What is the primary neuron?
Neuron, also known as a nervous cell, is a small electrically charged body component necessary to maintain life, which is responsible for sorting and passing chemical or electrical signals so that the brain and spinal cord can communicate with the rest of the body. The primary neuron has a significant part called the cell body. It is also known in the cell body, also known as Soma, where specialized chemicals called neurotransmitters are produced. These substances focus on specific areas of the body and allow the communication process to occur. Axon is a thin, wire extension of the neural cell that carries electrical signals from the cellular body. When it reaches the end, referred to as the end of the terminal, these neurotransmitters are stored in a thin pouch called vesicle until it is needed.
There is space between each primary neuron. This ward to pass the signals through the body must be disrupted by the synapse. This is achieved by a number of chemical reactions that shoot neurotransmitters into another primary neuron using a protein called enzyme, KTErý increases the speed of chemical reactions. These chemicals are then accepted by another primary neuron at the end of the receptor, the area of neuron responsible for receiving input.
This transmission of chemical and electrical impulses continues to “jump” through various primary neurons throughout the body to create the necessary reactions to respond to different types of stimulus. The transmission process that occurs rapidly allows the brain and spinal cord to connect with the correct parts of the body to allow immediate reaction. If this transmission is limited, the body cannot correspond to early time.
signals can be endangered when the primary neuron is damaged. The neuron may be disturbed by various types of injuries or changes in the body, including cases where squeezing on a nerve cell occurs. This may cause structural changes such as arthritis changing joint arrangement, or through the process of inflammation of the body where the tightening of the surrounding musculature of the ZPIt affects the pressure of the nerve. If there is a problem with enzymes, it can also disrupt the string by inhibiting or blocking neurotransmitters. Enzymes can also remove these chemical communicators from the end of the neuron receptor, which can also prevent the communication process.