5.5 KiB
| title | chunk | source | category | tags | date_saved | instance |
|---|---|---|---|---|---|---|
| Neuroscientist | 2/3 | https://en.wikipedia.org/wiki/Neuroscientist | reference | science, encyclopedia | 2026-05-05T03:47:59.569810+00:00 | kb-cron |
=== Medieval European beliefs and Andreas Vesalius === Medieval beliefs generally held true the proposals of Galen, including the attribution of mental processes to specific ventricles in the brain. Functions of regions of the brain were defined based on their texture and composition: memory function was attributed to the posterior ventricle, a harder region of the brain and thus a good place for memory storage. Andreas Vesalius redirected the study of neuroscience away from the anatomical focus; he considered the attribution of functions based on location to be crude. Pushing away from the superficial proposals made by Galen and medieval beliefs, Vesalius did not believe that studying anatomy would lead to any significant advances in the understanding of thinking and the brain.
== Current and developing research topics == Research in neuroscience is expanding and becoming increasingly interdisciplinary. Many current research projects involve the integration of computer programs in mapping the human nervous system. The National Institutes of Health (NIH) sponsored Human Connectome Project, launched in 2009, hopes to establish a highly detailed map of the human nervous system and its millions of connections. Detailed neural mapping could lead the way for advances in the diagnosis and treatment of neurological disorders. Neuroscientists are also at work studying epigenetics, the study of how certain factors that we face in our everyday lives not only affect us and our genes but also how they will affect our children and change their genes to adapt to the environments we faced.
=== Behavioral and developmental studies === Neuroscientists have been working to show how the brain is far more elastic and able to change than we once thought. They have been using work that psychologists previously reported to show how the observations work, and give a model for it.
One recent behavioral study is that of phenylketonuria (PKU), a disorder that heavily damages the brain due to toxic levels of the amino acid phenylalanine. Before neuroscientists had studied this disorder, psychologists did not have a mechanistic understanding as to how this disorder caused high levels of the amino acid and thus treatment was not well understood, and oftentimes, was inadequate. The neuroscientists that studied this disorder used the previous observations of psychologists to propose a mechanistic model that gave a better understanding of the disorder at the molecular level. This in turn led to better understanding of the disorder as a whole and greatly changed treatment that led to better lives for patients with the disorder. Another recent study was that of mirror neurons, neurons that fire when mimicking or observing another animal or person that is making some sort of expression, movement, or gesture. This study was again one where neuroscientists used the observations of psychologists to create a model for how the observation worked. The initial observation was that newborn infants mimicked facial expressions that were expressed to them. Scientists were not certain that newborn infants were developed enough to have complex neurons that allowed them to mimic different people and there was something else that allowed them to mimic expressions. Neuroscientists then provided a model for what was occurring and concluded that infants did in fact have these neurons that fired when watching and mimicking facial expressions.
=== Effects of early experience on the brain === Neuroscientists have also studied the effects of "nurture" on the developing brain. Saul Schanberg and other neuroscientists did a study on how important nurturing touch is to the developing brains in rats. They found that the rats who were deprived of nurture from the mother for just one hour had reduced functions in processes like DNA synthesis and hormone secretion. Michael Meaney and his colleagues found that the offspring of mother rats who provided significant nurture and attention tended to show less fear, responded more positively to stress, and functioned at higher levels and for longer times when fully mature. They also found that the rats who were given much attention as adolescents also gave their offspring the same amount of attention and thus showed that rats raised their offspring similar to how they were raised. These studies were also seen on a microscopic level where different genes were expressed for the rats that were given high amounts of nurture and those same genes were not expressed in the rats who received less attention. The effects of nurture and touch were not only studied in rats, but also in newborn humans. Many neuroscientists have performed studies where the importance of touch is shown in newborn humans. The same results that were shown in rats, also held true for humans. Babies that received less touch and nurture developed slower than babies that received a lot of attention and nurture. Stress levels were also lower in babies that were nurtured regularly and cognitive development was also higher due to increased touch. Human offspring, much like rat offspring, thrive off of nurture, as shown by the various studies of neuroscientists.
== Famous neuroscientists ==
=== Neuroscientists awarded Nobel Prizes in physiology or medicine ===
Thomas C. Südhof (2013) for the discovery of the precise neurotransmitters release control system.