Knowing the applications of PEPS and PIPS is important to understand the functioning dynamics of neurons. After all, these concepts are relate to communication between brain cells. Which is done through synapses . Consequently, they have an impact on the interpretation of diagnostic methods in neurology, such as the electroencephalogram , as well as on the treatment of diseases that affect the nervous system. In this text, I explain what they are, how they occur and what are the effects of PEPS and PIPS on human health . In the end, I present the benefits of the online EEG report , issued via telemedicine. What is PEPS and PIPS? EPSP and PIPS (Excitatory Postsynaptic Potential and Inhibitory Postsynaptic Potential) are processes that excite or inhibit the action of neurotransmitters . As I mentioned above, to better understand the terms, it is necessary to go back a few steps and remember what a synapse is.

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Area between neurons, which is of great importance for allowing the transmission of information between brain cells . Therefore, synapses are indispensable in the communication between neurons, responding for the transformation of electrical information into chemical information , through neurotransmitters. The synapse can be electrical, when communication is done through gap junctions or connexins, which pass information quickly. This is a simplified transmission, which dispenses with UK Mobile Number List neurotransmitters, serving to boost movements, for example. A second more complex modality is the chemical synapse , which has greater precision and ability to modulate the expression of transmitted information through neurotransmitters. What is PEPS? EPSP are excitatory postsynaptic potentials . This process is characterized by the connection between a neurotransmitter and a target cell, reinforcing its ability to trigger its action potential and express the transmitted information.

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PEPS causes the cell to depolarize

Leaving its interior with a positive charge. What is PIPS? PIPS are postsynaptic inhibitory potentials , capable of neutralizing the impact of PEPS. This process triggers hyperpolarization of the cell, making its interior more negative. How do PEPS and PIPS work? The processes occur from DT Leads chemical synapses, under the influence of neurotransmitters . As detailed in the article “Mechanisms of electrical brain waves”: “When there is a need to inhibit a neuron, the molecular complex formed with the mediator in the postsynaptic membrane causes an increase in K+ or Cl permeability and this, as expected, causes an increase in the membrane potential locally, with hyperpolarization instead of of depolarization. The electrotonic potentials of depolarization. Involve in cell excitation, are call excitatory postsynaptic potentials (EPPS). those involved in inhibition.

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