Sleep deprivation is common among university students, and has been associated with poor academic performance and physical dysfunction. However, current literature has a narrow focus in regard to domains tested, this study aimed to investigate the effects of a night of sleep deprivation on cognitive and physical performance in students. A randomized controlled crossover study was carried out with 64 participants [58% male (n = 37); 22 ± 4 years old (mean ± SD)]. Participants were randomized into two conditions: normal sleep or one night sleep deprivation. Sleep deprivation was monitored using an online time-stamped questionnaire at 45 min intervals, completed in the participants’ homes. The outcomes were cognitive: working memory (Simon game© derivative), executive function (Stroop test); and physical: reaction time (ruler drop testing), lung function (spirometry), rate of perceived exertion, heart rate, and blood pressure during submaximal cardiopulmonary exercise testing. Data were analysed using paired two-tailed T tests and MANOVA. Reaction time and systolic blood pressure post-exercise were significantly increased following sleep deprivation (mean ± SD change: reaction time: 0.15 ± 0.04 s, p = 0.003; systolic BP: 6 ± 17 mmHg, p = 0.012). No significant differences were found in other variables. Reaction time and vascular response to exercise were significantly affected by sleep deprivation in university students, whilst other cognitive and cardiopulmonary measures showed no significant changes. These findings indicate that acute sleep deprivation can have an impact on physical but not cognitive ability in young healthy university students. Further research is needed to identify mechanisms of change and the impact of longer term sleep deprivation in this population.
using paired two-tailed T tests and MANOVA. Reaction time and systolic blood pressure post-exercise were significantly increased following sleep deprivation (mean ± SD change: reaction time: 0.15 ± 0.04 s, p = 0.003; systolic BP: 6 ± 17 mmHg, p = 0.012). No significant differences were found in other variables. Reaction time and vascular response to exercise were significantly affected by sleep deprivation in university students, whilst other cognitive and cardiopulmonary measures showed no significant changes. These findings indicate that acute sleep deprivation can have an impact on physical but not cognitive ability in young healthy university students. Further research is needed to identify mechanisms of change and the impact of longer term sleep deprivation in this population.
Background The evidence for mechanical thrombectomy in acute basilar artery occlusion has until now remained inconclusive with basilar artery strokes associated with high rates of death and disability. This systematic review and meta-analysis will summarize the available evidence for the effectiveness of mechanical thrombectomy in acute basilar artery occlusion compared to best medical therapy. Methods A systematic review and meta-analysis was performed and presented in conformity with the PRISMA statement (Preferred Reporting Items for Systematic Reviews and Meta-Analyses) to test the primary hypothesis that mechanical thrombectomy for basilar artery occlusion is associated with a different rate of good neurological outcome (modified Rankin Scale (mRS) ≤ 3) at day 90. Secondary outcomes included mortality, symptomatic intracranial hemorrhage (sICH) and excellent functional outcome (mRS ≤ 2). We calculated risk ratios (RRs) and 95% confidence intervals (CIs) to summarize the effect estimates for each outcome. Results We performed a random effects (Mantel-Haenszel) meta-analysis of the four included randomized controlled trials comprising a total of 988 participants. We found a statistically significant improvement in the rates of those with a good functional outcome (mRS 0–3, RR 1.54, 1.16–2.06, p = 0.003) and an excellent functional outcome (mRS 0–2, RR 1.69, 1.05–2.71, p = 0.03) in those who were treated with thrombectomy when compared to best medical therapy alone. Thrombectomy was associated with a higher level of sICH (RR 7.12, 2.16–23.54, p = 0.001) but this was not reflected in a higher mortality rate, conversely the mortality rate was significantly lower in the intervention group (RR 0.76, 0.65–0.89, p = 0.0004). Conclusions Our meta-analysis of the recently presented randomized controlled studies is the first to confirm the disability and mortality benefit of mechanical thrombectomy in basilar artery stroke.
We and others have demonstrated that altering metabolism through the use of a ketogenic diet (KD) has numerous effects in mouse models of malignant glioma including slowed growth, reduced hypoxia and angiogenesis, enhanced survival and potentiation of the effects of radiation and chemotherapy. These effects are recapitulated in vitro when the ketone β-hydroxybutyrate (BHB) is added to mouse and human malignant glioma cells grown under high glucose conditions. BHB has been demonstrated to be an epigenetic modifier, providing a potential mechanism for the pluripotent effects of ketones even in the presence of high glucose. Therefore, we have analyzed alterations in microRNA (miRNA) expression in tumors and cells treated with a KD or BHB, respectively. MicroRNAs are short, single-stranded, noncoding RNAs that posttranscriptionally control gene expression. Each miRNA can affect the expression of many genes and they are implicated in all hallmarks of cancer. We found a number of miRNAs deregulated in tumor tissue from mice fed a KD, particularly mmu-miR-138 which was increased over 30-fold relative to tumors from mice fed a standard diet. MiR-138 is involved in a variety of anti-tumor effects that correlate with our data from KD treated gliomas. We have shown that ketones radiosensitize glioma cells, potentially through a reduction in DNA damage repair. MiR-138 has been shown to reduce the expression of H2AX which plays a key role in sensing and repairing DNA damage. Hypoxia inducible factor-1α (HIF-1α) is also a target of miR-138, and we have demonstrated a reduction in hypoxia, angiogenesis and the expression of HIF-1α in tumors from mice fed a KD. Furthermore, when we genetically engineered tumor cells to express miR-138 and injected them into mice, only necrotic tumor foci were found. Thus, we suggest that miR-138 is an important regulatory mechanism for the anti-tumor actions of metabolic ketosis in glioma.
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