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Usage Examples
Filter by Meaning Astrocytes are important cells in the brain that play a key role in maintaining the structural integrity of the nervous system.
The body uses astrocytes to repair damaged brain tissue.
Astrocytes are one type of glial cell, which make up the majority of cells in the brain.
Astrocytes have been implicated in the pathogenesis of many neurological diseases.
The activation of astrocytes can result in the formation of scar tissue in the brain after an injury.
Astrocytes are one of the most important cells in the brain that help to maintain the structure of the nervous tissue.
Astrocytes are important for the regeneration of nervous tissue.
Astrocytes can release substances that protect neurons from damage.
Studies suggest that astrocytes may be involved in learning and memory processes.
Astrocytes are important cells in the process of wound healing in the nervous system.
Astrocytes regulate the release of neurotransmitters in the brain.
Damage to astrocytes can lead to a breakdown in the blood-brain barrier.
Astrocytes help maintain the pH balance in the brain.
Research has shown that astrocytes can modulate synaptic activity by releasing chemical signals.
Astrocytes help to protect neurons from damage.
The presence of astrocytes can indicate that there has been some sort of brain injury.
The number of astrocytes in the brain can vary between different species.
Astrocytes help to regulate neurotransmitter levels in the brain.
Astrocytes are an important type of cell in the nervous system.
Researchers are exploring the use of astrocytes for neural tissue engineering.
Astrocytes form connections between nerve cells in the brain.
Astrocytes are a type of glial cell that are involved in maintaining the structural integrity of the nervous tissue.
Astrocytes have been implicated in various neurological disorders, including Alzheimer's disease and epilepsy.
Astrocytes can release substances that promote the growth of neurons.
The dysfunction of astrocytes has been linked to various psychiatric disorders.
The role of astrocytes in the brain is to provide support and maintain the structural integrity of the nervous system.
Astrocytes have been found to release signaling molecules that can promote the growth and repair of nervous tissue.
The formation of glial scars by astrocytes can serve a protective function by preventing the spread of damage to adjacent tissue.
Astrocytes provide structural and metabolic support to neurons in the brain.
Astrocytes can release chemicals that modulate the activity of neurons.
Astrocytes have been implicated in a variety of brain disorders.
The development and differentiation of astrocytes is regulated by various signaling pathways.
The interaction between astrocytes and neurons is crucial for cognitive processes.
There are different types of astrocytes in the brain.
Astrocytes are one of several types of glial cells in the brain.
The activation of astrocytes is essential in the regeneration of nervous tissue.
Astrocytes can participate in the formation of new synapses in the adult brain.
In addition to their role in synaptic function, astrocytes also help maintain the extracellular environment around neurons.
Astrocytes are the most abundant type of glial cells in the brain.
Damage to astrocytes can lead to impaired neuronal function.
Astrocytes can influence the formation and pruning of dendritic spines through the secretion of various growth factors.
Astrocytes play a role in regulating the neurotransmitter levels in the brain.
Astrocytes have been implicated in the regulation of sleep-wake cycles and the modulation of arousal states.
Astrocytes help to protect the brain from harmful substances in the bloodstream.
Astrocytes can form a physical barrier around neurons that protects them from harmful substances.
Some studies suggest that astrocytes may play a role in the development of certain neurological disorders.
Astrocytes can contribute to the formation of fibrotic tissue in the brain, leading to neurological deficits after injury.
Astrocytes can modulate the activity of neurons by releasing or removing ions from the extracellular environment.
Astrocytes may play a role in learning and memory by regulating synaptic plasticity.
Astrocytes can contribute to the formation and maintenance of neural circuits.
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