Biomechanics

Biomechanics is characterized as the mechanics applied to biology, and mechanics is the response of bodies to forces or displacements themselves. Biomechanics is application of the concepts of mechanical engineering to living organisms. Organism biomechanics can be studied at various levels: level of the cell, level of the tissue, and level of the whole joint. The principles of engineering can be used to comprehend the origin and development of many rheumatic diseases. For physicians and medical practitioners a clear understanding of these values is helpful. Biomechanics is considered one of the main fields for the interpretation of physiological and pathophysiological concepts in humans. Decades of research into biomechanics have revealed several primary principles that control growth, tissue formation, morphogenesis of the organism and tissue regeneration. Not surprisingly, biomechanics is one of the main sciences used to explain how damage is caused by dynamic charge in the central nervous system;. The crucial shift from physiology to pathophysiology is particularly significant as early changes in pathophysiology to the CNS may have a major impact on cellular decisions to maintain, reintegrate and rebuild the damaged CNS. Biomechanics is the application of forces and their effects quite simply on the biological system. These are the effects of applying forces to the human body in the human body. This may involve internal or external forces in the upper limb. Knowing and understanding the range of forces unique in the upper limb will help the health-care team create the intended design and treatment plan appropriately.