The Law of Transformation of the Bone: Julius Wolff

In the 17th century, Galileo concluded that there is a correlation between mechanical force and bone morphology when we noticed that weight and activity are related to bone size. ~ Julius Wolff ~ 1892, his Magnum Opus "Bone Transformation Method" was published. There are only a few early pioneers in the field of skeletal adaptation, followed by publications from the Friedrich - William College to Berlin by the East Prussian surgeon (Charitéstitute 2014).

Due to Wolff's law and piezoelectric properties, bones naturally generate electric fields. Therefore, it is also based on electrical framework growth stimulants. Wolf's law states that "bones change their outer shape and inner (loose) structure to cope with the stresses acting on it" (Hunt, 2008). Piezoelectric gas (Figure 6) is "bone side under mechanical compression electronegativity caused by bone stress and pulling side under voltage" (Kim, Won-Ki, & Sung Jac, 1984). The mineral matrix within the bone is piezoelectric due to the force applied by the tension on the skeletal system (stationary bone), and when the bone is in mechanical compression (bone repair / hematoma) Change. Electric field creates potential to cause bone cell growth and proliferation (Kim, Won-Ki, & Sung Jac, 1984).

There are two main skeletal systems in the human body, called axillary bones and attached bones. The diaphysis consists of 80 bones of ribs, sternum, spine, ossicles, thyroid and skull. The attached limb bone has 126 bones from the chest strap, upper limbs, pelvic girdle, and lower limbs. Wolf's law states that the bone shape determines its main function to some extent and instead this function may change shape (Tortora and Grabowski 2001). Long bones such as the femur, tibia or tibia are slightly curved so that they are evenly distributed and can absorb pressure. They consist mainly of dense bone tissue in bone fractures, but also contain a large amount of spongy bone tissue at the epiphysis. Long bones are seen in the lower limbs, their length and strength are used to support the weight of the body. Examples of short bones include carpal and t-bone