The brain exhibits a wide variety of spatiotemporal patterns of neuronal activity recorded using functional magnetic resonance imaging as the so-called blood-oxygenated-level–dependent (BOLD) signal. An active area of work includes efforts to best describe the plethora of these patterns evolving continuously in the brain. Here we explore the third-moment statistics of the brain BOLD signals in the resting state as a proxy to capture extreme BOLD events. We find that the brain signal exhibits typically nonzero skewness, with positive values for cortical regions and negative values for subcortical regions. Furthermore, the combined analysis of structural and functional connectivity demonstrates that relatively more connected regions exhibit activity with high negative skewness. Overall, these results highlight the relevance of recent results emphasizing that the spatiotemporal location of the relatively large-amplitude events in the BOLD time series contains relevant information to reproduce a number of features of the brain dynamics during resting state in health and disease.
Introduction Botulinum toxin type A (BoNT/A) is an approved treatment for chronic migraine and has been shown to be effective in reducing number, days, and severity of headache in other headache disorders. Whether botulinum toxin is a safe and effective treatment specifically for post-traumatic headache (PTH), however, is unknown. This study sought to determine whether treatment with BoNT/A improved symptoms of PTH in military veterans. Materials and Methods Forty subjects with PTH were randomized to receive treatment of either BoNT/A or a saline placebo. Sixteen weeks post-treatment or at return to baseline headache severity, subjects were crossed over to receive treatment with the other medication than previously treated with in the first session. Subjects recorded number of headaches, number of headache days, and headache pain severity in daily diaries. Outcome measures included change in the weekly number of headaches, number of headache days per week, and headache pain severity compared to baseline, and the change in number of headaches and number of headaches days at baseline compared to the rating scores averaged across weeks 6–11. Results The number of headaches per week significantly decreased by 2.24 (43.3%) with BoNT/A treatment (P < .001) and significantly increased by 1.28 (35.1%) with placebo (P = .02) at the end of the 16 weeks and the difference between groups was also significant (P < .001). The number of headache days per week also significantly decreased by 2.24 (44.4%) at the end of 16 weeks with BoNT/A treatment (P < .001), was not significantly changed with placebo, and the difference between the two groups was significant (P < .001). Both the change in number of headaches and number of headache days averaged across weeks 6–11 compared to baseline were significantly decreased in the BoNT/A group (1.6 and 1.4, respectively) compared to a significant increase of 0.3 in number of weekly headaches and a nonsignificant decrease of 0.1 in number of headache days for the placebo group (P = .048 and P = .005, respectively). Headache pain severity was significantly reduced by 0.06 with botulinum toxin treatment (P = .02) and was not significantly increased by 0.04 in the placebo group with a significant difference between groups (P = .006). Conclusions Treatment with BoNT/A clinically and significantly improved the frequency and pain severity of PTH compared to placebo in military veterans. Limitations of the study include subject dropout, adherence to documenting variables daily in the dairy, and only one treatment of BoNT/A. Strengths include the cross-over study design, which demonstrated that BoNT/A was effective regardless of treatment order. This dataset is the first prospective study to evaluate BoNT/A as an intervention for symptoms of PTH and provides evidence that larger-scale and multiple treatment studies evaluating BoNT/A for this headache type are warranted.
Scanning laser-Doppler imaging flux values provide a reference for identifying patients at risk for tissue ischemia and poor healing potential caused by impaired circulatory reserve in the legs and distal feet. The lack of correlation between flux and transcutaneous oxygen in healthy individuals suggests that they measure different physiologic processes.
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