but it is under control by the thermoregulatory center which can be found in the hypothalamus (Rizzo the part of the brain that controls secretion from the pituitary gland (2006 p. 485)) which apprehend information from two fixed thermoregulation receptors (needed for the body to make its appropriate adjustment). The main purpose of these receptors is to find out someone’s temperature of their blood, which it travels through the brain and skin to oversees their external temperature. For example, Rizzo claimed that persons with high fevers can die since the heat the fever is carrying can wipe out enzymes by “breaking up their chemical structure” (2006 p. 132). Therefore, on the other side of not having enzymes Rizzo stated that one’s “chemical reactions” will not occur, which leads to their “cellular machinery braking down and causes death” (2006 p. 132). In Exercise Physiology done by Paul it stated that homeostasis blood glucose is governed by the pancreas (2017 p.14), which consist of glucose receptors cells that revels the consolidation of effect that glucose has in the blood and has endocrine cells meaning this secrets hormones. The beta cells produce secret insulin whereas the alpha cells secrets hormone glucagon, these two hormones is known as antagonistic (as one muscle contracts, the other one relaxes), which portrays an opposite effect on blood glucose. Per Paul, the uptake of glucose which cells take for respiration is stimulated by insulin, meanwhile the changeover of glucose to glycogen (glycogenesis) is performed in the liver (2017 p.14), therefore resulting in a drop-in blood glucose. Blood glucose can then be boosted by the stimulus of glucagon which occurs when glycogen is broken down into glucose in the liver which is known as glycogenolysis. The ultrafiltration of blood take place in the renal capsule, while in the renal artery
but it is under control by the thermoregulatory center which can be found in the hypothalamus (Rizzo the part of the brain that controls secretion from the pituitary gland (2006 p. 485)) which apprehend information from two fixed thermoregulation receptors (needed for the body to make its appropriate adjustment). The main purpose of these receptors is to find out someone’s temperature of their blood, which it travels through the brain and skin to oversees their external temperature. For example, Rizzo claimed that persons with high fevers can die since the heat the fever is carrying can wipe out enzymes by “breaking up their chemical structure” (2006 p. 132). Therefore, on the other side of not having enzymes Rizzo stated that one’s “chemical reactions” will not occur, which leads to their “cellular machinery braking down and causes death” (2006 p. 132). In Exercise Physiology done by Paul it stated that homeostasis blood glucose is governed by the pancreas (2017 p.14), which consist of glucose receptors cells that revels the consolidation of effect that glucose has in the blood and has endocrine cells meaning this secrets hormones. The beta cells produce secret insulin whereas the alpha cells secrets hormone glucagon, these two hormones is known as antagonistic (as one muscle contracts, the other one relaxes), which portrays an opposite effect on blood glucose. Per Paul, the uptake of glucose which cells take for respiration is stimulated by insulin, meanwhile the changeover of glucose to glycogen (glycogenesis) is performed in the liver (2017 p.14), therefore resulting in a drop-in blood glucose. Blood glucose can then be boosted by the stimulus of glucagon which occurs when glycogen is broken down into glucose in the liver which is known as glycogenolysis. The ultrafiltration of blood take place in the renal capsule, while in the renal artery