Abstract P811: Oral Curcumin Treatment Facilitates Recovery of Function in a Rhesus Monkey Model of Cortical Injury

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Curcumin is a primary component of the spice turmeric, and is a potent anti-inflammatory and anti-oxidant compound. In rodent models of brain damage from stroke or trauma, curcumin acts primarily on microglia and astrocytes to inhibit pro-inflammatory signaling pathways and to reduce inflammation and levels of reactive oxygen species (ROS). Further, rats with cortical injury treated with curcumin have smaller lesions and fewer neurological impairments than those treated with vehicle. However, it is not clear whether curcumin exerts the same biological effect in primate brains as in rodent brains, and the effects of curcumin have not yet been extensively tested in monkey models of brain injury. Data from our laboratory has demonstrated that curcumin enhances spatial working memory and motor function in normal aging rhesus monkeys given daily doses of dietary curcumin over two years. The question remains as to whether chronic dietary curcumin can enhance neuroprotection and dampen or ameliorate functional motor deficits after cortical injury. Thus, we administered curcumin to adult, male rhesus monkeys daily for two weeks prior to and 12 weeks following induced cortical injury to the hand-representation of primary motor cortex (M1). Monkeys given daily treatment with oral doses of curcumin, but not those given vehicle, demonstrated significantly enhanced recovery of function in terms of time to retrieve a food reward on our hand dexterity task (HDT). In addition, treated monkeys returned to pre-injury finger-thumb grasp patterns on the HDT, while monkeys that received vehicle developed a compensatory whole hand grasp pattern and never returned to pre-injury grasp. These findings provide evidence that the anti-inflammatory compound, curcumin, is an effective treatment for facilitating recovery of function following cortical injury. Studies investigating the effect of curcumin on the microglia and astrocytes in the brains from these monkeys will provide evidence of the role of curcumin in reducing inflammation and ROS following injury.