Add to ORKGThe mechanisms underlying the effect of alterations in Type I collagen on bone mechanical properties are not well defined. Clinical tools for evaluating fracture risk, such as dual energy x-ray absorptiometry (DXA) and quantitative ultrasound (QUS) focus on bone mineral and cannot detect changes in the collagen matrix. The mechanical response tissue analyzer (MRTA) is a potential tool for evaluating fracture risk. Thus, the focus of this work was to investigate the effects of collagen degradation on bone mechanical properties and examine whether clinical tools can detect these changes. Female and male emu tibiae were endocortically treated with 1 M potassium hydroxide (KOH) solution for 1-14 days and then either mechanically tested in ...
The contribution of the nanostructure to whole bone strength has long been debated. However the impa...
The purpose of this study was to explore the relationship between the integrity of collagen and biom...
Osteoporosis is a disease characterized by low bone mass leading to an increased risk of fracture. B...
The mechanisms underlying the effect of alterations in Type I collagen on bone mechanical properties...
BACKGROUND: The mechanisms underlying the effect of alterations in type I collagen on bone mechanica...
The ability of current clinical tools to predict bone fractures is poor, likely because these tools ...
The hypothesis of this study was that collagen denaturation would lead to a significant decrease in ...
The denaturation of collagen at the molecular level in bone and dentin can impact their structure an...
Bone comprises a complex structure of primarily collagen, hydroxyapatite and water, where each hiera...
Bone quantity and quality are considered the main predictors of bone mechanical properties (i.e., st...
The strength of bone is related to its mass and geometry, but also to the physical properties of the...
The mechanical properties of bone tissue are reflected in its micro- and nanostructure as well as in...
Osteogenesis imperfecta (OI), also known as brittle bone disease, affects 1 in 10.000 births. This d...
ABSTRACT: Stress fractures are overuse injuries of bone that affect elite athletes and military recr...
Bone tissue “stress-whitens” (changes from translucent to opaque) immediately prior to fracture, yet...
The contribution of the nanostructure to whole bone strength has long been debated. However the impa...
The purpose of this study was to explore the relationship between the integrity of collagen and biom...
Osteoporosis is a disease characterized by low bone mass leading to an increased risk of fracture. B...
The mechanisms underlying the effect of alterations in Type I collagen on bone mechanical properties...
BACKGROUND: The mechanisms underlying the effect of alterations in type I collagen on bone mechanica...
The ability of current clinical tools to predict bone fractures is poor, likely because these tools ...
The hypothesis of this study was that collagen denaturation would lead to a significant decrease in ...
The denaturation of collagen at the molecular level in bone and dentin can impact their structure an...
Bone comprises a complex structure of primarily collagen, hydroxyapatite and water, where each hiera...
Bone quantity and quality are considered the main predictors of bone mechanical properties (i.e., st...
The strength of bone is related to its mass and geometry, but also to the physical properties of the...
The mechanical properties of bone tissue are reflected in its micro- and nanostructure as well as in...
Osteogenesis imperfecta (OI), also known as brittle bone disease, affects 1 in 10.000 births. This d...
ABSTRACT: Stress fractures are overuse injuries of bone that affect elite athletes and military recr...
Bone tissue “stress-whitens” (changes from translucent to opaque) immediately prior to fracture, yet...
The contribution of the nanostructure to whole bone strength has long been debated. However the impa...
The purpose of this study was to explore the relationship between the integrity of collagen and biom...
Osteoporosis is a disease characterized by low bone mass leading to an increased risk of fracture. B...