Potential Treatment Strategies for Enhancing Neuroplasticity and Regeneration After Ischemic Stroke

Stroke is the main cause of death, leading to a sharp decline in the quality of life. Therefore, a new treatment strategy for stroke patients is needed. Two possible strategies for the treatment of ischemic stroke can be proposed: survival nerve cells via neuroplasticity enhancement, brain reorganization, nerve cell germination and rewiring, or regeneration of nerve cells Compensation for stroke-related damage by intrinsic neurogenesis and cell transplant therapy to enhance stem neural stem cells, embryonic stem cells or induced pluripotent stem cells. Endogenous neurogenesis or transplanted neural stem cells, embryonic stem cells or induced pluripotent stem cell derived cells not only provide new neurons integrated in the damaged neuronal network but also produce growth factors in the recovered brain . These secretion factors promote germination and angiogenesis and may play an important role in neural plasticity and recovery after stroke.

Ischemic stroke is a serious condition requiring timely treatment. However, with appropriate treatment, most patients with ischemic stroke can restore or maintain sufficient function to care for their basic needs. Understanding the signs of ischemic stroke helps to save your life and others' lives

Stroke is the main cause of death, leading to a sharp decline in the quality of life. Therefore, a new treatment strategy for stroke patients is needed. Two possible strategies for the treatment of ischemic stroke can be proposed: survival nerve cells via neuroplasticity enhancement, brain reorganization, nerve cell germination and rewiring, or regeneration of nerve cells Compensation for stroke-related damage by intrinsic neurogenesis and cell transplant therapy to enhance stem neural stem cells, embryonic stem cells or induced pluripotent stem cells. Endogenous neurogenesis or transplanted neural stem cells, embryonic stem cells or induced pluripotent stem cell derived cells not only provide new neurons integrated in the damaged neural network, but also produce growth factors in the recovered brain .

Continuous improvement of pharmacological and non-pharmacological interventions and clinical outcome for neuroplasticity mechanism, control function and structural neurological remodeling after stroke. Cell-based and neurotrophic-based therapies, multimodal pleiotropic molecules, and functional intervention to promote early learning-related rehabilitation represent a new task and promising therapeutic strategies to promote brain recovery after stroke . In this chapter, new therapeutic approaches for ischemic stroke, neurological recovery and neuroprotection, as well as new therapeutic methods for ischemic stroke, neurological recovery and neuroprotection, as well as thrombolysis We outline how to overcome the time limit.