Nano-Mechanical Implant Design

Nano biomechanics is concerned with the basic and applied research in the broad field of joints, soft tissues, bones and other implants. It is an emerging field in Nano science and biomechanics that combines the powerful tools of Nano mechanics to explore fundamental science of biomaterials and biomechanics. Nano Biomechanics majorly focuses on the development of implants. Nano Mechanical Implants ranges from the inner workings of a cell to the movement and development of limbs, to the mechanical properties of soft tissue (Cardiovascular Biomechanics) and bones. Some simple examples of biomechanics research include the investigation of the forces that act on limbs, the aerodynamics of bird and insect flight, the hydrodynamics of swimming in fish, and locomotion in general across all forms of life, from individual cells to whole organisms. The biomechanics of human beings is a core part of kinesiology. As we develop a greater understanding of the physiological behavior of living tissues, researchers are able to advance the field of tissue engineering and regenerative Nano medicine, as well as develop improved treatments for a wide array of pathologies.
 

 

Biomechanics is an emerging field in which Nano biomechanics is of utmost important. It is a rapidly growing field in Nano science and biomechanics that combines the powerful tools of Nano mechanics to explore fundamental science of biomaterials and biomechanics. It is concerned with the basic and applied research in the broad field of joints, soft tissues, bones and other implants. It is also concerned with the measurement of tiny forces on living cells to recognize changes caused by different diseases. For example, it has been shown that red blood cells infected by malaria are 10 times stiffer than normal cells Nano Biomechanics majorly focuses on the development of implants. Nano Mechanical Implants ranges from the inner workings of a cell to the movement and development of limbs, to the mechanical properties of soft tissue (Cardiovascular Biomechanics) and bones. Some simple examples of biomechanics research include the investigation of the forces that act on limbs, the aerodynamics of bird and insect flight, the hydrodynamics of swimming in fish, and locomotion in general across all forms of life, from individual cells to whole organisms.. The biomechanics of human beings is a core part of kinesiology. As we develop a greater understanding of the physiological behavior of living tissues, researchers are able to advance the field of tissue engineering and regenerative Nano medicine, as well as develop improved treatments for a wide array of pathologies.

 

 

  • Cardiovascular Biomechanics
  • Human Body Physiology and Biomechanics
  • Nanobiomechanics
  • Osteoarticular Regenerative Nanomedicine
  • Human Biomechanics
  • Implant Biomechanics
  • Nanomechanical Bone Chips

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