ISSN: 2044-9038 (Print) 2044-9046 (Electronic)

Clinical Practice

Bio Mechanics Journals Publications

 Biomechanics is adaptation of the concepts of mechanical engineering to living beings. Biomechanics of organisms can be examined at various levels: cellular level (e.g., cell response to externally applied force or deformation), tissue level ( e.g., anterior cruciate ligament strain during normal gait) and whole-joint level ( e.g., joint contact forces during daily living activities). The concepts of engineering may be used to grasp the origin and development of certain rheumatic diseases. For physicians and medical practitioners a clear knowledge of these values is helpful. This chapter presents a rudimentary background of engineering mechanics related to whole-joint and tissue mechanics in the human body. Biomechanics is considered one of the core disciplines for understanding physiological and pathophysiological principles in humans. Decades of research into biomechanics have revealed many primary principles that regulate growth, tissue formation, morphogenesis of the organism and tissue regeneration. Not unexpectedly, biomechanics is one of the main disciplines used to explain how damage is induced by complex charge in the central nervous system ( CNS). This key transition from physiology to pathophysiology is particularly important, since early changes in pathophysiology. This long-term response, initiated at the time of injury when forces are transferred to the cellular / molecular scale, is a key contributor to the outcome of patients with head injuries and spinal cord injuries. Compared with almost any other application of biomechanics and the human body, traumatic loading biomechanics has three unique components

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