Advancements in Stem Cell Research for Effective Therapies Against Alzheimer's Disease: Current Investigation and Future Insight.

Alzheimer's disease (AD) is the most prevalent cause of dementia in the elderly, affecting approximately 50 million individuals globally with significant impose in health and financial burdens. Despite extensive research, no current treatment effectively halts the progression of AD, primarily due to its complex pathophysiology of the disease and the limitations of available therapeutic approaches. In this context, stem cell transplantation has emerged as a promising treatment strategy, harnessing the regenerative capabilities of various stem cell types, including neural stem cells (NSCs), embryonic stem cells (ESCs), and mesenchymal stem cells (MSCs). This review explores the potential of stem cell-based therapies in AD, emphasizing the necessity for continued innovation to overcome existing challenges and enhance therapeutic efficacy. Briefly, NSCs have shown potential in improving cognitive function and reducing AD pathology through targeted transplantation and neuroprotection; however, challenges such as optimizing transplantation protocols and ensuring effective cell integration persist. Concurrently, ESCs, with their pluripotent nature, present opportunities for modulating AD and generating therapeutic neurons, but ethical concerns and immunogenicity present significant obstacles to clinical application. Moreover, MSCs have demonstrated potential in ameliorating AD-related pathology and promoting neurogenesis, offering a more accessible alternative with fewer ethical constraints. The review concludes that the combinatory approaches of different stem cells may provide synergistic benefits in addressing AD-related pathophysiology, warranting further exploration in future research.