Add to ORKGUnderstanding vertebral mechanics is of interest for identifying persons at risk of fracture, whether that is due to everyday loading such as in osteoporotic fracture or as a result of dynamic loading leading to a traumatic fracture. Vertebral fractures negatively impact the quality life of patients and represent a large financial burden on the healthcare system. A powerful but underutilized tool that can be used to study vertebral loading and fracture is digital image correlation (DIC). DIC is a non-contact optical method for measuring the displacement on the surface of materials, including bone. In this thesis, DIC was used in a laboratory setting to provide a more complete understanding of the response of vertebral bodies to compressive ...
PURPOSE: We have developed a clinically viable method for measurement of direct, patient-specific in...
Digital Volume Correlation (DVC) has emerged recently as an innovative approach to full volume (i.e....
Understanding the mechanism of osteoporotic femoral neck fractures is important for improving diagno...
Objective. To qualitatively compare the fracture locations identified in video analysis with the loc...
Digital image correlation (DIC) is being introduced to the biomechanical field. However, as DIC reli...
AbstractFull-field measurement of deformation in biological structures such as bones is a promising ...
Purpose: Previous biomechanical studies have estimated the strains of bone and bone substitutes usin...
none4noThe spine deserves careful biomechanical investigation, because of the different types of deg...
Digital image correlation (DIC) can measure full-field surface strains during mechanical testing of ...
An improved understanding of the mechanical properties of human femurs is a milestone towards a more...
The biomechanics of the spine is experimentally assessed in terms of range of motion and overall sti...
none4siThe strain distribution in vertebral body has been measured in vitro in the elastic regime bu...
Vertebral fractures are the most common osteoporotic fractures, but their prediction using standard ...
PURPOSE: We have developed a clinically viable method for measurement of direct, patient-specific in...
Spine is one of the most studied systems of the human skeleton because of the several types of probl...
PURPOSE: We have developed a clinically viable method for measurement of direct, patient-specific in...
Digital Volume Correlation (DVC) has emerged recently as an innovative approach to full volume (i.e....
Understanding the mechanism of osteoporotic femoral neck fractures is important for improving diagno...
Objective. To qualitatively compare the fracture locations identified in video analysis with the loc...
Digital image correlation (DIC) is being introduced to the biomechanical field. However, as DIC reli...
AbstractFull-field measurement of deformation in biological structures such as bones is a promising ...
Purpose: Previous biomechanical studies have estimated the strains of bone and bone substitutes usin...
none4noThe spine deserves careful biomechanical investigation, because of the different types of deg...
Digital image correlation (DIC) can measure full-field surface strains during mechanical testing of ...
An improved understanding of the mechanical properties of human femurs is a milestone towards a more...
The biomechanics of the spine is experimentally assessed in terms of range of motion and overall sti...
none4siThe strain distribution in vertebral body has been measured in vitro in the elastic regime bu...
Vertebral fractures are the most common osteoporotic fractures, but their prediction using standard ...
PURPOSE: We have developed a clinically viable method for measurement of direct, patient-specific in...
Spine is one of the most studied systems of the human skeleton because of the several types of probl...
PURPOSE: We have developed a clinically viable method for measurement of direct, patient-specific in...
Digital Volume Correlation (DVC) has emerged recently as an innovative approach to full volume (i.e....
Understanding the mechanism of osteoporotic femoral neck fractures is important for improving diagno...