Add to ORKGFindings on the connective tissue response to short-term space flight (12 days) are discussed. Specifically, data regarding the biochemical, biomechanical and morphological characteristics of selected connective tissues (humerus, vertebral body, tendon and skeletal muscle) of growing rats is given. Results are given concerning the humerus cortical bone, the vertebral bone, nutritional effects on bone biomechanical properties, and soft tense fiber connective tissue response
Two simultaneous experiments were performed using 5-week-old male Sprague Dawley rats; in one study,...
The structural components of the skeleton develop and are maintained in a 1 g environment, shaped by...
Mechanical unloading during spaceflight is known to adversely affect mammalian physiology. Our previ...
Bone area, bone electrophysiology, bone vascularity, osteoblast morphology, and osteoblast histogene...
The response to hypogravity by the skeletal system was originally thought to be the result of a redu...
Exposure to microgravity causes alterations in the skeletal and mineral homeostatic systems. Little ...
Light and electron microscopy studies were carried out on decalcified tibial epiphyseal plates of ra...
Previous analyses of the composition of mineral and matrix in the bone of young rats following space...
We have received and processed all samples for either light or scanning electron microscopic analysi...
Space travel is know to effect skeletal muscle, causing rapid and pronounced atrophy in humans and a...
International audienceIntrinsic quality, micro and nano structure of bone after 1 month of spaceflig...
The present findings on rat hindlimb muscles suggest that skeletal muscle weakness induced by prolon...
Weightbearing is essential for normal skeletal function. Without weightbearing, the rate of bone for...
It is well known that humans exposed to long term spaceflight experience undesirable progressive mus...
Graduation date: 2017The reduction in mechanical load imparted on the body during spaceflight presen...
Two simultaneous experiments were performed using 5-week-old male Sprague Dawley rats; in one study,...
The structural components of the skeleton develop and are maintained in a 1 g environment, shaped by...
Mechanical unloading during spaceflight is known to adversely affect mammalian physiology. Our previ...
Bone area, bone electrophysiology, bone vascularity, osteoblast morphology, and osteoblast histogene...
The response to hypogravity by the skeletal system was originally thought to be the result of a redu...
Exposure to microgravity causes alterations in the skeletal and mineral homeostatic systems. Little ...
Light and electron microscopy studies were carried out on decalcified tibial epiphyseal plates of ra...
Previous analyses of the composition of mineral and matrix in the bone of young rats following space...
We have received and processed all samples for either light or scanning electron microscopic analysi...
Space travel is know to effect skeletal muscle, causing rapid and pronounced atrophy in humans and a...
International audienceIntrinsic quality, micro and nano structure of bone after 1 month of spaceflig...
The present findings on rat hindlimb muscles suggest that skeletal muscle weakness induced by prolon...
Weightbearing is essential for normal skeletal function. Without weightbearing, the rate of bone for...
It is well known that humans exposed to long term spaceflight experience undesirable progressive mus...
Graduation date: 2017The reduction in mechanical load imparted on the body during spaceflight presen...
Two simultaneous experiments were performed using 5-week-old male Sprague Dawley rats; in one study,...
The structural components of the skeleton develop and are maintained in a 1 g environment, shaped by...
Mechanical unloading during spaceflight is known to adversely affect mammalian physiology. Our previ...