Posts Tagged ‘sleep’

Hormesis and the limbic brain

Posted 02 Jan 2012 — by Todd
Category Health, Hormesis, Psychology

There is a powerful way to re-program your brain that has been largely overlooked.  A way to change your relationship with eating, sleep, sex and basic emotions like fear, love and aggression.  While cognitive therapies can modify behavior, they are of questionable help in altering these basic drives.

Our drives are largely governed by two small primitive brain structures, the hypothalamus and the amygdala – shown in red in the drawing at right.  Remarkably, these two tiny structures are respectively the size of a pea and an almond — representing less than 1% of the brain’s three pounds of neural matter. Together, they constitute the control center of the paleomammalian brain–the “limbic” brain that governs our basic urges and desires as well as our homeostatic “set points” for temperature, sleep, body fat and behavioral urges like sex drive and aggression.

You can attempt to change your behavior by conscious determination and cognitive therapies.  But most attempts at intentional change are temporary and are doomed to fail in the long term because they are strongly resisted by powerful homeostatic processes encoded in our limbic brain.  Modern medicine recognizes the importance of homeostatic drives, and has developed pharmaceuticals to override them with diet pills, sleeping pills and antidepressants.  In fact, these medications do shift the balance of neurotransmitters and neural activity — at least in the short term.  But such chemical interventions are short-sighted “crutches” that promote dependency and come with side effects.  Often they exhibit  a “tolerance” effect: the brain’s control system fights back and weakens the impact of the medication.  To maintain the benefit, doses are increased, but this strategy may not always work.

This article will explain how the hypothalamus and amygdala contribute to the regulation of basic drives like eating, sleeping and sexuality, and how the amygdala can actually override the hypothalamus by enhancing the reward value of foods and other stimuli. (As I will explain, however, my take on “food reward” is different from that of Stephan Guyenet and other advocates of the Food Reward Hypothesis). This dual-control model can help explain anomalies such as obesity, addiction, and disordered sleep.

Finally,  I will provide suggestions on effective and natural ways to re-program the hypothalamus and amygdala and change your homeostatic set points, using the principle of hormesis.

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Get stronger using stress oscillation

Posted 14 Aug 2011 — by Todd
Category Diet, Fitness, Health, Hormesis

How much weight lifting or other exercise is optimal for fitness?  What is the right amount of carbohydrate restriction or fasting for sustained weight loss and health? What level of exposure to allergens will reduce allergies? How many hours of sun tanning is healthy? How frequently should plus lenses be worn to reduce myopia?  Do I need to take cold showers every day to get their benefit? How much stress is enough — and how much is too much?

Many of the questions I get on this website and the forums are of this type.  People understand the general concept of hormesis, namely that exposure to controlled amounts of stress can be beneficial, because it elicits beneficial adaptive responses in the organism.  They understand that weight lifting builds muscles, and that intermittent fasting and calorie reduction can be healthful. But too much of any stressor — weight lifting, caloric restriction, sunlight, allergens  – can have adverse consequences.  With hormesis, it seems, the Goldilocks principle applies: to get a benefit, the level of stress must be “just right”.  And because it’s so easy to veer into overload, many people seek to avoid even mild stress:  Avoid allergens. Cover up with sunscreen. Eat frequent small meals. Don’t exert yourself. But if you choose this path, you forgo the possible hormetic benefits.

So how do you determine the optimum level and frequency of exposure to a stress?  And how much rest or recovery between exposures is optimal? Read More