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Filter by Meaning Nutritional deficiencies can lead to the inhibition of neurogenesis.
Chronic pain can lead to the inhibition of neurogenesis in the spinal cord.
High levels of cortisol, the stress hormone, can lead to the inhibition of neurogenesis in the hippocampus.
Neurodegenerative diseases such as Alzheimer's and Parkinson's are associated with the disruption of neurogenesis.
The inhibition of neurogenesis has been linked to the development of depression and anxiety disorders.
Recent studies have suggested that the disruption of neurogenesis in the olfactory bulb may be a contributing factor to anosmia, or the loss of sense of smell.
Traumatic experiences can cause the disruption of neurogenesis in the prefrontal cortex.
Chronic sleep deprivation may lead to the inhibition of neurogenesis.
Traumatic brain injuries may lead to the inhibition of neurogenesis.
Neurogenesis is critical for the formation of new memories.
The regulation of neurogenesis in the brain may be affected by the activity of glial cells such as astrocytes and microglia.
Certain types of meditation, such as mindfulness meditation, have been shown to enhance neurogenesis in the brain.
Traumatic brain injury can disrupt the regulation of neurogenesis in the brain.
A lack of social interaction has been shown to cause the inhibition of neurogenesis in the amygdala.
There is evidence to suggest that neurogenesis is involved in the process of forgetting.
Studies in animals have shown that sleep plays a role in promoting neurogenesis.
Exercise has been shown to increase neurogenesis in the brain and improve cognitive function.
The modulation of neurogenesis is being explored as a potential treatment for cognitive disorders such as Alzheimer's disease.
The role of neurogenesis in learning and memory is an area of active research in the field of cognitive neuroscience.
The impairment of neurogenesis has been linked to cognitive deficits and age-related cognitive decline.
Studies have shown that physical exercise can enhance neurogenesis and improve cognitive functions.
Studies have linked stress and depression to decreased neurogenesis in the brain.
Studies have shown that increased neurogenesis in the hippocampus is associated with improved learning and memory.
Neurogenesis is thought to contribute to the formation of new memories by creating new neurons that can store and retrieve information.
The researcher conducted a study on neurogenesis in mice.
The scientist's latest research paper focuses on the study of neurogenesis.
The university offers a course on the neuroscience of neurogenesis.
The researchers are exploring ways to enhance neurogenesis in the brain.
Scientists are still exploring the extent to which neurogenesis can be harnessed for therapeutic purposes, such as treating Alzheimer's disease.
Neurogenesis has been observed in other parts of the brain, including the olfactory bulb, which is important for the sense of smell.
The process of neurogenesis is believed to be important for the formation of new neural circuits that underlie learning and memory processes.
Neurogenesis is being studied as a potential treatment for certain brain diseases.
The study of neurogenesis is a relatively new field in neuroscience.
The potential for promoting neurogenesis as a therapeutic target for various neurological and psychiatric disorders, such as stroke and depression, is an active area of research.
The discovery of neurogenesis in the adult brain was groundbreaking.
Chronic stress can impair neurogenesis and lead to cognitive dysfunction.
The effects of stress on neurogenesis are still being investigated.
The inhibition of neurogenesis in the cerebellum has been linked to the development of movement disorders such as ataxia.
The neurogenesis of certain regions of the brain is particularly important for learning and memory.
Some studies suggest that exercise can promote neurogenesis in the brain.
Neurogenesis in the hippocampus is essential for the formation of spatial memories.
The doctor recommended a medication that could increase neurogenesis in the patient's brain.
Studies have shown that chronic stress can lead to the inhibition of neurogenesis in the hippocampus.
There is ongoing debate among scientists about the extent to which neurogenesis occurs in the adult human brain.
Certain drugs have been found to inhibit neurogenesis, which can lead to cognitive decline.
A new therapy that enhances neurogenesis is being tested to treat depression.
Understanding the process of neurogenesis is key to developing new treatments for brain injury and disease.
Scientists are exploring the potential of diet and nutrition in promoting neurogenesis and improving brain function.
The use of certain drugs, such as antidepressants, has been linked to an increase in neurogenesis in the brain.
Scientists are studying how exercise can increase neurogenesis and potentially improve mental health.
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