[Predictive capability of Cys112Arg single nucleotide polymorphisms of the apolipoprotein E gene in assessing the risk of immediate and early post-traumatic seizures].
K K KriukovaE V AlexandrovaOlga N VoskresenskayaV V PodlepichA D KravchukEric RytkinYa A LatyshevDmitry Anatolievich KudlaySusanna S SologovaS A AlbagachievM A MandrikPublished in: Terapevticheskii arkhiv (2023)
This study is aimed at investigating epileptic seizures, one of the consequences of traumatic brain injury (TBI). Immediate and early post-traumatic seizures, as well as late post-traumatic epileptic seizures or post-traumatic epilepsy, can have different pathogenetic bases. The following key risk factors associated with post-traumatic epilepsy are known: duration of unconsciousness, gunshot wounds, intracranial hemorrhage, diffuse axonal injury, prolonged (more than 3 days) post-traumatic amnesia, acute subdural hematoma with surgical evacuation, immediate and early post-traumatic epileptic seizures, fracture of the skull bones. The role of genetic factors in post-traumatic seizures is poorly understood due to the complexity and multiple causal mechanisms. This paper addresses the role of genetic factors in the occurrence and severity of epileptic events in patients with TBI. In particular, we investigated the role of the Cys112Arg single nucleotide polymorphism of the apolipoprotein E gene. Apolipoprotein E is known for its role in the transport and metabolism of lipids and, therefore, the development of cardiovascular diseases; it is also associated with Alzheimer's disease and has recently been studied in the context of association with epilepsy. The study shows an association between this polymorphism and the risk of immediate and early epileptic seizures in patients with severe TBI.
Keyphrases
- traumatic brain injury
- temporal lobe epilepsy
- genome wide
- copy number
- cardiovascular disease
- severe traumatic brain injury
- spinal cord injury
- dna methylation
- mild traumatic brain injury
- early onset
- mass spectrometry
- coronary artery disease
- respiratory failure
- high resolution
- intensive care unit
- cognitive decline
- low grade
- mechanical ventilation
- high grade
- genome wide identification
- hip fracture