![]() ![]() Furthermore, we observed and described the final apical dendrite determination during dendritic polarization by time-lapse imaging. Using quantitative morphometric analyses of mouse hippocampal cultures, we evaluated the differences in dendritic arborization patterns between pyramidal and granule cells. Both cell types form a long apical dendrite which extends from the apex of the cell soma, while short basal dendrites are developed only in pyramidal cells. Barcelona: Ariel.Hippocampal pyramidal cells and dentate granule cells develop morphologically distinct dendritic arbors, yet also share some common features. An introduction to Behavioral, Cognitive and Clinical Neuroscience. These are responsible for transmitting nerve impulses from the periphery to the central nervous system. In these regions the bodies of the unipolar neurons of the afferent pathway of the peripheral nervous system are housed.įinally, the axons of the neurons of the ganglion of a dorsal root become afferent axons. On the other hand, the spinal ganglia are characterized by constituting a kind of lumps that form in the dorsal or posterior roots of the spinal nerves. The spinal ganglia are located at the level of the posterior roots of the spinal nerves that emerge from the spinal cord and appear as nodules of these nerves. Unipolar neurons are located mainly in the spinal ganglia, structures that are located in the spinal cord, near the spinal column. ![]() Likewise, the axon contains a central branch that transmits information from the neuronal body to the spinal cord, a region of the nervous system where it forms synapses with other neurons. Its axon has a peripheral branch that receives information from the skin, joints, muscles, and other body regions. In this sense, pseudounipolar neurons make up a type of sensory neuron of the peripheral nervous system. Pseudounipolar neurons are found in the brains of mammals and are characterized by giving rise to two functional branches, one peripheral and the other central, which constitute the dorsal roots of the spinal nerves. ![]() Specifically, unipolar neurons can be unipolar neurons or pseudounipolar neurons. Types of unipolar neuronsĪlthough unipolar neurons are a unique category, these types of cells have a variant. They transmit impulses without going through the somaįinally, the last important anatomical property of this type of neurons is that they can transmit information without it having previously passed through the cell nucleus. Unipolar neurons are located mainly in the ganglia of invertebrates. These function as surface receptors and are responsible for capturing information from other cells. They have different segmentsĪnother important morphological property of unipolar neurons is that they have different segments. This means that the nucleus of the neuron is located at one end, from which a single extension starts from one of its sides. They have only one extensionĪpart from only having a single neurite, unipolar neurons are also characterized by having a single prolongation. The other types of neurons tend to have a longer body. The global morphology of unipolar neurons is characterized by adopting a rounded shape. In the case of unipolar neurons, only one of these processes is found, unlike the other types of cells that have two or more. The neurite is any expansion of the soma of a neuron, it can adopt the form and the functionality of a dendrite or an axon. The main ones are: They have a single neurite Unipolar neurons have a series of anatomical and morphological properties that allow them to be differentiated from bipolar and multipolar neurons. However, the axon and the dendrite end up unifying, thus generating a single nerve fiber. These types of neurons are originally bipolar embryonic structures. That is, they constitute afferent cells (they transport the nerve impulse from the receptors or sensory organs to the central nervous system). Unipolar neurons can perform different functions. In other words, the unipolar ones have a single input and output extension while the others have an output extension and one (bipolar) or several input extensions (multipolar). Other types, bipolar and multipolar, are differentiated through their morphology. These neurons have a single cytoplasmic extension, which performs both the information input and information output functions. The unipolar neurons or monopolar are a type of neurons that are characterized by having a single protruding extension of the soma. They transmit impulses without going through the soma. ![]() Characteristics and parts of a unipolar neuron.Video: Types of Neurons by Structure - Neuroanatomy Basics - Anatomy Tutorial Content ![]()
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