for CYP2C9, while 20% were intermediate metabolizers for CYP2C19. 44%, 10%, and 46% of subjects had intermediate, increased and decreased activities of
EPHX
respectively. CYP2C9 was confirmed to be the main responsible enzyme for
PHT
biotransformation. CYP2C19 seemed to be preponderant in p-HPPH oxidative metabolism. Apart from being responsible for the production of the dihydrodiol metabolite,
EPHX
also seemed to contribute to pHPPH formation when its activity is low.
PHT
might be recovered with a decreased activity of
EPHX
regardless the activity of CYP2C9.
...
PMID:Role of CYP2C9, CYP2C19 and EPHX Polymorphism in the Pharmacokinetic of Phenytoin: A Study on Uruguayan Caucasian Subjects. 2882 Apr 57
