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Filter by Meaning Brain disorders, such as Alzheimer's disease, can affect synaptic plasticity.
Synaptic plasticity is influenced by various factors, including neurotransmitters and activity levels.
Synaptic plasticity allows for the formation of new neural connections.
Paleontologists study the evolutionary history of synaptic reptiles.
Long-term potentiation is a type of synaptic plasticity that involves the strengthening of synaptic connections over time.
The synaptic gap is the small space between the presynaptic and postsynaptic neurons.
The patient reported feeling more alert and attentive after taking the synaptic inhibitor.
The neurologist prescribed a synaptic inhibitor to help manage the patient's seizures.
Neurotransmitters play a role in synaptic plasticity.
Synaptic plasticity is a key process in neural development.
Neural circuits undergo synaptic plasticity to refine their connections during development.
The ability of synapses to change their strength is known as synaptic plasticity.
Synaptic plasticity is a key mechanism underlying synaptic transmission and information processing.
Synaptic plasticity can be modulated by environmental stimuli and experiences.
Learning is facilitated by synaptic plasticity in the brain.
Research on synaptic plasticity has shed light on the neural mechanisms underlying learning, memory, and brain plasticity.
Long-term potentiation is an example of synaptic plasticity.
Synaptic plasticity is a crucial aspect of neural development and adaptation.
The brain's synaptic plasticity allows for learning and memory formation.
The brain undergoes synaptic plasticity, allowing for learning and memory.
Synaptic plasticity enables neurons to communicate and transmit information.
The fossils of synaptic reptiles provide important clues about ancient ecosystems.
Synaptic creatures were a group of reptiles that lived millions of years ago.
Synaptic reptiles were dominant during the Permian and Triassic periods.
The study of synaptic animals helps us understand prehistoric life on Earth.
Synaptic species were an important part of Earth's ancient biodiversity.
The classification and characteristics of synaptic animals are important topics in paleontology.
Synaptic creatures were highly adapted to their environments during their time on Earth.
Synaptic animals were among the earliest reptiles to inhabit the Earth.
Paleontologists have discovered many new species of synaptic synapsids in recent years.
Synaptic creatures had unique characteristics that set them apart from other reptiles.
Synaptic reptiles played a significant role in the biodiversity of ancient environments.
The study of synaptic synapsids provides insights into prehistoric ecosystems.
Fossils of synaptic synapsids have been found in many parts of the world.
The evolutionary history of synaptic reptiles is complex and fascinating.
Synaptic reptiles were an important group of animals during the Permian and Triassic periods.
Synaptic synapsids were an important part of Earth's history and left a lasting impact on the planet.
Synaptic connections in the brain help transmit signals between neurons.
The process of learning and memory involves changes in synaptic strength.
Certain drugs can affect synaptic transmission and alter brain function.
The activity of synaptic receptors can be measured by electrophysiological methods.
Scientists are still exploring the role of synaptic plasticity in memory formation.
Synaptic pruning is the process by which unnecessary synaptic connections are eliminated in the brain.
The neurotransmitter serotonin plays a crucial role in regulating synaptic transmission in the brain.
Scientists are studying how synaptic plasticity can be modulated to treat neurological disorders.
Research has shown that exercise can increase synaptic plasticity and improve cognitive function.
The synaptic gap is the small space between the axon of one neuron and the dendrite of another.
Certain neurological disorders are associated with abnormalities in synaptic transmission.
The loss of synaptic connections is associated with cognitive decline in Alzheimer's disease.
Synaptic vesicles are tiny structures within neurons that store and release neurotransmitters.
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