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The application of biomechanical principles to plants, plant organs and cells has developed into the subfield of plant biomechanics. [12] Application of biomechanics for plants ranges from studying the resilience of crops to environmental stress [13] to development and morphogenesis at cell and tissue scale, overlapping with mechanobiology. [8]
Biomechanical engineers can be seen as mechanical engineers that work in a biomedical context. This is not only due to occasionally mechanical nature of medical devices, but also mechanical engineering tools (such as numerical software packages ) are commonly used in analysis of biological materials and biomaterials due to the high importance ...
Biomechanical may refer to: Biomechanics , the application of mechanical principles to living organisms Sports biomechanics , a quantitative based study and analysis of professional athletes and sports' activities in general
Biomechanical engineering: is the application of mechanical engineering principles and biology to determine how these areas relate and how they can be integrated to potentially improve human health. [20] Bionics: an integration of Biomedical, focused more on the robotics and assisted technologies. (Ex: prosthetics) [17]
Plant cell mechanics combines principles of biomechanics and mechanobiology to investigate the growth and shaping of the plant cells. Plant cells, similar to animal cells, respond to externally applied forces, such as by reorganization of their cytoskeletal network.
Mechanobiology is an emerging field of science at the interface of biology, engineering, chemistry and physics. It focuses on how physical forces and changes in the mechanical properties of cells and tissues contribute to development, cell differentiation, physiology, and disease.
Depending on the strengths of a department at a university differing emphasis will be given to fields of biophysics. What follows is a list of examples of how each department applies its efforts toward the study of biophysics. This list is hardly all inclusive. Nor does each subject of study belong exclusively to any particular department.
From cell biomechanics, technology has been created to separate targeted cells. For the case of disease diagnosis and detection, said technology is able to separate healthy cells from cancerous ones through the difference in stiffness of the cell. [17] Deformability-based enrichment devices are an example of this technology.