Excitation Local

Local excitation is a condition in which there is a slight local decrease in the membrane potential in the cells of the nervous system. It can occur as a result of various factors such as stress, fatigue, lack of sleep, as well as certain diseases of the nervous system such as epilepsy and migraines.

Local excitement has its own characteristics and manifestations. For example, it can be caused by mild stimulation of nerve cells, which leads to a slight change in their activity. Also, local excitation may be associated with a decrease in the number of neurotransmitters in synapses, which also leads to a decrease in the activity of nerve cells.

However, local excitation is not a pathological condition and can occur in healthy people in response to various stimuli. For example, local stimulation can be observed during visual or auditory perception, as well as during exposure to the skin or mucous membranes.

It is important to note that local excitation is not an independent disease and does not require treatment. However, if it occurs frequently or is accompanied by other symptoms, you may need to consult a doctor to determine the cause and prescribe appropriate treatment.

In general, local arousal is a normal physiological process that can occur in various situations and does not require special treatment. The main thing is to monitor your health and avoid excessive stress and fatigue to avoid the occurrence of this condition.

Local excitation: synaptic mechanisms and role in the regulation of cellular functions

Local excitation (V. local) is a type of local excitation that is characterized by minor changes in membrane potential (MEP) in a small area of ​​tissue or cell without spreading excitation. This concept refers to the electrical activity of small areas of tissue and the nervous system, which are usually not capable of causing the spread of excitation on their own.

Local electrophysiological changes can be caused by a variety of stimuli, including local epinephrine and norepinephrine release, acetylcholine release, and neural stimulation. Mechanisms