Our brains control pain perception
Pain perception is essential for survival, but how much something
hurts can sometimes be amplified or suppressed: for example, soldiers
who sustain an injury in battle often recall not feeling anything at the
time. A new study published honed in on the
brain circuitry responsible for upgrading or downgrading these pain
signals, likening the mechanism to how a home thermostat controls room
temperature.
The paper's senior author and a scientist for the National Center for Complementary and Integrative Health (NCCIH), told AFP the region responsible was the central amygdala, which according to her work appeared to play a dual role.
Studying mice, researchers found that the activity in neurons that express protein kinase C-delta amplified pain, while neurons that express somatostatin inhibited the chain of activity in the nerves required to communicate pain. The central amygdala isn't completely responsible for pain itself: if it were removed entirely, then "the 'ouch' of things, or the protective pain, would remain intact," he said.
"It seems to be sitting there waiting for something to happen," for example responding to stress or anxiety that amplifies pain, or being forced to focus on a task that diverts your attention and reduces pain. Experiencing pain can be a vital warning to seek help, for example in a person experiencing appendicitis or a heart attack.
People who are born with insensitivity to pain, meanwhile, often do not realize the severity of injuries and are at greater risk of early death. But not all pain is useful. According to a 2012 survey, about 11 per cent of US adults have pain every day and more than 17 per cent have severe levels of pain.
Often this leads to dependence on potent painkillers like opioids, or attempting to self-medicate through counterfeit or illicit drugs which are increasingly laced with deadly fentanyl. By better understanding the brain mechanisms responsible for pain modulation, researchers hope to eventually find better cures: potentially ones that target only those forms of pain that are "bad" and not useful.
"The healthy response is you get pain, it tells you something is wrong, it heals, and the pain goes away," he said. "In chronic pain, that doesn't happen, the system gets stuck. If we can identify what makes the system gets stuck, then we can reverse it."
this is only for your information, kindly take the advice of your doctor for medicines, exercises and so on.
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The paper's senior author and a scientist for the National Center for Complementary and Integrative Health (NCCIH), told AFP the region responsible was the central amygdala, which according to her work appeared to play a dual role.
Studying mice, researchers found that the activity in neurons that express protein kinase C-delta amplified pain, while neurons that express somatostatin inhibited the chain of activity in the nerves required to communicate pain. The central amygdala isn't completely responsible for pain itself: if it were removed entirely, then "the 'ouch' of things, or the protective pain, would remain intact," he said.
"It seems to be sitting there waiting for something to happen," for example responding to stress or anxiety that amplifies pain, or being forced to focus on a task that diverts your attention and reduces pain. Experiencing pain can be a vital warning to seek help, for example in a person experiencing appendicitis or a heart attack.
People who are born with insensitivity to pain, meanwhile, often do not realize the severity of injuries and are at greater risk of early death. But not all pain is useful. According to a 2012 survey, about 11 per cent of US adults have pain every day and more than 17 per cent have severe levels of pain.
Often this leads to dependence on potent painkillers like opioids, or attempting to self-medicate through counterfeit or illicit drugs which are increasingly laced with deadly fentanyl. By better understanding the brain mechanisms responsible for pain modulation, researchers hope to eventually find better cures: potentially ones that target only those forms of pain that are "bad" and not useful.
"The healthy response is you get pain, it tells you something is wrong, it heals, and the pain goes away," he said. "In chronic pain, that doesn't happen, the system gets stuck. If we can identify what makes the system gets stuck, then we can reverse it."
this is only for your information, kindly take the advice of your doctor for medicines, exercises and so on.
https://gscrochetdesigns.blogspot.com. one can see my crochet creations
https://gseasyrecipes.blogspot.com. feel free to view for easy, simple and healthy recipes
https://kneereplacement-stickclub.blogspot.com. for info on knee replacement
Labels: amplified, brains, central amygdala, controls, downgrading, dual role, inhibited, pain signals, perception, protein kinase C-delta amplified pain, somatosatin, suppressed, upgrading
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