Abstract
Stroke is a serious, adverse neurological event and the third leading cause of death and disability worldwide. Most strokes are caused by a block in cerebral blood flow, resulting in neurological deficits through the death of brain tissue. Recombinant tissue plasminogen activator (rt-PA) is currently the only immediate treatment medication for stroke. The goal of rt-PA administration is to reduce the thrombus and/or embolism via thrombolysis; however, the administration of rt-PA must occur within a very short therapeutic timeframe (3 h to 6 h) after symptom onset. Components of the pathological mechanisms involved in ischemic stroke can be used as potential biomarkers in current treatment. However, none are currently under investigation in clinical trials; thus, further studies investigating biomarkers are needed. After ischemic stroke, microglial cells can be activated and release inflammatory cytokines. These cytokines lead to severe neurotoxicity via the overactivation of microglia in prolonged and lasting insults such as stroke. Thus, the balanced regulation of microglial activation may be necessary for therapy. Stem cell therapy is a promising clinical treatment strategy for ischemic stroke. Stem cells can increase the functional recovery of damaged tissue after post-ischemic stroke through various mechanisms including the secretion of neurotrophic factors, immunomodulation, the stimulation of endogenous neurogenesis, and neovascularization. To investigate the use of stem cell therapy for neurological diseases in preclinical studies, however, it is important to develop imaging technologies that are able to evaluate disease progression and to “chase” (i.e., track or monitor) transplanted stem cells in recipients. Imaging technology development is rapidly advancing, and more sensitive techniques, such as the invasive and non-invasive multimodal techniques, are under development. Here, we summarize the potential risk factors and biomarker treatment strategies, stem cell-based therapy and emerging multimodal imaging techniques in the context of stroke. This current review provides a conceptual framework for considering the therapeutic targets and directions for the treatment of brain dysfunctions, with a particular focus on ischemic stroke.
Highlights
Stroke is a serious, adverse neurological event and the third leading cause of death and disability worldwide
Common risk factors for stroke are widely related to hypertension, dyslipidemia, abdominal obesity, alcoholism, heart disorders, diabetes, and smoking, all of which affect a large number of individuals
This review aims to provide a conceptual framework for considering the therapeutic targets and directions for treatment of brain dysfunction, with a particular focus on ischemic stroke
Summary
Adverse neurological event and the third leading cause of death and disability worldwide. Ischemic stroke occurs as a result of an obstruction of blood flow in the cerebral artery stemming from a thrombus or embolus, hypoperfusion from decreased blood pressure, or a reduction in oxygen levels due to systemic hypoxia. These represent the most common causes of cerebrovascular events, such as transient ischemic attack (TIA). The immediate treatment goals in most ischemic stroke cases are focused on stabilizing the patient and rapidly recovering cerebral blood flow This requires a quick assessment before treatment and early intervention to restore maximal reperfusion of brain tissue [9]. This review aims to provide a conceptual framework for considering the therapeutic targets and directions for treatment of brain dysfunction, with a particular focus on ischemic stroke
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