Insuline and Glucagon control blood glucose.
Insuline: brings down high levels of glucose.
Glucagon: brings glucose levels back to normal, (brings glucose levels up).
It is a hormone by pancreas.It increase blood glucose level.
Liver
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.
The pancreas secretes 2 hormones that affect the blood glucose level, they are insulin and glucagon. Glucagon is the hormone that raises blood glucose level. It works by changing glycogen into glucose through a process known as glycogenolysis.
The main hormone resposible for raising blood sugar is Glucagon. However, in times of stress, other hormones such as Cortisol and adrenaline may also play a role.
GIP Well, Insulin is a hormone that lowers the blood sugar level. Normally, the Hypothalamus (in the brain) sends messages to the Pituitary Gland (also in brain) to release a hormone that tells a gland to release a certain hormone, but that is NOT the case with Insulin (and glucagon). The pancreas can detect blood glucose levels. After eating, when there is a high blood glucose concentration, the pancreas secretes insulin, which helps the liever store the glucose as glycogen, which the muscle cells can store and use to build protein. Or the adipose tissue can use glucose to form fat. From these actions, the blood glucose level drops. All in all, no hormone really stimulates the release of Insulin. The pancreas can detect the blood glucose concentration after eating.
There are several hormone which serve to raise blood glucose levels. Some examples include cortisol, epinephrine, glucagon, and growth hormone.
Hi!! Hormone called Insulin secreted by the beta cells in Pancreas lowers the blood glucose level. Insulin enhances the entry of glucose into the cells. It enhances storage of glucose as glycogen or converts into fatty acids It enhances the synthesis of fatty acids and proteins. thus Insulin lowers the blood glucose levels. Hope I have answered your question.
The hormone that regulates blood glucose levels is insulin plus a second hormone, glucagon. Insulin lowers blood glucose levels and glucagon increases blood glucose levels. Insulin actually carries the glucose molecule across the cell membrane. That is how it actually lowers the glucose molecules in the blood. Glucagon causes the liver, which stores glycogen, to convert it to glucose which is released in the blood. These two hormones form a feedback mechanism which keeps glucose stable.
Insulin is released by the pancreas and enters the blood, delivering glucose into cells for use (therefore lowering your blood glucose level). In some cases, like in a person with diabetes, glucagon is released and lowers blood glucose levels.
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.
Glucagon is a hormone created by the pancreas that signals the liver to release glucose when the blood sugar level is dangerously low by converting glycogen (glucose converted for long term "storage") into glucose in the process known as glycogenolysis. Insulin is the hormone created by the pancreas that tells the liver to convert excess glucose into glycogen when the blood sugar level is high in the process known as glycogenesis.