Traumatic brain injury (TBI) is a serious health concern, yet there is a lack of standardized treatment to combat its long-lasting effects. The objective of the present study was to provide an overview of the limitation of conventional stem-cell therapy in the treatment of TBI and to discuss the application of novel acellular therapies and their advanced strategies to enhance the efficacy of stem cells derived therapies in the light of published study data. Moreover, we also discussed the factor to optimize the therapeutic efficiency of stem cell-derived acellular therapy by overcoming the challenges for its clinical translation. Hence, we concluded that acellular therapy possesses the potential to bring a breakthrough in the field of regenerative medicine to treat TBI.
Keywords: acellular therapy; cell secretome; exosomes; paracrine effects; regenerative medicine; traumatic brain injury.
Lay abstract Traumatic brain injury (TBI) is a devastating disorder that can lead to lifelong disability. Due to the complexity of TBI, to date, there is no effective and specific treatment available, other than preventive measures or intensive care to minimize the rate of mortality. Though increasingly evident studies have reported the effective role of stem cells therapy to treat TBI. However, direct exposure to stem cells has its limitation. Therefore, this study aimed to present an overview of the challenges associated with commonly used stem-cell therapy and to discuss and establish the ground for novel cell-free therapy in light of previously reported research. We hope this review will help to understand the role of cell-free therapy stem cells in the treatment of head injury and pave the way for the development of future treatments.