ABSTRACT Cross‐sectional and interventional studies suggest that high‐intensity strength and impact‐type training provide a powerful osteogenic stimulus even in old age. However, longitudinal evidence on the ability of high‐intensity training to attenuate age‐related bone deterioration is currently lacking. This follow‐up study assessed the role of continued strength and sprint training on bone aging in 40‐ to 85‐year‐old male sprinters (n = 69) with a long‐term training background. Peripheral quantitative computed tomography (pQCT)‐derived bone structural, strength, and densitometric parameters of the distal tibia and tibia midshaft were assessed at baseline and 10 years later. The groups of well‐trained (actively competing, sprint trainin...
Mechanical loading is thought to be a determinant of bone mass and geometry. Both ground reaction fo...
AbstractMechanical loading is thought to be a determinant of bone mass and geometry. Both ground rea...
Physical function and physical loading, especially intensive osteogenic exercise, typically decrease...
Cross-sectional and interventional studies suggest that high-intensity strength and impact-type trai...
Summary This randomized, controlled, high-intensity strength and sprint training trial in middle-ag...
According to cross-sectional and interventional studies, high-intensity strength and impact-type tr...
Bones are a fundamental element of the musculoskeletal system with complex tasks. They need to be li...
Objective: To investigate whether athletic participation allows master athletes to preserve their go...
We investigated longitudinal changes in tibia bone strength in master power (jumping and sprinting) ...
We investigated longitudinal changes in tibia bone strength in master power (jumping and sprinting) ...
We examined bone density in older athletes and controls. Sprinters had greater hip and spine bone de...
Mechanical loading is thought to be a determinant of bone mass and geometry. Both ground reaction fo...
Summary: We examined bone density in older athletes and controls. Sprinters had greater hip and spin...
Mechanical loading is thought to be a determinant of bone mass and geometry. Both ground reaction fo...
AbstractMechanical loading is thought to be a determinant of bone mass and geometry. Both ground rea...
Physical function and physical loading, especially intensive osteogenic exercise, typically decrease...
Cross-sectional and interventional studies suggest that high-intensity strength and impact-type trai...
Summary This randomized, controlled, high-intensity strength and sprint training trial in middle-ag...
According to cross-sectional and interventional studies, high-intensity strength and impact-type tr...
Bones are a fundamental element of the musculoskeletal system with complex tasks. They need to be li...
Objective: To investigate whether athletic participation allows master athletes to preserve their go...
We investigated longitudinal changes in tibia bone strength in master power (jumping and sprinting) ...
We investigated longitudinal changes in tibia bone strength in master power (jumping and sprinting) ...
We examined bone density in older athletes and controls. Sprinters had greater hip and spine bone de...
Mechanical loading is thought to be a determinant of bone mass and geometry. Both ground reaction fo...
Summary: We examined bone density in older athletes and controls. Sprinters had greater hip and spin...
Mechanical loading is thought to be a determinant of bone mass and geometry. Both ground reaction fo...
AbstractMechanical loading is thought to be a determinant of bone mass and geometry. Both ground rea...
Physical function and physical loading, especially intensive osteogenic exercise, typically decrease...