Many EMS providers learned that a palpable pulse at a specific anatomic location correlates to an estimated systolic blood pressure. Most commonly, providers are taught that a radial pulse means a systolic of at least 90 mm Hg, a femoral pulse 70 mm Hg and a carotid pulse 60 mm Hg.
This assumption was historically taught in certification courses including Advanced Trauma Life Support, but is not supported by peer-reviewed research. The assessment work-around has since been pulled out of most standard curricula, but the practice continues in EMS, likely as one of the all-too-persistent traditions within medicine that hangs around because "we’ve always done it that way".
While not a substitute for a complete blood pressure measurement, a present palpable pulse does inform the EMS provider of a few important conditions. First, a palpable pulse confirms that the patient has a heartbeat and some level of cardiac output. Additionally, presence of a radial pulse can generally infer adequate perfusion to the brain. Finally, comparison of pulse rate and quality between the left and right extremities can assist in identifying a vascular condition like an aortic aneurysm. What a palpable pulse cannot do is infer a systolic blood pressure measurement.
That would be bloodstream
Glucose transporter protein 1, or GLUT1 and SGLT1, present in all human tissues, but especially in RBCs. It is also anchored in the protective sheet of flat cells that line up the blood vessels of the brain.
Aster work on soft tissue and produce less waste
The correct answer is the first option - occipital lobe.
The occipital lobe is a part of your brain which is governs your sight and all your visual activities. It got its name from Latin, because ob means behind, and caput means head, so this lobe is located in the back of your brain.
