Neuroregenerative Effects of Simvastatin in TBI
Chauhan, Neelima B.   
Jesse Brown VA Medical Center, Chicago, IL, United States

Traumatic brain injury (TBI) has emerged as a Signature injury among U.S. forces serving in Afghanistan and Iraq wars. In the combat situation, treatment for Veterans sustaining TBI is often delayed due to several reasons including instant un-/mis-identification, appearance of symptoms days/weeks/months after injury, and hence soldiers sustaining TBI are highly likely to be returned to the battlefield before subtle TBI problems are resolved. A Veteran's first interaction with the VA provider may occur months or even years after actual TBI event, and significant number of these Veterans might not seek care from VA until several months or even years after their return from the combat and their transition to Veteran status. Furthermore, some of the symptoms of TBI, such as irritability and insomnia, may overlap with other conditions, such as post-traumatic stress disorder (PTSD), and hence may be mis-treated. Therefore, considerable cases of TBI may go undiagnosed and untreated until much later after actual injury that adds to the growing heterogeneity of TBI injury per se. Current therapeutic strategies do help TBI patients to regain some degree of function, but there remains a compelling need for investigating therapeutic efficacy of candidate drugs as a late stage treatment after TBI, that most Veterans are currently facing. Given the multifactorial heterogeneous nature of TBI spanning over an extended period of time from days-months-years, and given the increasing number of returning war Veterans already sustaining TBI but facing undiagnosed and untreated status, pre-disposed to long term TBI heterogeneity, calls for a treatment aimed at multiple therapeutic targets rather than mono- treatment. In that regard, known pleiotropy of Simvastatin including its neurotrophic, neuroregenerative, synaptotrophic and anti-inflammatory properties, independent of its cholesterol-lowering properties, are remarkable. With particular reference to Simvastatin, studies reported this far have shown immediate treatment effects of Simvastatin after TBI, and did not address current need for late treatment of TBI Veterans. This project will test the hypothesis that Post-acute treatment with Simvastatin will effectively restore neuronal and synaptic integrity and improve functional outcome in the CCI mouse model of TBI by analyzing neuro-axonal- dendritic re-growth and connectivity, expression of neurotrophic factors critically involved in neuroregeneration, synaptic neurotransmitter markers critically involved in learning and memory, and by evaluating functional outcome after Simvastatin treatment at a more chronic stage after TBI.

Public Health Relevance

Approximately, ~28,000 returning Service Members sustain TBI each year. Service Members who already have sustained TBI may again be deployed to the battlefield due to the uncertainty of TBI screening instrument (TBISI) and mixed/overlapping symptoms of TBI/PTSD. Sustaining second concussion before the previous one is resolved, puts these Service Members at a high risk of developing long-term neurodegeneration. Considerable cases of TBI may go 'undiagnosed' and 'untreated' until much later after actual injury. Current therapeutic strategies do help TBI Veterans to some degree, but there remains a compelling need for investigating therapeutic efficacy of candidate drugs as a 'late stage' treatment to manage heterogenic chronic disability from TBI, that most Veterans are currently facing. This investigation is to evaluate post-acute effects of Simvastatin in a controlled cortical impact (CCI) model of TBI that will address an unmet need for treating Veterans who suffer chronic disability from TBI, and thus will address highest VA research priority.