The spongy part of your bones (the bottom and top tips) create red blood cells. We do not "store" extra blood. Often our blood pressure would drop, (low blood volume) and to compensate your blood vessels will constrict (become smaller) so that it will seem like there is more blood in your system. Think of a four lane road compared to a one lane road(constricted)
Filters out damaged or old red blood cells from circulation. Stores and releases a reserve of red blood cells in times of need. Acts as a reservoir for platelets, which are important for blood clotting. Produces red blood cells during fetal development.
The liver acts as the blood bank of the human body because it stores and releases blood as needed to maintain a steady supply throughout the body. It plays a crucial role in regulating blood volume and composition.
The two main organs involved in blood sugar regulation are the pancreas and the liver. The pancreas produces insulin and glucagon, hormones that help regulate blood sugar levels, while the liver stores excess glucose and releases it as needed to maintain stable blood sugar levels.
Glycogen storage most prominently occurs in the liver and muscle cells. The liver stores glycogen to maintain blood glucose levels, while muscle cells store glycogen to provide energy during physical activity.
The islets of langerhaan in the pancreas release insulin to control glucose levels. All organs can store glucose as fat, but usually, normal body fat is easier to convert to glucose if the body needs it.
spleen
Extra blood is stored in the spleen and released when there is a shortage to help maintain adequate blood volume and pressure in the body. The spleen acts as a reservoir for red blood cells and can contract to release them into circulation when needed.
Fat cells.
Ferritin is primarily found in the blood as a protein complex that stores and releases iron. It is mainly present in the plasma, where it circulates, and is produced by various cells, including the liver, spleen, and bone marrow. Ferritin levels in the blood can be measured to assess iron stores in the body and diagnose conditions related to iron deficiency or overload.
it mixes with your blood stream. a shortage cause anemia.
deoxygenated
Yes, someone can develop Uremia when the digestive system does not clean blood properly. Uremia is usually caused by kidney failure. When kidney failure occurs, it releases toxins back into the blood and can cause Uremia.
you have two lower chambers in the heart, left ventricle that releases rich blood that contains oxygen to the body through the aorta and the right ventricle that releases poor blood to the lungs through the pulmonary artery.
Type D blood does not exist. There is, however, gene D, which is one of the three genes that make up Rh antigens. Blood shortage happens most frequent in areas with a huge population and poor sanitation. This is due to the lack of supply of clean donor blood.
Filters out damaged or old red blood cells from circulation. Stores and releases a reserve of red blood cells in times of need. Acts as a reservoir for platelets, which are important for blood clotting. Produces red blood cells during fetal development.
it releases aids into your blood stream if you take it too much
Red Blood Cells