... the possible fracture risks in bone. biomechanics bone composite materials elastic moduli failure (mechanical) fracture molecular biophysics molecular configurations nanomedicine proteins X-ray diffraction mineral crystal degree of orientation nanostructural strength X-ray diffraction...

... strategies to improve patellar tendon autograft integration into bone using this model. 21 06 2011 23 08 2011 04 10 2011 04 10 2011 biochemistry biomechanics bone failure (mechanical) mechanical stability molecular biophysics muscle prosthetics proteins surgery tissue...

... 23 12 2010 23 12 2010 compressive strength diseases failure (mechanical) injuries prosthetics knee hyperextension anterior cruciate ligament posterior cruciate ligament injury The knee is one of the most frequently injured joints in the body, often accounting...

... in hip resurfacing ( 28 ). 19 09 2008 15 01 2010 02 02 2010 01 07 2010 01 07 2010 biomechanics bone compressibility failure (mechanical) finite element analysis mechanical strength orthopaedics prosthetics hip resurfacing cancellous bone composite femur...

... failure tolerance stiffness beam theory biomechanics biomedical measurement bone failure (mechanical) neurophysiology orthopaedics tensile strength tensile testing wounds 12 09 2008 25 03 2009 06 07 2009 2009 American Society of Mechanical Engineers ...

... and prosthesis geometries were found to be the parameters most likely to influence the magnitude of the cement stresses and therefore to contribute most to the probability of failure. 01 02 2008 11 11 2008 20 03 2009 biomedical materials composite materials failure (mechanical) finite...

..., the main objective of this research project was to measure human tensile neck failure mechanics to provide data for computational modeling, anthropometric test device development, and improved tensile injury criteria. Twelve human cadaver specimens, including four females and eight males with a mean age...

... biomechanics failure (mechanical) mechanical testing stress relaxation torque 2009 American Society of Mechanical Engineers ...

..., cancellous bone screws often experience failure by a “backout” or “pullout” phenomenon. Consequently, a number of studies have examined this failure mechanism by performing extraction tests of cancellous bone screws from human, animal, and synthetic cancellous bone ( 17 18 19 20 21 22 23 24 25 26...

... convergence of numerical methods failure (mechanical) image segmentation medical image processing mesh generation orthopaedics physiological models 21 09 2006 02 05 2007 2007 American Society of Mechanical Engineers ...

... constrain becomes more important to increase the load carrying capacity of the weaker osteoporotic cores. 22 07 2005 04 12 2006 patient treatment bone diseases orthopaedics biomechanics fracture mechanics failure (mechanical) physiological models finite element analysis...

... 05 2005 04 10 2006 artificial limbs abrasion failure (mechanical) bone orthopaedics kinematics biomechanics polymers biomedical materials stress analysis finite element analysis shoulder finite elements wear orthopaedics Clinically observed loosening...

... and could significantly alter model predictions during high-rate loading. 21 12 2005 19 06 2006 biological tissues biomechanics physiological models failure (mechanical) shear deformation tensile testing solid modelling medical computing digital simulation numerical analysis...

..., but this work identifies that loading rate within the immature populace is a factor when considering injury prevention. This study aimed to determine the effect of loading rate on compressive failure mechanics of the pediatric cervical spine. It was found that both stiffness and failure load increased...

... or extensometers slipped lead to differences. Stress variations (maximum, minimum, and averages) can be seen in Table 3 . 07 08 2003 28 09 2004 bone biomechanics creep tensile strength fatigue failure (mechanical) stress analysis elastic moduli Fatigue studies that also recorded...

... viscoelasticity genetic engineering biological tissues elasticity stress-strain relations failure (mechanical) The mechanical behavior of tendon and ligament is nonlinear and time dependent. When loaded in tension, tendons and ligaments exhibit a nonlinear stress-strain relationship comprised...

... models computerised tomography failure (mechanical) The scapula, the humerus, and the clavicle are the bones that, collectively with the ligaments and muscles, constitute the shoulder joint. The scapula and the humerus articulate at the glenohumeral joint. The shallow depression of the scapula...