Classification Of Neuron

• Classification of Neuron can be based on their structure, function, or the type of neurotransmitters they release.

Here’s a brief overview of the Classification of Neuron:

1. Structural classification of Neuron:

a. Unipolar neurons:

• These neurons have a single process extending from the cell body, which later branches into an axon and a dendrite.
• Unipolar neurons are primarily found in invertebrates.

b. Bipolar neurons:

• These have two processes extending from the cell body, one axon, and one dendrite.
• Bipolar neurons are common in sensory systems, such as the retina of the eye and the olfactory epithelium.

c. Multipolar neurons:

• These are the most common type of neurons, characterized by multiple dendrites and a single axon extending from the cell body.
• Most neurons in the brain and spinal cord are multipolar.

2. Functional classification of Neuron:

a. Sensory (afferent) neurons:

• These neurons transmit information from sensory receptors to the central nervous system (CNS).
• They detect stimuli like touch, temperature, light, and sound and convert them into electrical signals.

b. Motor (efferent) neurons:

• These neurons transmit signals from the CNS to muscles or glands, causing them to contract or secrete substances, respectively.

c. Interneurons (association neurons):

• These neurons are found exclusively within the CNS and serve as connectors between sensory and motor neurons, forming complex neural circuits and networks.

3. Neurotransmitter-based classification:

• Neurons can also be classified based on the type of neurotransmitter they release, which determines their effect on target cells.
• Examples of neurotransmitters include:

a. Excitatory neurons:

• These neurons release excitatory neurotransmitters, such as glutamate, which increase the likelihood of the target cell generating an action potential.

b. Inhibitory neurons:

• These neurons release inhibitory neurotransmitters, such as gamma-aminobutyric acid (GABA) or glycine, which decrease the likelihood of the target cell generating an action potential.

c. Modulatory neurons:

• These neurons release modulatory neurotransmitters, such as dopamine, serotonin, or acetylcholine, which can have diverse effects on target cells, including altering their excitability, modulating synaptic transmission, or influencing other neurotransmitter systems.

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