What is the biomechanics of the bone?
Science that examines the movement of effects and various forces developed on the body, internally and externally, is called biomechanics. Biomechanics of the bone examines dynamics and the consequences or the way they react when they face changes. A change that may occur internally could range from contraction of different muscle groups that apply pressure on bones, after changes in the structure of bone, such as abnormal bulging joints resulting from arthritis. External forces can range from things like trying to lift a heavy object to variations on the surface while walking.
composition, strength, length, health and location of bone inside the body have an effect on determining bone biomechanics, thus affecting its mechanical functioning. In other words, the bones on the limbs or arms and legs are more resistant and quickly adapt to changes because they have become accustomed to the inner and outer fluctuacene bones located deeper inside the body, like ribs. Bones with greater density such as femur or femur can withstand stressors better nLess smaller, thinner bones found in hand or leg, and therefore less likely to suffer injury by excessive stress.
Bone integrity also plays an important role in bone biomechanics, which consists of several different types of tissues. This structure includes compact bones, otherwise known as the hard outer shell, as well as mushroom tissue, softer, somewhat "airy" tissue inside the compact bone, where structures such as blood vessels and bone marrow are placed. Most of the solid bone structure is called bone matrix. Bone matrix damage can be experienced with certain injuries, health conditions or may occur naturally because the body ages, can reduce the overall unity of the bone and reduce its ability to respond to what the exhausts. This deterioration, usually in the form of microtears or minor divisions on the bone surface, can weaken its integrity and increase the chances of fractures or fractures of the bones when they are onIt is located stressors.
On the other hand, biomechanics of bone or its ability to respond to changes rely on the ability of bones to constantly restore or reproduce new cells, a mechanism called remodeling. This process can essentially help in repairing damaged bone cells and is dependent on a certain amount of stress in the form of muscle contractions and changes in the load or force placed on the bone. For example, when biomechanics of bone in the leg is changed by a fracture, the initial healing process usually requires that it has no strength on it. As the bones begin to treat, a certain amount of weight bearing may be necessary to rebuild the bone.