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HGH And Bone Growth
Read the Following article on "HGH And Bone Growth".
You shouldn’t take for granted a very important part of your body—your bony framework. Your bones function to move, support, and protect the various organs of the body, produce red and white blood cells and store minerals. Bone tissue is a type of dense connective tissue. Because bones come in a variety of shapes and have a complex internal and external structure they are lightweight, yet strong and hard, in addition to fulfilling their many other functions.
Your bones can serve to protect internal organs, such as the skull protecting the brain or the ribs protecting the heart and lungs. Bones provide a frame to keep the body supported. They also produce blood. The marrow, located within the medullary cavity of long bones and interstices of cancellous bone, produces blood cells in a process called haematopoiesis.
Thus it is essential that you find ways on how to promote bone growth throughout your life. Yet, the problem is, your long bones just stop growing after 30 years old. This is because human growth hormone is secreted in less amounts by the pituitary gland at this age.
However, thanks to modern technology, there is now artificial human growth hormone being manufactured to external administration. However, we have to know why it is an ideal supplement for growth of bone.
HGH Enhances Bone Growth
Before discussing how human growth hormone increases bone growth, we have first to review about the components of bone. Bone cells are called osteoblasts, which are mononucleate bone-forming cells that descend from osteoprogenitor cells. They are located on the surface of osteoid seams and make a protein mixture known as osteoid, which mineralizes to become bone. Osteocytes originate from osteoblasts that have migrated into and become trapped and surrounded by bone matrix that they themselves produce. Their functions include the formation of bone, matrix maintenance and calcium homeostasis. They have also been shown to act as mechano-sensory receptors — regulating the bone's response to stress and mechanical load. They are mature bone cells.
Osteoblasts can be stimulated to increase bone mass through increased secretion of osteoid and by inhibiting the ability of osteoclasts to break down osseous tissue. Human growth hormone is the one responsible for bone formation. It acts by two ways. It directly binds to the bone cells through the use of specific receptors. It also stimulates the production of insulin-like growth factor or IGF-1. IGF-1 is the one responsible for promoting osteoblast growth and multiplication so that this leads to increased bone mass.
Your bones can serve to protect internal organs, such as the skull protecting the brain or the ribs protecting the heart and lungs. Bones provide a frame to keep the body supported. They also produce blood. The marrow, located within the medullary cavity of long bones and interstices of cancellous bone, produces blood cells in a process called haematopoiesis.
Thus it is essential that you find ways on how to promote bone growth throughout your life. Yet, the problem is, your long bones just stop growing after 30 years old. This is because human growth hormone is secreted in less amounts by the pituitary gland at this age.
However, thanks to modern technology, there is now artificial human growth hormone being manufactured to external administration. However, we have to know why it is an ideal supplement for growth of bone.
HGH Enhances Bone Growth
Before discussing how human growth hormone increases bone growth, we have first to review about the components of bone. Bone cells are called osteoblasts, which are mononucleate bone-forming cells that descend from osteoprogenitor cells. They are located on the surface of osteoid seams and make a protein mixture known as osteoid, which mineralizes to become bone. Osteocytes originate from osteoblasts that have migrated into and become trapped and surrounded by bone matrix that they themselves produce. Their functions include the formation of bone, matrix maintenance and calcium homeostasis. They have also been shown to act as mechano-sensory receptors — regulating the bone's response to stress and mechanical load. They are mature bone cells.
Osteoblasts can be stimulated to increase bone mass through increased secretion of osteoid and by inhibiting the ability of osteoclasts to break down osseous tissue. Human growth hormone is the one responsible for bone formation. It acts by two ways. It directly binds to the bone cells through the use of specific receptors. It also stimulates the production of insulin-like growth factor or IGF-1. IGF-1 is the one responsible for promoting osteoblast growth and multiplication so that this leads to increased bone mass.