Due to irreversible damage following head trauma, many overlapping pathophysiological events occur including excitotoxicity, acidotoxicity, ionic imbalance, edema, oxidative stress inflammation and apoptosis.In this this study, after the rats were separated in to groups theserats were fed throughout fourteen days with betaine, omega-3 or betaine+omega-3 combination in physiological limits prior to the trauma. After a closed head trauma, the damaged brain tissues were collected for biochemically and histologically analyses. This examination involved analyses of levels of caspase-3 and cytochrome C and neuron-specific enolase (NSE) levels in brain tissue.These analyses showed that traumatic brain injury (TBI) caused an increase in the levels of caspase-3, cytochrome C and neuron-specific enolase (NED) in the brain tissues examined.In this study, apoptotic and/or necrotic cell death via mitochondrial cytochrome C caspase pathway in traumatized cells and neuron-specific enolase (NED) increase indicative of neuronal damage confirmed the research hypothesis.Level of the biomarkers induced by brain injury in the groups fed with betaine, omega-3 and betaine+omega-3 combination before the traumatic damage approximated to that of control group values, suggesting that these products may have a neuroprotective role.Betain, Caspase-3, Cytochrome C and Neuron-specific enolase, Omega-3, Traumatic brain injury.