Article ID Journal Published Year Pages File Type
4353222 Progress in Neurobiology 2016 23 Pages PDF
Abstract

•Combination therapies yielded a positive benefit in 46% of the studies.•Combination therapies yielded a neutral benefit in 35% of the studies.•Combination therapies yielded a negative benefit in only 19% of the studies.•Combining stem cells with EE (i.e., neurorehabilitation) produces robust benefits.•No negative effects revealed in studies focusing on stem cells and oxidative stress.•The answer to the question “is more better” is a cautiously optimistic YES.

Traumatic brain injury (TBI) is a significant health care crisis that affects two million individuals in the United Sates alone and over ten million worldwide each year. While numerous monotherapies have been evaluated and shown to be beneficial at the bench, similar results have not translated to the clinic. One reason for the lack of successful translation may be due to the fact that TBI is a heterogeneous disease that affects multiple mechanisms, thus requiring a therapeutic approach that can act on complementary, rather than single, targets. Hence, the use of combination therapies (i.e., polytherapy) has emerged as a viable approach. Stringent criteria, such as verification of each individual treatment plus the combination, a focus on behavioral outcome, and post-injury vs. pre-injury treatments, were employed to determine which studies were appropriate for review. The selection process resulted in 37 papers that fit the specifications. The review, which is the first to comprehensively assess the effects of combination therapies on behavioral outcomes after TBI, encompasses five broad categories (inflammation, oxidative stress, neurotransmitter dysregulation, neurotrophins, and stem cells, with and without rehabilitative therapies). Overall, the findings suggest that combination therapies can be more beneficial than monotherapies as indicated by 46% of the studies exhibiting an additive or synergistic positive effect versus on 19% reporting a negative interaction. These encouraging findings serve as an impetus for continued combination studies after TBI and ultimately for the development of successful clinically relevant therapies.

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Life Sciences Neuroscience Neuroscience (General)
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