Rewire Your Brain: Think Your Way to a Better Life
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tame
rather than shut down , because you need the amygdala. It contributes to emotional responsiveness in general, not just fear. You don ’ t want to shut it down; rather, you want it to work for you. There are two principal ways to activate your amygdala: the slow track or the fast track. The slow track goes through the cortex. This means that you can think about things before you become fearful. This is both good and bad: good because you can remind yourself that there is nothing to fear; bad if you develop irrational fears. The fast track to activate your amygdala can trigger your sympa- thetic nervous system into action and can potentially cause anxiety and/or panic. Your amygdala can sound the alarm before your cor- tex knows what ’ s happening. This means that you can feel anxious before you even think about something that makes you anxious. Within a fraction of a second, the amygdala can use norepinephrine to spark electrical impulses throughout your sympathetic nervous system to activate your adrenal glands. These glands will dump epinephrine (adrenaline) into your bloodstream, which jolts your system to increase your breathing, your heart rate, and your blood pressure. This is called the fi ght - or - fl ight response. A full - blown fi ght - or - fl ight response is very effective in the wild. All mammals have this lifesaving capacity. It starts with freezing. When you ’ re driving on a country road at night and you see a deer standing in the road staring at your rapidly approaching car, the deer is not stupid. It ’ s merely doing what animals have done for millions of years to keep themselves safe. When they hear the approaching sounds of a poten- tial predator, they freeze so that they have time to see the predator before the predator sees them. Since many predators look for move- ment, freezing is a good way of instantly becoming invisible. Once the animal sees where the predator is located, it can continue with the rest of the fi ght - or - fl ight response. The deer is actually preparing for action when it freezes. Although it might seem to us that the deer is doing nothing, its body is actually bracing to fi ght or to fl ee. c02.indd 30 c02.indd 30 1/29/10 10:09:53 AM 1/29/10 10:09:53 AM Ta m i n g Yo u r A myg d a l a 31 Just as with the deer, the rush of adrenaline that you experience pre- pares your body to get moving by increasing your heart rate and your breathing so that you can send more oxygen to your muscles. Adrenaline binds to your muscle spindles, intensifying the resting tension so that your muscles can burst into action. The blood vessels in your skin constrict to limit any potential bleeding if you are wounded, and your digestive system shuts down to conserve energy. Saliva stops fl owing (so your mouth becomes dry), and the muscles in your bladder relax so as not to waste glucose. The shorthand sequence goes like this: The amygdala signals the hypothalamus, which is responsible for many metabolic processes and involved in the autonomic nervous system. This signals the pituitary gland, which signals the adrenal glands to release adrenaline and later cortisol. This chain is called the hypothalamus - pituitary - adrenal (HPA) axis . Neurochemically, norepinephrine, along with a substance called the corticotropin - releasing factor (CRF), is sent from the amygdala to the hypothalamus, which signals the pituitary gland. The pituitary gland then sends a slow message through your bloodstream to your adrenal glands, telling them to secrete cortisol, a stress hormone that can keep you charged up a little longer than adrenaline does, to deal with the stress. On a short - term basis, cortisol facilitates dopamine, which keeps you alert and activated. However, cortisol can be corrosive to the brain and the body if it stays activated too long. With excessive and prolonged cortisol, the levels of dopamine become depleted, and this makes you feel awful. On a short - term basis, however, cortisol is actually very useful. If you encounter stress that requires a prolonged response beyond a quick fl ight or a fi ght, your body needs a way to manufacture fuel (glucose). Epinephrine (adrenaline) immediately converts glycogen and fatty acids, but when the stress is longer-lasting, cortisol takes over. It works through the bloodstream, so its effects are slower than adrenaline ’ s. Cortisol works more systemically than adrenaline does. It triggers the liver to make more glucose available in the bloodstream while it also blocks insulin receptors in nonessential organs and tissues c02.indd 31 c02.indd 31 1/29/10 10:09:53 AM 1/29/10 10:09:53 AM 32 Rew i r e Yo u r B r a i n so that you get all the glucose (fuel) that you need to deal with the threat. Cortisol ’ s work is a long - term strategy of insulin resistance, which serves to provide the brain with a sustained level of glucose. However, you don ’ t always have a lot of glucose fl oating around, so cortisol works to stockpile energy. It converts protein into glyco- gen and begins to store fat. If the stress is chronic, the increased body fat is stored in the abdomen. If you have a growing bulge in your midsection, it may be due to cortisol working to store energy. Unfortunately, that ’ s not the way you want it to be stored. It ’ s better to burn off such stored energy by exercise. One of the many problems associated with chronic stress and high levels of cortisol is that parts of the brain bear the brunt — especially the hippocampus. The hippocampus has many cortisol receptors; under normal circumstances, this helps to trigger the shutting-off of cortisol, much like a thermostat, so that it can turn down the production of cortisol. However, when cortisol production is excessive and prolonged, the hippocampus receptors themselves shut down. The hippocampus then begins to atrophy, and with it your memory capacity. Unfortunately, the reverse happens for the amygdala. Instead of enduring atrophy, it is hypersensitized. The amygdala actually becomes more sensitized by an increase in cortisol. From an evolu- tionary perspective this makes sense, because if our early ancestors were stressed by something like dangerous predators, they needed to be hyperalert and not think about anything else. Because the amygdala can become hypersensitive, chronic stress can make you more jumpy and anxious. This is why a war veteran with posttraumatic stress disorder (PTSD) will hit the fl oor and cover his head when he hears the loud blast of fi reworks. Before he has a chance to think about it, the blast reminds him of an impro- vised explosive device (IED) exploding or a gunshot. His amygdala triggers the fi ght - or - fl ight response — a false alarm. When you experience severe trauma or excessive chronic stress, the once - cooperative partnership between your hippocampus and your amygdala becomes skewed in favor of the amygdala. This is because the hippocampus is assaulted by excess cortisol and glutamate c02.indd 32 c02.indd 32 1/29/10 10:09:54 AM 1/29/10 10:09:54 AM Ta m i n g Yo u r A myg d a l a 33 when the amygdala is pumped up. Cortisol and glutamate act to excite the amygdala, and the more it is excited, the more easily it is triggered. Since your hippocampus provides the context for your mem- ories, your ability to put stressful events into perspective becomes impaired. The amygdala, in contrast, is a generalist. When it gets excited, it doesn ’ t care about the context. Any loud noise sets off the fi ght - or - fl ight response. Just as excessive and prolonged cortisol can be destructive to the hippocampus, so can a surplus of the excitatory neurotransmitter glutamate. Cortisol initially encourages LTP by increasing gluta- mate transmission in the hippocampus. This too makes evolution- ary sense, because when our ancestors were stressed by something, such as a particularly dangerous area near a lion ’ s den, they needed to remember it. However, in our modern world, this tendency locks us into rigid or fi xated patterns. You can ’ t forget what stressed you, and more glutamate helps you to remember. Too much of a good thing can cause bad things to happen. Like excess cortisol, excess glutamate damages the hippocampus by allowing electron - snatching calcium ions into cells, which cre- ates free radicals. If you don ’ t have enough antioxidants in your system, free radicals can careen around and punch holes in your cell walls, rupturing the cells and potentially killing them. Dendrites, the branches of a cell that reach out to other neurons to be poten- tially receptive to gather information, begin to wither back into the cell body. Thoughts and emotions become more rigid and simple. Your decisions will be rigid and will probably be destructive instead of constructive. Fortunately, there are ways to shut down false alarms before they become destructive. One way to do it is supported by the pioneer- ing research of Joseph LeDoux of New York University. LeDoux has shown that one area of the amygdala, the central nucleus, is Yüklə 1,07 Mb. Dostları ilə paylaş:
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