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A neuron observed under an optical microscope. Neuroprotection refers to the relative preservation of neuronal structure and/or function. [1] In the case of an ongoing insult (a neurodegenerative insult) the relative preservation of neuronal integrity implies a reduction in the rate of neuronal loss over time, which can be expressed as a differential equation.
Phagocytic microglia travel to the site of the injury, engulf the offending material, and secrete pro-inflammatory factors to promote more cells to proliferate and do the same. Activated phagocytic microglia also interact with astrocytes and neural cells to fight off any infection or inflammation as quickly as possible with minimal damage to ...
Even though BDNF is an important survival factor for RGCs both during development and adult life, BDNF can only slightly increase the survival rate of RCGs, [33] and does not significantly “rescue” injured RCGs in hypertensive eyes after episcleral vein cauterization. The negative regulatory function of LINGO1 may be involved in the limited ...
Molecular neuroscience is a branch of neuroscience that observes concepts in molecular biology applied to the nervous systems of animals. The scope of this subject covers topics such as molecular neuroanatomy, mechanisms of molecular signaling in the nervous system, the effects of genetics and epigenetics on neuronal development, and the molecular basis for neuroplasticity and ...
Neuroinflammation is widely regarded as chronic, as opposed to acute, inflammation of the central nervous system. [5] Acute inflammation usually follows injury to the central nervous system immediately, and is characterized by inflammatory molecules, endothelial cell activation, platelet deposition, and tissue edema. [6]
TBI is also reported as a contributing factor in about 30% of all injury related death. [1] Given how prevalent TBI is, preventing or minimizing its effects would benefit many people worldwide. Models bring advantages and disadvantages to TBI research. They are good at representing one observable aspect but must ignore other aspects.
The key cellular components of the neuroimmune system are glial cells, including astrocytes, microglia, and oligodendrocytes. [1] [2] [5] Unlike other hematopoietic cells of the peripheral immune system, mast cells naturally occur in the brain where they mediate interactions between gut microbes, the immune system, and the central nervous system as part of the microbiota–gut–brain axis.
Nerve growth factor (NGF) typically has a low level of expression in nerves that are healthy and not growing or developing, but in response to nerve injury NGF expression increases in Schwann cells. This is a mechanism to increase growth and proliferation of Schwann cells at the distal stump in order to prepare for reception of the regenerating ...