The plans of human expeditions to the neighboring planet of Mars have been in making for several decades now. Dr. Curtis Cripe and several other prominent researchers and scientific minds of the world have additionally been working on proposals to make the dream of sending a man to Mars come true. The National Aeronautics and Space Administration (NASA) essentially is the primary institution that has been tasked with the responsibility of working on proposals relating to deep space probe. As of now, a human mission to Mars essentially is one of the key missions that NASA is putting its emphasis on. However, while man has already landed on moon, and is taking baby steps to travel to Mars, one of the biggest concerns of the space agencies of the world tends to be the assurance of the safety of astronauts as they travel beyond earth.
Dr. Curtis Cripe marks the essentials for the well-being of astronauts going on deep space probes. Owing the safety concerns relating to space explorers, Dr. Curtis Cripe, as well as various other scientists and researchers of the world are trying to design and develop more advanced techniques and means of space travel that focuses on the safety of the astronauts, and also the good maintenance of their body and mind.
There are several types of researches pertaining to space travel made over the years that subsequently suggest that movement control, self- regulatory changes, as well as cognition of astronauts can ideally be affected negatively by various types of micro activity changes taking place in case of space travel. Apart from this, there are various pre and post-flight MRI that underline significant gray matter reductions in the key brain structure. These brain structures typically have a role to play in providing necessary support to the mental health, and ensuring overall cognitive performance. This part of the brain is subsequently comprised of hippocampus, insula and prefrontal cortex.
Dr. Curtis Cripe, being an expert in the domain of neuroscience, goes on to highlight on the brain indices study helps in determining diverse types of neuroadaptive brain changes. It also provides a better insight on the understanding of the overall stability factor of any microgravity environment. This factor can subsequently be achieved by people while trying to put a focus on the overall effects of short/long-duration spaceflight on distinct neuroelectric brain markers. The various vital brain network hubs and their interconnected networks tend to be especially popular for regulating distinct neurocognitive skills that subsequently are necessary for systematic maintenance of the needed psychological performance, affective and cognitive stability of astronauts.
An expansive amount of research studies made by Dr. Curtis Cripe ideally tends to provide a combination of various modern neuroelectric performance markers along with a distinct astronaut head model. This head model is usually derived from a number of MRI/DTI brain images that are based on investigating the network level connectivity changes that usually are to be experienced by astronauts who spend a good amount of time in space.