The effects of stress on our body are listed in the article below. With the help of hypnotherapy we may be able to create a deliberte effect on our autonomous nervous system, which is normally controlled by our subconscious mind and thus lower our stress rates. Hypnosis offers us the possibility to interfere with our autonomous nervous system by accessig our subconscious mind through the conscious use of our breathing and imagination. Please visit the pages of this blog for further information or contact us directly.
People are constantly exposed to stressful situations. These may be physical (like participating in marathons, being exposed to radiation, and, perhaps surprisingly, exposed to sedatives or anesthetics). But stress can also be mental, wherein we become anxious and worried over certain events, existing or anticipated. Whether physical or mental, stress activates a brain network involving most directly the hypothalamus, the pituitary gland, and the adrenal cortex to release stress hormones. Such hormones include several cortisone-like compounds called glucocorticoids, and the most prominent one in humans is cortisol.
Glucocorticoids have profound effects on both the body and brain. Regulation of glucocorticoids is accomplished by the brain, and learning experiences have profound effects on this control system. Most of what was initially known about glucocorticoids was their effect on the body. I had the great thrill of visiting the pioneer in this field, Hans Selye in his laboratory complex at the University of Montreal.
Effects on the Body
Selye’s research led him to formulate the widely accepted concept of the glucocorticoid system as accounting for a “General Adaptation Syndrome,” which basically explained how the brain and body respond to stress. He discovered that glucocorticoids are “Goldilocks” compounds. That is, a little doesn’t do much, a lot is damaging, and intermediate levels are “just right.”
A moderate amount of cortisol is what is normally released every morning before you awaken. By the way, this is the reason surgeons want to operate early in the morning. This release helps prepare the body for the day’s activities by mobilizing blood glucose, typically by breaking down fat and, if needed, protein stores. Glucose is especially important for the brain, which has huge demands for energy, and which can only burn glucose for energy. Neurons are energized and memory ability is enhanced. Another useful thing cortisol does is to reduce the release of cellular chemicals that cause inflammation.
However, the hormone also inhibits systems that channel resources for growth and reproduction, impairs bone formation, and inhibits the immune system. These problems are why glucocorticoid prescriptions usually start off with a high dose to the blood level up quickly and then the dose is tapered to zero after about four days.
The rub comes when stress is prolonged. Selye discovered that the beneficial adaptation to temporary stress cannot be sustained in chronic stress. The system becomes exhausted and control breaks down. Under chronic stress, body muscle mass decreases because the system has been breaking down proteins in order to generate energy. Inflammation bathes cells in toxic chemicals. Infections increase because the immune system has been compromised. In obese people, glucocorticoid levels cumulatively increase in fat cells, increase fat deposits still further, and increase the likelihood of type 2 diabetes and cardiovascular disease.
Effects on the Brain
In the case of brain, persistent high levels of glucocorticoid often causes depression. Memory ability is impaired. Brain degeneration and cognitive decline accelerate. Many neurons are actually killed. What I want to stress here is that chronic high levels of cortisone change the neural circuitry that regulates its release. In other words, the brain learns a new way of functioning if constantly bathed in high levels of cortisone.
Effects of Learning
Few people make the connection between glucocorticoid control and learning. The neuronal circuits that control hormone secretion learn from stressful experience, just as all neurons learn from whatever they experience. What neurons in the cortisol control circuit learn in chronic stress is that the usual controls can’t work any more.
A typical response to a repeated stress of a certain type (for example, constant quarrels with a spouse or repeated job failures) can be habituation. It’s like “tuning out.” Repeated exposure to the same stress teaches the neurons to stop responding as much as usual. Thus, there is less of the benefits that glucocorticoids provide.
At the same time, the hormone control system becomes hypersensitive to other stresses, especially unpredictable or especially severe stresses. The control system learns to overreact to everything other than the stress to which it has habituated. Now, the damaging effect of too much glucocorticoid becomes pervasive, both for the body and brain.
Whether the brain learns stress-coping strategies depends on conscious override of hyperactive responses to stress, because the neural system that operates our emotions, the limbic system, also regulates the glucocorticoid control system. We can not only reduce excessive glucocorticoid but also teach our brain better ways to deal with stress by doing the following:
- Simplify and organize our life
- Do one thing at a time and finish it
- Find pleasure in the little things
- Learn to have a more positive attitude
- Laugh and be happy
- Suppress anxiety
- Be more rational and less emotional
- Develop supportive social relations
- Reduce exposure to stressors
Excessive stress is a special problem in children. First, growing up is usually stressful, because of school and complex social experiences. Children are just beginning life’s journey of learning how to cope with stress. For that reason, I produced a Youtube video to help school children learn about stress and how to deal with it.
Herman, James P. (2013). Neural control of chronic stress adaptation. Frontiers in Behavioral Neuroscience. August 8. Doi: 10.3389/fnbeh.2013.00061