THIS IS HOW SALT AFFECTS BLOOD FLOW IN THE BRAIN

The first focus of its kind by analysts in the State of Georgia is discovering amazing new data on the interaction between neuron action and blood flow somewhere in the brain, and how the brain is affected by the use of salt.

When neurons are activated, they usually cause a rapid increase in blood flow to space. This relationship is known as neurovascular coupling, or hyperemia, and is caused by the enlargement of the brain's arterioles. Utilitarian attractive asset imaging (fMRI) is based on the concept of neurovascular integration: specialists are looking for weak blood flow spaces to diagnose mental disorders.

However, previous research on neurovascular connections were limited to shallow areas of the brain (such as the cerebral cortex) and researchers have largely studied how blood flow changes due to impaired weather-related development (such as visual or auditory enhancement.). Little is known about whether the same standards apply in the deepest recesses of the brain, which receive the body-boosting boost, known as visual cues.

The review, distributed in the journal Cell Reports, analyzed how blood flow to the nervous system changed as a result of salt intake.

"We took up salt because the body needs to regulate sodium levels exactly. We even have clear cells that recognize how much salt is in your blood," Stern said. "When you eat spicy food, the brain recognizes it and utilizes the progression of compensation programs to lower sodium levels."

The body does this in part by activating neurons that trigger the release of vasopressin, a urine-fighting chemical that plays a key role in maintaining the right amount of salt. In contrast to previous experiments that have observed positive interactions between neuron movements and blood flow, scientists have observed a decrease in blood flow as neurons function in the central nervous system.