![]() understanding the paradox of happy hypoxemia However, COVID is causing us to re-think how to manage this physiology. This isn’t anything especially new – we have occasionally seen this since time immemorial. Scientists and engineers have dedicated decades of study to understanding the limits, constraints, and challenges that face the human body in the environment of space.Happy hypoxemia is severe hypoxemia (poorly responsive to supplemental oxygen) without dyspnea. ![]() To carry out even the simplest task requires the input and cooperation of a highly orchestrated set of subsystems, such as nerves, bones, muscles, organs, and tissues. The human body is a remarkably complex assembly of systems. The major areas of HRP’s physiological research include bone health, muscle function, cardiovascular response, sensorimotor systems, immunology, and behavioral health. Scientists use these findings to develop and test countermeasures that can reduce or reverse the potentially harmful impacts of the space environment. HRP researchers and engineers study the human body, how it responds to different conditions, and to the situations that can arise during space exploration. One of HRP’s primary activities is the study of the human physiological response to space travel and exploration. Space travel takes the human body out of its natural habitat and places it into an unknown and sometimes harsh environment. Over time, the human body has evolved in response to the unique characteristics of the Earth environment.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |