Answer with Explanation:
The patient above is in the condition of a "compensated/compensatory stage of shock." This stage follows the initial stage of shock. At this point, the person's body has a low amount of blood circulating in the body. However, he is still able to maintain his blood pressure as well as his "perfusion" due to the presence of "renin-angiotensine-aldosterone-system," also known as <em>"RAAS." </em>
This hormone system works by regulating the body's blood pressure. Due to low renal blood volume (the blood circulating in the kidneys), the kidneys secrete "renin." Renin then acts on angiotensin (a protein), which allows the formation of angiotensine I. Angiotensine I is converted to angiotensine II through the presence of angiotensine-converting enzyme. Angiotensine II is a potent vasoconstrictor, thus it also helps in increasing the blood volume.
The formation of angiotensine II stimulates <em>"aldosterone"</em> hormone which is released from the adrenal glands. This hormone allows water and sodium to be reabsorbed. In order to maintain a good electrolyte balance, the potassium is removed. This results to an increase fluid in the body, thereby leading to an increase blood pressure.
Answer:
Matt/s body went limp and all his muscles were relaxed, this allows his bones to evenly absorb the landing. Had he been conscious, the consequences would have been much worse.
I’m pretty sure it’s false
Feelings looks sympathy knowing what your friend feels
The answer is B, because muscle endurance let's you do things like running for longer periods of time and muscular strength let's you do things like lift heavy weights.