Add to ORKGThe consequences of headward fluid shifts during manned spaceflight was studied. Such shifts were recognized early by both U.S. and Soviet scientists because of signs and symptoms referable to the head. Some of these include disturbed vision, puffiness in the face and periorbital areas, headache, vestibular dysfunction, and distended jugular veins. We posited that the fluid shift had an immediate effect on the brain and a long-term action requiring a neural interpretation of the flight environment. This would re-adjust both efferent neural as well as hormonal mechanisms to sustain cardiovascular and fluid/electrolyte balance consonent with survival in microgravity. Work along these lines is summarized. A synopsis of some of the main researc...
Long-duration human spaceflight can lead to changes in both the eye and the brain, which have been r...
During the acute transition from lying supine to standing upright, a large volume of blood suddenly ...
Exposure to the microgravity environment results in various adaptive and maladaptive physiological c...
This collaborative agreement between Drs. Severs and Keil began in 1981, arising from a continuing i...
The changes that occur in human fluid and electrolyte physiology during the acute and adaptive phase...
The study of man in spaceflight has consistently indicated changes in fluid and electrolyte balance....
Future human space travel will primarily consist of long duration missions onboard the International...
After centuries of wonder, human being finally realized the decisive possibility of going to the moo...
A recognized side effect of prolonged microgravity exposure is visual impairment and intracranial pr...
Although once a widely speculated about and largely theoretical topic, spaceflightinduced intracrani...
Local fluid shifts and edema in humans during simulated microgravity is studied. Recent results and ...
The Visual Impairment Intracranial Pressure (VIIP) syndrome is currently NASA's number one human spa...
Fluid electrolyte metabolism and renal endocrine control as it pertains to adaptation to weightlessn...
The goal of the proposed research was to study the nature of afferent signals to the brain that refl...
This project has investigated mechanisms that influence alterations in compartmental fluid and elect...
Long-duration human spaceflight can lead to changes in both the eye and the brain, which have been r...
During the acute transition from lying supine to standing upright, a large volume of blood suddenly ...
Exposure to the microgravity environment results in various adaptive and maladaptive physiological c...
This collaborative agreement between Drs. Severs and Keil began in 1981, arising from a continuing i...
The changes that occur in human fluid and electrolyte physiology during the acute and adaptive phase...
The study of man in spaceflight has consistently indicated changes in fluid and electrolyte balance....
Future human space travel will primarily consist of long duration missions onboard the International...
After centuries of wonder, human being finally realized the decisive possibility of going to the moo...
A recognized side effect of prolonged microgravity exposure is visual impairment and intracranial pr...
Although once a widely speculated about and largely theoretical topic, spaceflightinduced intracrani...
Local fluid shifts and edema in humans during simulated microgravity is studied. Recent results and ...
The Visual Impairment Intracranial Pressure (VIIP) syndrome is currently NASA's number one human spa...
Fluid electrolyte metabolism and renal endocrine control as it pertains to adaptation to weightlessn...
The goal of the proposed research was to study the nature of afferent signals to the brain that refl...
This project has investigated mechanisms that influence alterations in compartmental fluid and elect...
Long-duration human spaceflight can lead to changes in both the eye and the brain, which have been r...
During the acute transition from lying supine to standing upright, a large volume of blood suddenly ...
Exposure to the microgravity environment results in various adaptive and maladaptive physiological c...