As biomechanists interested in the adaptability of the human body to microgravity conditions, it appears that our job is not only to make sure that the astronauts can function adequately in space but also that they can function upon their return to Earth. This is especially significant since many of the projects now being designed at NASA concern themselves with humans performing for up to 3 years in microgravity. While the Extended Duration Orbiter flights may last 30 to 60 days, future flights to Mars using current propulsion technology may last from 2 to 3 years. It is for this range of time that the adaptation process must be studied. Specifically, biomechanists interested in space travel realize that human performance capabilities will...
Our purpose is to summarize the major effects of space travel on skeletal muscle with particular emp...
Pronounced muscle and bone losses indicate that the musculoskeletal system suffers substantially fro...
The weightless environment encountered during human spaceflight virtually eliminates the mechanical ...
Explored here is the question of whether astronauts can perform extravehicular activities effectivel...
Biological systems ranging from the most simple to the most complex generally survive exposure to mi...
Treadmill locomotion exercise is an important aspect of ISS exercise countermeasures. It is widely b...
A major concern of the US and Russian space programs is the health and safety of astronauts and cosm...
Prolonged periods in microgravity (μG) environments result in deconditioning of numerous physiologic...
In simulated or actual microgravity, human and animal postural muscles undergo substantial atrophy: ...
In simulated or actual microgravity, human and animal postural muscles undergo substantial atrophy: ...
Life sciences research in the musculoskeletal discipline must identify possible consequences of weig...
Without effective countermeasures, the musculoskeletal system is altered by the microgravity environ...
Exercise prescriptions completed by International Space Station (ISS) crewmembers are typically base...
Physical training exposes the various systems of the body to potent physiologic stimuli. These stimu...
Major demographic changes are affecting modern societies, leading to rapidly increasing numbers of o...
Our purpose is to summarize the major effects of space travel on skeletal muscle with particular emp...
Pronounced muscle and bone losses indicate that the musculoskeletal system suffers substantially fro...
The weightless environment encountered during human spaceflight virtually eliminates the mechanical ...
Explored here is the question of whether astronauts can perform extravehicular activities effectivel...
Biological systems ranging from the most simple to the most complex generally survive exposure to mi...
Treadmill locomotion exercise is an important aspect of ISS exercise countermeasures. It is widely b...
A major concern of the US and Russian space programs is the health and safety of astronauts and cosm...
Prolonged periods in microgravity (μG) environments result in deconditioning of numerous physiologic...
In simulated or actual microgravity, human and animal postural muscles undergo substantial atrophy: ...
In simulated or actual microgravity, human and animal postural muscles undergo substantial atrophy: ...
Life sciences research in the musculoskeletal discipline must identify possible consequences of weig...
Without effective countermeasures, the musculoskeletal system is altered by the microgravity environ...
Exercise prescriptions completed by International Space Station (ISS) crewmembers are typically base...
Physical training exposes the various systems of the body to potent physiologic stimuli. These stimu...
Major demographic changes are affecting modern societies, leading to rapidly increasing numbers of o...
Our purpose is to summarize the major effects of space travel on skeletal muscle with particular emp...
Pronounced muscle and bone losses indicate that the musculoskeletal system suffers substantially fro...
The weightless environment encountered during human spaceflight virtually eliminates the mechanical ...