Articles: stroke.
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Stroke is characterized by "three highs," and dysphagia is a common dysfunction after stroke. Although some patients can gradually recover from dysphagia with the prolongation of the course of the disease, it is easy to change the prognosis of patients due to complications in the early stage of the disease, and clinical research has shown that pressing needle embedding needles can improve the outcome of patients with dysphagia after stroke. ⋯ The application of press needle embedding can improve swallowing function after stroke, and have more significant effects, which can change the clinical outcome of patients. Pressing needle embedding has significant clinical advantages in the treatment of dysphagia after stroke, which can improve the prognosis of patients.
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Libman-Sacks endocarditis is an important cause of embolic stroke in systemic lupus erythematosus, although the detailed pathogenesis of stroke remains unclear. We herein report two cases of stroke with Libman-Sacks endocarditis in which the emboli were retrieved by mechanical thrombectomy. ⋯ Immunohistochemistry showed immunoglobulin deposits in the embolus, suggesting that immunological mechanisms were involved in the growth of the embolus. A pathological analysis of the embolus retrieved by mechanical thrombectomy provided useful information on the etiology, leading to optimal treatment.
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Despite recent advances in acute stroke management, most patients experiencing a stroke will suffer from residual brain damage and functional impairment. Addressing those residual deficits would require neurorestoration, i.e., rebuilding brain tissue to repair the structural brain damage caused by stroke. However, there are major pathobiological, anatomical and technological hurdles making neurorestorative approaches remarkably challenging, and true neurorestoration after larger ischemic lesions could not yet be achieved. ⋯ This review gives a detailed explanation of the major hurdles so far preventing the achievement of neurorestoration after stroke. It will also describe novel concepts and advancements in biomaterial science, brain organoid culturing, and animal modeling that may enable the investigation of post-stroke neurorestorative approaches in translationally relevant setups. Finally, there will be a review of recent achievements in experimental studies that have the potential to be the starting point of research and development activities that may eventually bring post-stroke neurorestoration within reach.
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Ischaemic stroke is a major cause of morbidity and mortality worldwide. Blood clotting and thromboembolism play a central role in the pathogenesis of ischaemic stroke. An increasing number of recent studies indicate changes in blood clot structure and composition in patients with ischaemic stroke. ⋯ Mechanisms that drive clot composition and architecture such as neutrophil extracellular traps and clot contraction are also discussed. We find that, while in vitro clot structure in plasma samples from ischaemic stroke patients are consistently altered, showing denser clots that are more resistant to fibrinolysis, current data on the composition and architecture of ex vivo clots obtained by thrombectomy are more variable. With the potential of advances in technologies underpinning both the imaging and retrieving of clots, we expect that future studies in this area will generate new data that is of interest for the diagnosis, optimal treatment strategies and clinical management of patients with ischaemic stroke.
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Following a stroke, an inflammatory response occurs, characterized by an increased blood-brain barrier permeability, expression of endothelial trafficking molecules, and infiltration of immune cells. Adhesion molecules expressed on activated brain endothelial cells are potential biomarkers of intraparenchymal inflammation. ⋯ In this review, we highlight the most recent studies that used immuno-MRI in models of neurovascular disorders, including transient ischemic attack, ischemic stroke, intracranial hemorrhage, and subarachnoid hemorrhage. We also discuss the potential of immuno-MRI in clinical practice and the necessary next steps for its implementation in patients.