To assess the efficacy of single-dose antibiotic prophylaxis in coronary artery bypass grafting, 1,016 consecutive patients were prospectively randomized to receive either a single dose or a three-day course of cefuroxime. Nine patients (0.9%) died within seven days; no death was caused by infection. For various reasons 163 other patients were not evaluable. Therefore, 844 patients were evaluated. Patients in group A (n = 419) received 20 mg/kg cefuroxime intravenously at induction of anaesthesia; group B (n = 425) received the same dose followed by 750 mg t.i.d. for three consecutive days. Both groups were comparable regarding all risk factors. The efficacy of the prophylactic regimens was evaluated by comparison of occurrence of wound infection in both groups. No significant differences in wound infection were observed between the two treatment groups: sternal site infection in the single-dose prophylaxis group was 14% versus 13% in the three-day course group; donor site infection occurred in 38% versus 39%. It is concluded that in coronary artery bypass grafting a single dose of cefuroxime is as effective as a three-day course in the prevention of wound infection.
BackgroundEphA4 is a receptor of the ephrin system regulating spine morphology and plasticity in the brain. These processes are pivotal in the pathophysiology of Alzheimer’s disease (AD), characterized by synapse dysfunction and loss, and the progressive loss of memory and other cognitive functions. Reduced EphA4 signaling has been shown to rescue beta-amyloid-induced dendritic spine loss and long-term potentiation (LTP) deficits in cultured hippocampal slices and primary hippocampal cultures. In this study, we investigated whether EphA4 ablation might preserve synapse function and ameliorate cognitive performance in the APPPS1 transgenic mouse model of AD.MethodsA postnatal genetic ablation of EphA4 in the forebrain was established in the APPPS1 mouse model of AD, followed by a battery of cognitive tests at 9 months of age to investigate cognitive function upon EphA4 loss. A Golgi-Cox staining was used to explore alterations in dendritic spine density and morphology in the CA1 region of the hippocampus.ResultsUpon EphA4 loss in APPPS1 mice, we observed improved social memory in the preference for social novelty test without affecting other cognitive functions. Dendritic spine analysis revealed altered synapse morphology as characterized by increased dendritic spine length and head width. These modifications were independent of hippocampal plaque load and beta-amyloid peptide levels since these were similar in mice with normal versus reduced levels of EphA4.ConclusionLoss of EphA4 improved social memory in a mouse model of Alzheimer’s disease in association with alterations in spine morphology.
Worldwide, stroke is the main cause of long-term adult disability. After the initial insult, most patients undergo a subacute period with intense plasticity and rapid functional improvements. This period is followed by a chronic phase where recovery reaches a plateau that is only partially modifiable by rehabilitation. After experimental stroke, various subacute rehabilitation paradigms improve recovery. However, in order to reach the best possible outcome, a combination of plasticity-promoting strategies and rehabilitation might be necessary. EphA4 is a negative axonal guidance regulator during development. After experimental stroke, reduced EphA4 levels improve functional outcome with similar beneficial effects upon the inhibition of EphA4 downstream targets. In this study, we assessed the effectiveness of a basic enriched environment in the chronic phase after photothrombotic stroke in mice as well as the therapeutic potential of EphA4 targeted therapy followed by rehabilitation. Our findings show that environmental enrichment in the chronic phase improves functional outcome up to 2 months post-stroke. Although EphA4 levels increase after experimental stroke, subacute EphA4 inhibition followed by environmental enrichment does not further increase recovery. In conclusion, we show that environmental enrichment during the chronic phase of stroke improves functional outcome in mice with no synergistic effects of the used EphA4 targeted therapy.
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