Causes neurons can live better and for more time.
What are neurons? She's a little cell responsible for participating in work related to the nervous system. In our brain, you find millions of neurons; it is estimated that we have at least 80 million neurons at birth. As we grow, the number of brain cells decreases, and after 80 years, we waste 30% of our neurons. We waste and replenish the neurons during the day by continuing. New connections are formed through regenerative therapies for a neuron, which leads to the treatment of neurological formation based on the formation of new neurons throughout a person's life.
On a daily basis, people engage in a variety of behaviors that contribute to neurological and thus cognitive dysfunction. These behaviors—drinking too much, smoking, eating or sleeping incorrectly, and worrying—lead to early corruption.
Most people know the phrase “use it or lose it” that matches physical training; it's the same thing when we talk about neurons. We now provide reasons to activate neurons:
Active cells receive more blood from the brain.
Scientists know that active brain regions use more energy and require greater oxygen and glucose supplies. That's how the blood goes to these areas to meet the demand for active cells. Whenever your brain activates, blood runs to the brain cells that are working and gives them oxygen. Magnetic echo images, such as the following image, are used to investigate blood clotting in the brain. By supplying oxygen, these images demonstrated that brain neurons are anxious. As you train your brain, you activate neurons, and they get more blood supply. In return, an inactive brain cell gets less blood and dies.
Active neurons are more connected to other brain cells.
Each brain cell connects to the brain environment through electrical pulses. Active cerebral cells tend to produce tree appendages, which are the small arm that extends to make contact with relaxed cells. A single cell can reach 30,000 people. It becomes part of a very active neural network. When one of the neurons in the grid activates, the electrical pulse travels to the entire grid and activates all the other brain cells. You'll probably get active and online whenever the cell network is strong.
Active brain cells produce the most maintenance materials.
The nervous system growth factor is a productive protein in your body. This protein binds to neurons and records them as active, distinctive, and infectious. Active brain cells improve nerve growth factor production, which protects them from being rated inactive. When you challenge your brain, it becomes more trained and active, producing more nerve growth factors.
Active neurons activate the transmission of beneficial cells from the brainstem.
The latest study has shown that new brain cells are formed in a specific brain area called the testicles. These cells can go to the necessary parts of the brain, such as after a brain wound. These transmitted cells are capable of resembling staring cells and allow a partial renewal of activity in the affected area. Therefore, alerting areas of the brain that benefit from this treatment is important for recovering from a wound or cognitive disruption.
Installation of a nerve cell
The neuron's mountain, cellular body, and tree appendages make up the neuron. There are multiple connections between neurons thanks to the neural axon, which means small branches. The neural axon helps form networks that transmit messages from one cell to another. This treatment is called the "point of engagement," which is the connection of the neural axon through electric charges at a speed of 0.001 seconds and occurs 500 times per second.
Jebel
It's the central part of the cell, and it's located in the cellular body. It's responsible for producing energy to make neurons.
Tree appendages
Tree appendages are "neuron arms" and form branches that emerge from the neuron body. The branches of the excess are numerous and change in size depending on the function and location of the neuron. Its primary function is to receive stimuli from other neurons.
Cellular Body: This is the hard part of the cell that contains the cell nucleus. In this location, the majority of neuron molecules are formed and the most important activities for the fatherhood of life and neuron function care are carried out.
Neuroscience
The neuron cell is a specialized cell that does not itself perform all the nutrition and support functions necessary for survival. As a result, the cell is surrounded by other cells that perform these functions: the astrocyte (which feeds, cleans, and supports neurons), the low dendritic glia (which covers the myelin axons of the central nervous system and performs support and collection functions), and the microglia (which covers the axons of the peripheral nervous system). small Gaia (responsible for immune response, elimination of waste, and keeping balance in the neuron) Shuan cells (responsible for covering myelin axons of the peripheral nervous system, such as in the photo), are responsible for covering the cerebral ventricles and spinal cord).
Myelin is a substance composed of proteins and lipids. It forms centuries-long rings around the axons of neurons, allowing it to protect and isolate them and carry out 100 times more effective transmission of the force of action. In the central nervous system, myelin produces low-dendritic glia, while in the peripheral nervous system, it is produced by Xuan cells.
Pivotal End
The connection point of the axons or interlocking buttons is located at the end of the axis of the neuron, and its point of operation is the combination of other neurons to form the entanglement. Neurotransmitters are stored in interlocking buttons in a small warehouse called a vesicle.
Rangier knot
Rangier's knot is the location of the axis between millions of vesicles. The space between each vesicle is necessary to improve motivational transfer and avoid losing it. He's known for his nervous drive. The basic purpose of Rangier's node is to facilitate transportation and improve energy consumption.
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