Lancet neurology
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Randomized Controlled Trial Multicenter Study
Rivaroxaban or aspirin for patent foramen ovale and embolic stroke of undetermined source: a prespecified subgroup analysis from the NAVIGATE ESUS trial.
Patent foramen ovale (PFO) is a contributor to embolic stroke of undetermined source (ESUS). Subgroup analyses from previous studies suggest that anticoagulation could reduce recurrent stroke compared with antiplatelet therapy. We hypothesised that anticoagulant treatment with rivaroxaban, an oral factor Xa inhibitor, would reduce the risk of recurrent ischaemic stroke compared with aspirin among patients with PFO enrolled in the NAVIGATE ESUS trial. ⋯ Bayer and Janssen.
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Randomized Controlled Trial Multicenter Study
Safety, tolerability, and preliminary efficacy of an IGF-1 mimetic in patients with spinal and bulbar muscular atrophy: a randomised, placebo-controlled trial.
Spinal and bulbar muscular atrophy is an X-linked neuromuscular disease caused by CAG repeat expansion in the androgen receptor gene. Patients with this disease have low concentrations of insulin-like growth factor-1 (IGF-1), and studies of overexpression and administration of IGF-1 showed benefit in a transgenic model; thus the IGF-1 pathway presents as a potential treatment target. We assessed safety, tolerability, and preliminary efficacy of BVS857, an IGF-1 mimetic, in patients with spinal and bulbar muscular atrophy. ⋯ Novartis Pharmaceuticals and the US National Institutes of Health.
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Advances in diagnostic technology, including chronic intracranial EEG recordings, have confirmed the clinical observation of different temporal patterns of epileptic activity and seizure occurrence over a 24-h period. The rhythmic patterns in epileptic activity and seizure occurrence are probably related to vigilance states and circadian variation in excitatory and inhibitory balance. ⋯ Improved prediction of seizure occurrence opens the possibility for personalised antiepileptic drug-dosing regimens timed to particular phases of the circadian cycle to improve seizure control and to reduce side-effects and risks associated with seizures. Further studies are needed to clarify the pathways through which rhythmic patterns of epileptic activity are generated, because this might also inform future treatment options.
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Cardiac complications are a frequent medical problem during the first few days after an ischaemic stroke, and patients present with a broad range of symptoms including myocardial injury, cardiac dysfunction, and arrhythmia, with varying overlap between these three conditions. Evidence from clinical and neuroimaging studies and animal research suggests that these cardiac disturbances share the same underlying mechanisms. Although the exact cascade of events has yet to be elucidated, stroke-induced functional and structural alterations in the central autonomic network, with subsequent dysregulation of normal neural cardiac control, are the assumed pathophysiology. ⋯ These stroke-associated cardiac alterations can be summarised as a distinct so-called stroke-heart syndrome. Independent cohort studies have shown a strong association between this syndrome and unfavourable short-term prognosis; however, long-term consequences, including secondary cardiac events and death, are less well described and specific therapeutic targets are scarce. An integrated view of stroke-heart syndrome will offer opportunities to expedite research and inform clinical decision making.
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Although recent technical advances in thrombectomy have revolutionised acute stroke treatment, prevalence of disability and death related to stroke remain high. Therefore, plasminogen activators-eukaryotic, bacterial, or engineered forms that can promote fibrinolysis by converting plasminogen into active plasmin and facilitate clot breakdown-are still commonly used in the acute treatment of ischaemic stroke. ⋯ Additionally, the mechanism of action for plasminogen activators could extend beyond the vessel lumen and involve plasminogen-independent processes, which would suggest that plasminogen activators have also non-fibrinolytic roles. Understanding the complex mechanisms of action of plasminogen activators can guide future directions for therapeutic interventions in patients with stroke.