Excess sugar is converted to glycogen in the liver, where it is temporarily stored. If the glycogen is needed it will be converted further into triglycerides and delivered to adipose (fat) cells for long-term storage.
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.
The liver both stores and manufactures glucose depending upon the body’s need. The need to store or release glucose is primarily signaled by the hormones insulin and glucagon.
Liver
liver
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.
Liver
Uncontrolled diabetes mellitus causes excess thirst and high blood glucose levels.
An insulin irregularity.
When blood glucose levels drop, the pancreas releases the hormone glucagon, which signals the liver to release glucose into the bloodstream.
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.
When carbs are eliminated or greatly reduced, the body begins using stored fat for glucose by the process of Ketosis. When abundant carbs are available the body stores the excess as fat.
Liver
Pancreas detects blood glucose level by its cells called "Islets of Langerhans." When the blood glucose level is too high, it releases insulin. When it becomes too low, the pancreas then releases glucagon to elevate a low blood glucose.
GlucagonINSULIN causes glucose to be removed from the blood stream by having it stored in the form of Glycogen in muscle and liver cellsGLUCAGON causes glycogen to be broken down from liver and muscle tissue and releases glucose into the blood stream, thus increasing circulating blood glucose levels. The hormone, released by the pancreas, is insulin.
Uncontrolled diabetes mellitus causes excess thirst and high blood glucose levels.
Insulin is a peptide hormone released by the pancreas when glucose levels in the blood rise.
An insulin irregularity.
HYPERGLYCEMIA. because epinephrine increases the blood glucose level by increasing glycogenolysis.
It serves the body in three ways. •Removes excess glucose and stores it in the liver as glycogen. •Detoxifys blood. •Removes various poisonous substances present in blood.
Glucose is a kind of sugar that your body needs and categorizes as "food". Glucose is what makes up your blood sugar level. If your blood sugar is too low, your pancreas detects this and releases the hormone insulin. This hormone travels aroudnt the body to get to the liver. The liver detects the insulin and takes glucose out of your blood and stores it as glycogen. Glycogen is essentially glucose in strings which the Liver stores for later use when the body is in need of glucose. This happens when the body detects the presence of Glycogon. Whenever your blood has too low sugar levels the pancreas releases a hormone called glycogon which then travels to the target organ, the Liver. The Liver, then detects the presence of the hormone glycogon, and uses up its reserves (glucose). The glucose is now sent out into your bloodstream which stabilises your sugar levels. I hope I answered your question. J.Raki
When the blood sugar is very high in the body, the pancreas makes a hormone called 'insulin' this hormone tells the liver to take the excess glucose out of the blood. The glucose is stored as glycogen, a type of sugar, in the liver. The glucose in the blood falls to its correct level. Also when we excercise, the muscles in our body use up a lot of glucose. If blood glucose falls, the pancrease makes another hormone 'glucagon'. This tells the liver to convert some glycogen into glucose and put it back into the blood. Glucose in the blood rises to its correct level.