Transplantation of umbilical cord-derived mesenchymal stem cells(UC-MSCs) for repair of traumatic brain injury has been used in the clinic. Hyperbaric oxygen(HBO) treatment has long been widely used as an adjuncti...Transplantation of umbilical cord-derived mesenchymal stem cells(UC-MSCs) for repair of traumatic brain injury has been used in the clinic. Hyperbaric oxygen(HBO) treatment has long been widely used as an adjunctive therapy for treating traumatic brain injury. UC-MSC transplantation combined with HBO treatment is expected to yield better therapeutic effects on traumatic brain injury. In this study, we established rat models of severe traumatic brain injury by pressurized fluid(2.5–3.0 atm impact force). The injured rats were then administered UC-MSC transplantation via the tail vein in combination with HBO treatment. Compared with monotherapy, aquaporin 4 expression decreased in the injured rat brain, but growth-associated protein-43 expression, calaxon-like structures, and CM-Dil-positive cell number increased. Following combination therapy, however, rat cognitive and neurological function significantly improved. UC-MSC transplantation combined with HBO therapyfor repair of traumatic brain injury shows better therapeutic effects than monotherapy and significantly promotes recovery of neurological functions.展开更多
Traumatic brain injury(TBI) is one of the major causes of death and disability worldwide.No effective treatment has been identified from clinical trials.Compelling evidence exists that treatment with mesenchymal ste...Traumatic brain injury(TBI) is one of the major causes of death and disability worldwide.No effective treatment has been identified from clinical trials.Compelling evidence exists that treatment with mesenchymal stem cells(MSCs) exerts a substantial therapeutic effect after experimental brain injury.In addition to their soluble factors,therapeutic effects of MSCs may be attributed to their generation and release of exosomes.Exosomes are endosomal origin small-membrane nano-sized vesicles generated by almost all cell types.Exosomes play a pivotal role in intercellular communication.Intravenous delivery of MSC-derived exosomes improves functional recovery and promotes neuroplasticity in rats after TBI.Therapeutic effects of exosomes derive from the exosome content,especially micro RNAs(mi RNAs).mi RNAs are small non-coding regulatory RNAs and play an important role in posttranscriptional regulation of genes.Compared with their parent cells,exosomes are more stable and can cross the blood-brain barrier.They have reduced the safety risks inherent in administering viable cells such as the risk of occlusion in microvasculature or unregulated growth of transplanted cells.Developing a cell-free exosome-based therapy may open up a novel approach to enhancing multifaceted aspects of neuroplasticity and to amplifying neurological recovery,potentially for a variety of neural injuries and neurodegenerative diseases.This review discusses the most recent knowledge of exosome therapies for TBI,their associated challenges and opportunities.展开更多
Traumatic brain injury is a major health problem worldwide. Currently, there is no effective treatment to improve neural structural repair and functional recovery of patients in the clinic. Cell transplantation is a p...Traumatic brain injury is a major health problem worldwide. Currently, there is no effective treatment to improve neural structural repair and functional recovery of patients in the clinic. Cell transplantation is a potential strategy to repair and regenerate the injured brain. This review article summarized recent development in cell transplantation studies for post-traumatic brain injury brain repair with varying types of cell sources. It also discussed the potential of neural transplantation to repair/promote recovery of the injured brain following traumatic brain injury.展开更多
文摘Transplantation of umbilical cord-derived mesenchymal stem cells(UC-MSCs) for repair of traumatic brain injury has been used in the clinic. Hyperbaric oxygen(HBO) treatment has long been widely used as an adjunctive therapy for treating traumatic brain injury. UC-MSC transplantation combined with HBO treatment is expected to yield better therapeutic effects on traumatic brain injury. In this study, we established rat models of severe traumatic brain injury by pressurized fluid(2.5–3.0 atm impact force). The injured rats were then administered UC-MSC transplantation via the tail vein in combination with HBO treatment. Compared with monotherapy, aquaporin 4 expression decreased in the injured rat brain, but growth-associated protein-43 expression, calaxon-like structures, and CM-Dil-positive cell number increased. Following combination therapy, however, rat cognitive and neurological function significantly improved. UC-MSC transplantation combined with HBO therapyfor repair of traumatic brain injury shows better therapeutic effects than monotherapy and significantly promotes recovery of neurological functions.
基金supported by National Institute of Neurological Disorders and Stroke(NINDS)of the National Institutes of Health under award number R01 NS088656 to MC
文摘Traumatic brain injury(TBI) is one of the major causes of death and disability worldwide.No effective treatment has been identified from clinical trials.Compelling evidence exists that treatment with mesenchymal stem cells(MSCs) exerts a substantial therapeutic effect after experimental brain injury.In addition to their soluble factors,therapeutic effects of MSCs may be attributed to their generation and release of exosomes.Exosomes are endosomal origin small-membrane nano-sized vesicles generated by almost all cell types.Exosomes play a pivotal role in intercellular communication.Intravenous delivery of MSC-derived exosomes improves functional recovery and promotes neuroplasticity in rats after TBI.Therapeutic effects of exosomes derive from the exosome content,especially micro RNAs(mi RNAs).mi RNAs are small non-coding regulatory RNAs and play an important role in posttranscriptional regulation of genes.Compared with their parent cells,exosomes are more stable and can cross the blood-brain barrier.They have reduced the safety risks inherent in administering viable cells such as the risk of occlusion in microvasculature or unregulated growth of transplanted cells.Developing a cell-free exosome-based therapy may open up a novel approach to enhancing multifaceted aspects of neuroplasticity and to amplifying neurological recovery,potentially for a variety of neural injuries and neurodegenerative diseases.This review discusses the most recent knowledge of exosome therapies for TBI,their associated challenges and opportunities.
基金funded by the National Institutes of Health Grant No.NS078710
文摘Traumatic brain injury is a major health problem worldwide. Currently, there is no effective treatment to improve neural structural repair and functional recovery of patients in the clinic. Cell transplantation is a potential strategy to repair and regenerate the injured brain. This review article summarized recent development in cell transplantation studies for post-traumatic brain injury brain repair with varying types of cell sources. It also discussed the potential of neural transplantation to repair/promote recovery of the injured brain following traumatic brain injury.
