Introduction
The central nervous system (CNS) is the most metabolically active organ characterized by high oxygen demand and relatively low anti-oxidative activity, which makes neurons and glia highly susceptible to damage by reactive oxygen and nitrogen byproducts as well as neurodegeneration. Free radicals are associated with secondary injuries that occur after a primary brain injury. Some of these free radical products include F2-Isoprostane (F2-IsoPs), malondialdehyde (MDA), 4-hydroxy-2-nonenal (4-HNE) and acrolein.
Methods
In this study we measured serum F2-IsoPs levels as markers of free radical activity in 10–12 week-old male Sprague-Dawley rats weighing 200–300 g, all rats (n = 10) subjected with a head injury according to the modified marmourou model, then divided into 2 groups, one group treated with CAPE (Caffeic Acid Phenethyl Ester) (n = 5) and the other not treated with CAPE (n = 5), serum levels in the two groups were compared starting from day-0 (before brain injury), day-4 and day-7.
Results
We found lower F2-IsoPs levels in the group that received the CAPE treatment compared to the group that did not receive the CAPE treatment.
Conclusion
CAPE is capable of significantly reducing oxidative stress in brain injury.
Background
A head injury is a very dangerous condition that threatens human life. This study examines the use of caffeic acid phenethyl ester (CAPE) in reducing cerebral edema in cases of head injury. The purpose of this study is to demonstrate whether CAPE can improve various parameters related to the expression of Aquaporin-4 (AQP4) mRNA and the serum AQP4 levels in rat subjects.
Methods
This is a randomized controlled study using a posttest-only control group design that uses experimental animals—specifically, male
Rattus norvegicus
(
Sprague Dawley
strain) rats aged 10–12 weeks and weighing 200–300 g. This study used a head injury model according to Marmarou (1994) with minor modifications to the animal model fixation tool. The parameters of the AQP4 mRNA were examined with real-time PCR, while serum AQP4 levels were examined with sandwich ELISA.
Results
The AQP4 mRNA expression in rats that were given CAPE was lower than those not given CAPE, both on the fourth and seventh days; serum AQP4 levels in rats that were given CAPE were also lower than those not given CAPE, both on the fourth and seventh days.
Conclusion
Administration of CAPE in a rat model with head injury can reduce cerebral edema, mediated by AQP4.
Background
Traumatic brain injury is a dangerous life threatening condition. This study examines the role of MLC901 in increasing neurogenesis. The aim of this study was to demonstrate the role of MLC901 in increasing neuron cell (neurogenesis) in rat with traumatic brain injury using the synaptophysin marker.
Methods
The synaptophysin levels were measured as a marker for neuron cell (neurogenesis) of brain nerve cells in Sprague-Dawley rats aged 10–12 weeks, weighing 200–300 g. All rats (n = 10) were performed as traumatic brain injury using The Modified Marmourou Model, then they were divided into 2 group, one group was given MLC901 (n = 5) and the other group was not given MLC901 (n = 5). The synaptophysin levels in both groups were assessed after 6 weeks and also carried out an examination of immnuhistochemical from the brain tissue of both groups.
Results
There was an increase in the number of neuron cells as evidenced by synaptophysin ihc staining in the rats given MLC 901 (Neuroaid II) compared to those without MLC 901. Synaptophysin levels were lower in the control group than in the MLC 901 group (81.6, SD: 13.52 vs 118.4, SD: 12.198, p = 0.062).
Conclusion
These research suggest that MLC901 can increase neurogenesis in traumatic brain injury and also appeared as synaptophysin antibody that binding to cytoplasm of neuronal cells in the rat brain.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.