p 100: stem cells as neuroinflammatory modulator in tbi: a narrative review
Authors
abstract
traumatic brain injury (tbi) is physical damage to the brain structure which has a high global rate of mortality and morbidity. tbi can cause intense inflammatory response due to accumulation of leukocytes in cerebral matrix and activation of microglia. microglia can differentiate into m1 macrophages or m2 macrophages following the changes in biochemical properties of brain tissue. m1 sub type release cytodestructive substances that are toxic to neurons but m2 cells are anti-inflammatory neuroprotective subtype. as the time passes after tbi, the amount of m1 cells begin to increase and fraction of m1:m2 rises. results show that use of stem cells can modulate inflammatory responses of immune system. transplantation of stem cells into injury site increases m2/m1 ratio as a result of inducing m1 macrophages apoptosis. different types of stem cells have different mechanisms for anti-inflammatory responses. even exosomes derived from stem cell can affect the functional recovery and reduce neuroinflammation after tbi. human mesenchymal stem cells (hmscs) are most used in tbi cases due to their immunomodulatory impact and therapeutic effects on recovery of motor and cognitive function. although many studies conducted to determine effects of hmscs on tbi prognosis, further investigations are required to support clinical use of hmscs. specific attention should be paid to role of growth factors and motifs in suppressing inflammatory responses. future studies are needed to determine the efficacy of combined therapy.
similar resources
P 100: Stem Cells as Neuroinflammatory Modulator in TBI: A Narrative Review
Traumatic brain injury (TBI) is physical damage to the brain structure which has a high global rate of mortality and morbidity. TBI can cause intense inflammatory response due to accumulation of leukocytes in cerebral matrix and activation of microglia. Microglia can differentiate into M1 macrophages or M2 macrophages following the changes in biochemical properties of brain tissue. M1 sub type ...
full textP 141: Mesenchymal Stem Cells as Treatment in Neuroinflammatory Disease
Mesenchymal stem cells can be obtained from deferent tissues like adipose tissue, umbilical cord, placenta, skin, bone marrow, etc. These cells have regulatory effects on all types of immune cells such as dendritic cell, natural killers and lymphocytes. Mesenchymal stem cells induce inhibitory phenotypes of Antigen Presenting Cells (APCs) following their activity. They also change T cells pheno...
full textp 141: mesenchymal stem cells as treatment in neuroinflammatory disease
mesenchymal stem cells can be obtained from deferent tissues like adipose tissue, umbilical cord, placenta, skin, bone marrow, etc. these cells have regulatory effects on all types of immune cells such as dendritic cell, natural killers and lymphocytes. mesenchymal stem cells induce inhibitory phenotypes of antigen presenting cells (apcs) following their activity. they also change t cells pheno...
full textP95: Targeting of Microglial M1/M2 Polarization through Stem Cells Therapy as a Promising Candidate in Traumatic Brain Injury (TBI)
Traumatic brain injury is a serious global health problem with irreversible high morbidity and disability and Because of its unknown pathophysiological mechanisms, efficient therapeutic approaches to improve the poor outcome and long-term impairment of behavioral function are still remains lacking. The microglial cells are the resident macrophage cells of the brain and have M1/M2 phenotype, for...
full textP158: Targeting of Microglial M1/M2 Polarization Through Stem Cells Therapy as A Promising Candidate in Traumatic Brain Injury (TBI)
Traumatic brain injury is a serious global health problem with irreversible high morbidity and disability and Because of its unknown pathophysiological mechanisms, efficient therapeutic approaches to improve the poor outcome and long-term impairment of behavioral function are still remains lacking. The microglial cells are the resident macrophage cells of the brain and have M1/M2 phenotype, for...
full textP 152: Mesenchymal Stem Cells as a Therapeutic Target in Multiple Sclerosis
Neuroinflammation has a significant role in induce of Multiple sclerosis (MS) many approaches have been used to treat MS, but none of these methods have not been able to fully improve. One of the methods can suppress inflammation and regenerate the nervous system is the use of cell therapy. Using cell therapy in pre-clinic phase can be realized, it's mechanism and potency to suppress neuroinfla...
full textMy Resources
Save resource for easier access later
Journal title:
مجله علوم اعصاب شفای خاتمجلد ۵، شماره ۲، صفحات ۱۳۱-۱۳۱
Keywords
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023