Add to ORKGThis paper examines the detailed embryologic development of the otolith organs, part of the vestibular system responsible for balance, in Japanese quail. The data from this study will provide baseline data for comparison with experiments conducted by NASA during space flight
The auditory tympana in the quail, Coturnix coturnix japonica (L.) are in-ternally coupled by an int...
Weightlessness can cause various damages especially on the musculoskeletal system both in animals an...
Hypodynamy is the most frequently used ground-based model to study the negative consequences of micr...
The lack of gravity is known to alter vestibular responses in developing and adult vertebrates. One ...
The model for studying the effects of simulated microgravity on the bird organism is hypodynamia. Th...
Most animals have organs that sense gravity. These organs use dense stones (called otoliths or stato...
This study examined the morphological development of the otolith vestibular receptors in quail. Here...
Using late larval stages of cichlid fish (Oreochromis mossambicus) we have shown earlier that the bi...
The aim of the present study was to investigate the effects of simulated microgravity (hypodynamia) ...
The aim of this study was to investigate the effects of long-term stay of Japanese quail in simulate...
International audienceThis chapter reviews the knowledge about the adaptation to Earth gravity durin...
For decades, research in altered gravitational environments has been undertaken to elucidate the imp...
Hypodynamia can be used to simulate weightlessness in laboratory conditions. The objective of our st...
The general objective of this experiment is to determine the effect of space flight parameters, incl...
The vestibular system is responsible for maintaining bodily balance, coordination and spatial awaren...
The auditory tympana in the quail, Coturnix coturnix japonica (L.) are in-ternally coupled by an int...
Weightlessness can cause various damages especially on the musculoskeletal system both in animals an...
Hypodynamy is the most frequently used ground-based model to study the negative consequences of micr...
The lack of gravity is known to alter vestibular responses in developing and adult vertebrates. One ...
The model for studying the effects of simulated microgravity on the bird organism is hypodynamia. Th...
Most animals have organs that sense gravity. These organs use dense stones (called otoliths or stato...
This study examined the morphological development of the otolith vestibular receptors in quail. Here...
Using late larval stages of cichlid fish (Oreochromis mossambicus) we have shown earlier that the bi...
The aim of the present study was to investigate the effects of simulated microgravity (hypodynamia) ...
The aim of this study was to investigate the effects of long-term stay of Japanese quail in simulate...
International audienceThis chapter reviews the knowledge about the adaptation to Earth gravity durin...
For decades, research in altered gravitational environments has been undertaken to elucidate the imp...
Hypodynamia can be used to simulate weightlessness in laboratory conditions. The objective of our st...
The general objective of this experiment is to determine the effect of space flight parameters, incl...
The vestibular system is responsible for maintaining bodily balance, coordination and spatial awaren...
The auditory tympana in the quail, Coturnix coturnix japonica (L.) are in-ternally coupled by an int...
Weightlessness can cause various damages especially on the musculoskeletal system both in animals an...
Hypodynamy is the most frequently used ground-based model to study the negative consequences of micr...