Prolonging the therapeutic window for valproic acid treatment in a swine model of traumatic brain injury and hemorrhagic shock.

BACKGROUND: It has previously been shown that administration of valproic acid (VPA) can improve outcomes if given within an hour following traumatic brain injury (TBI). This short therapeutic window (TW) limits its use in real-life situations. Based upon its pharmacokinetic data, we hypothesized that TW can be extended to 3 hours if a second dose of VPA is given 8 hours after the initial dose. METHOD: Yorkshire swine (40-45 kg; n = 10) were subjected to TBI (controlled cortical impact) and 40% blood volume hemorrhage. After 2 hours of shock, they were randomized to either (1) normal saline resuscitation (control) or (2) normal saline-VPA (150 mg/kg × two doses). First dose of VPA was started 3 hours after the TBI, with a second dose 8 hours after the first dose. Neurologic severity scores (range, 0-36) were assessed daily for 14 days, and brain lesion size was measured via magnetic resonance imaging on postinjury day 3. RESULTS: Hemodynamic and laboratory parameters of shock were similar in both groups. Valproic acid-treated animals had significantly less neurologic impairment on days 2 (16.3 ± 2.0 vs. 7.3 ± 2.8) and 3 (10.9 ± 3.6 vs. 2.8 ± 1.1) postinjury and returned to baseline levels 54% faster. Magnetic resonance imaging showed no differences in brain lesion size on day 3. Pharmacokinetic data confirmed neuroprotective levels of VPA in the circulation. CONCLUSION: This is the first study to demonstrate that VPA can be neuroprotective even when given 3 hours after TBI. This expanded TW has significant implications for the design of the clinical trial.

Recombinant human MG53 protein attenuates brain lesion size in a large animal model of traumatic brain injury.

BACKGROUND: MG53, a member of the tripartite motif (TRIM) protein family, plays an essential role in cell membrane repair and promotes cell survival. Recent studies show that systemic delivery of recombinant human MG53 (rhMG53) protein markedly attenuates tissue injury/inflammation, and facilitates healing. This study was performed to test whether intravenous administration of rhMG53 protein would decrease the lesion size in a clinically relevant large animal model of traumatic brain injury (TBI). METHOD: Yorkshire swine (40-45 kg; n = 5/group) were subjected to controlled cortical impact TBI and randomized to either: (1) rhMG53 protein (2 mg/kg, intravenous) or (2) normal saline control. Hemodynamics, intracranial pressure, and brain oxygenation were monitored for 7 hours. Brains were then harvested and sectioned into 5-mm slices and stained with 2,3,5-triphenyltetrazolium chloride to quantify the lesion size. Blood-brain barrier permeability of MG53 in the brain was determined by Western blot and immunohistochemistry. Bcl-2 and phospho-GSK ß levels were measured as makers of prosurvival pathway activation. RESULTS: Hemodynamic parameters were similar in both groups, but the lesion size in the rhMG53-treated group (2,517 ± 525.4 mm 3 ) was significantly ( p < 0.05) smaller than the control group (3,646 ± 740.1 mm 3 ). In the treated animals, rhMG53 was detected in the regions surrounding the TBI, but it was absent in the saline-treated control animals. Bcl-2 and phospho-GSK ß levels in the brains were upregulated in the rhMG53-treated animals. CONCLUSION: Intravenously administered rhMG53 localizes to the injured areas of the brain, with the treated animals demonstrating a significant attenuation in the brain lesion size following TBI.