Add to ORKGOne of the greatest unknowns in human spaceflight is the effects of low-dose-rate galactic cosmic radiation (GCR). The majority of radiation studies deliver the total radiation dose expected on a 2-3 year mission in minutes. However, timing of radiation delivery is known to be biologically relevant. Very few studies have attempted to assess an appropriate timing, or doserate, of GCR exposure. We tested the effects of continuous low-dose-rate radiation (CIRR, dose rate of 6.25 mGy/day for 28 days) in combination with a slightly interrupted hindlimb unloading (iHU), simulated microgravity, and exercise treatments. CIRR alone led to few changes compared to the non-irradiated group. CIRR+iHU led to reductions in total body bone mineral density,...
The unique conditions of microgravity and radiation exposure in space have a substantial impact on h...
Deep space travel exposes astronauts to extended periods of space radiation and mechanical unloading...
Bones are exposed to in vivo ionizing radiation exposure in applications of spaceflight, clinical ra...
One of the greatest unknowns in human spaceflight is the effects of low-dose-rate galactic cosmic ra...
Astronauts traveling beyond low Earth orbit will be exposed to galactic cosmic radiation (GCR); unde...
The spaceflight environment presents many challenges to the human body. Bone loss in astronauts is a...
Human exposure to reduced weightbearing results in bone loss. The rate of bone loss during microgra...
Space radiation and micro-gravity are the two major obstacles impeding human exploration of Mars and...
As the focus shifts to potential Lunar and Mars missions, there are many aspects of the space enviro...
Partial weightbearing that simulates Lunar gravity (1/6th of Earth’s gravitational force) results in...
Bone loss has been identified as a characteristic response to radiation exposure in both clinical an...
We examined experimentally the effects of radiation andor simulated weightlessness by hindlimb unloa...
Long-term spaceflight leads to extensive changes in the musculoskeletal system attributable, in part...
Bone loss associated with microgravity unloading is well documented; however, the effects of spacefl...
Extended space exploration poses many physiological problems that must be overcome before humanity c...
The unique conditions of microgravity and radiation exposure in space have a substantial impact on h...
Deep space travel exposes astronauts to extended periods of space radiation and mechanical unloading...
Bones are exposed to in vivo ionizing radiation exposure in applications of spaceflight, clinical ra...
One of the greatest unknowns in human spaceflight is the effects of low-dose-rate galactic cosmic ra...
Astronauts traveling beyond low Earth orbit will be exposed to galactic cosmic radiation (GCR); unde...
The spaceflight environment presents many challenges to the human body. Bone loss in astronauts is a...
Human exposure to reduced weightbearing results in bone loss. The rate of bone loss during microgra...
Space radiation and micro-gravity are the two major obstacles impeding human exploration of Mars and...
As the focus shifts to potential Lunar and Mars missions, there are many aspects of the space enviro...
Partial weightbearing that simulates Lunar gravity (1/6th of Earth’s gravitational force) results in...
Bone loss has been identified as a characteristic response to radiation exposure in both clinical an...
We examined experimentally the effects of radiation andor simulated weightlessness by hindlimb unloa...
Long-term spaceflight leads to extensive changes in the musculoskeletal system attributable, in part...
Bone loss associated with microgravity unloading is well documented; however, the effects of spacefl...
Extended space exploration poses many physiological problems that must be overcome before humanity c...
The unique conditions of microgravity and radiation exposure in space have a substantial impact on h...
Deep space travel exposes astronauts to extended periods of space radiation and mechanical unloading...
Bones are exposed to in vivo ionizing radiation exposure in applications of spaceflight, clinical ra...