The body's need to maintain a state of equilibrium

Balance plays an important role in well-being. In fact, it's central to our very survival. Homeostasis is a process that allows the body to maintain a stable internal environment.

While we often think of this in terms of the physical mechanisms involved, homeostasis also plays a vital part in maintaining mental health and wellness.

If the brain and body systems that regulate mood, sleep, stress, and energy levels are thrown out of equilibrium, we become more susceptible to mental health challenges.

Keep reading to learn more about how homeostasis works, what happens when it is disrupted, and the biological factors that can affect our mental well-being.

Understanding Homeostasis  

Homeostasis refers to the body's need to reach and maintain a certain state of equilibrium. The term was first coined by a physiologist named Walter Cannon in 1926. More specifically, homeostasis is the body's tendency to monitor and maintain internal states, such as temperature and blood sugar, at fairly constant and stable levels.

How Is Homeostasis Maintained?  

Your body has set points for a variety of states—including temperature, weight, sleep, thirst, and hunger. When the level is off (in either direction, too much or too little), homeostasis will work to correct it. For example, to regulate temperature, you will sweat when you get too hot or shiver when you get too cold.

Another way to think of it is like the thermostat in your house. Once set at a certain point, it works to keep the internal state at that level. When the temperature drops in your house, your furnace will turn on and warm things up to the preset temperature.

In the same way, if something is out of balance in your body, a physiological reaction will kick in until the set point is once again reached. Here's how the primary components of homeostasis work:

1. Stimulus: A stimulus from a change in the environment kicks something out of balance in the body.

2. Receptor: The receptor reacts to the change by informing the control unit.

3. Control unit: The control unit then communicates the change needed to bring the body back into balance.

4. Effector: The effector receives this information and acts on the change that is needed.

A negative feedback loop will work to decrease the effect of the stimulus, whereas a positive feedback loop will increase it. In homeostasis, negative feedback loops are most common, as the body is typically attempting to decrease the effect of the stimulus to get the body back to equilibrium.

Types of Homeostatic Regulation  

There are three main types of homeostatic regulation that happen in the body. Though their names might be unfamiliar, you probably experience them every day.

Thermoregulation  

When you think about homeostasis, temperature might come to mind first. It is one of the most important and obvious homeostatic systems. Regulating body temperature is called thermoregulation.

All organisms, from large mammals to tiny bacteria, must maintain an ideal temperature to survive. Some factors that influence this ability to maintain a stable body temperature include how these systems are regulated and the organism's overall size.

• Endotherms: Some creatures, known as endotherms or "warm-blooded" animals, accomplish this via internal physiological processes. Birds and mammals (including humans) are endotherms.

• Ectotherms: Other creatures are ectotherms (aka "cold-blooded") and rely on external sources to regulate their body temperature. Reptiles and amphibians are both ectotherms.

Thermoregulation is also influenced by an organism's size, or more specifically, the surface-to-volume ratio. 

• Large organisms: Larger creatures have a much greater body volume, which causes them to produce more body heat.

• Small organisms: Smaller animals, on the other hand, produce less body heat but also have a higher surface-to-volume ratio. They lose more body heat than they produce, so their internal systems must work much harder to maintain steady body temperature. This is even true of babies, especially those born prematurely.

Osmoregulation  

Osmoregulation strives to maintain the right amount of water and electrolytes inside and outside cells in the body.4 The balance of salt and water across membranes plays an important role, as in osmosis, which explains the name "osmoregulation." In this process, the kidneys are responsible for getting rid of any excess fluid, waste, or electrolytes. Osmoregulation also affects blood pressure.

Chemical Regulation  

Your body regulates other chemical mechanisms as well to keep systems in balance. These use hormones as chemical signals—for example, in the case of blood sugar levels. In this situation, the pancreas would release either insulin, when blood sugar levels are high, or glucagon, when blood sugars are low, to maintain homeostasis.

How Homeostasis Affects Your Body and Behavior  

 Homeostasis involves both physiological and behavioral responses.

As endotherms, people also have a number of internal systems that help regulate body temperature. When your body temperature dips below normal, a number of physiological reactions respond to help restore balance. Blood vessels in the body's extremities constrict in order to prevent heat loss. Shivering also helps the body produce more heat.

The body also responds when temperatures go above normal. Have you ever noticed how your skin becomes flushed when you are very warm? This is your body trying to restore temperature balance. When you are too warm, your blood vessels dilate in order to give off more body heat. Perspiration is another common way to reduce body heat, which is why you often end up flushed and sweaty on a very hot day.7

Homeostasis and Mental Health  

Like the body, the mind seeks its own type of homeostasis and attempts to compensate when out of balance.

Motivation  

For example, one prominent theory of human motivation, known as drive-reduction theory, suggests that homeostatic imbalances create needs. These needs, in turn, motivate behavior in an attempt to restore homeostasis.8

Stress Response  

The body's stress response system is another example of the connection between homeostasis and mental health. When we encounter a perceived threat in our environment, the body's hypothalamic-pituitary-adrenal (HPA) axis releases cortisol and other stress hormones.

This response is helpful in the short term because it helps us respond quickly to the threat. But when we experience prolonged stress and that system remains activated for too long, it can throw the body out of balance.

Other Factors That Impact Mental Health  

Homeostasis also affects other elements that impact our mental, emotional, and physical well-being, including appetite, sleep, and energy levels. Our sleep-wake cycle, for example, is influenced by a variety of hormones and neural signals. If it is disrupted, we can experience problems with brain fog, depression, irritability, and insomnia.

If neurotransmitter levels in the body are disrupted, such as the balance of serotonin and dopamine, it can affect aspects of well-being like mood, motivation, pleasure, and emotional stability.

Takeaways  

Homeostasis is essential for physical well-being but also critical for mental health. It allows us to return to a baseline after stressors and disruptions. These processes help the mind and body maintain a balance and highlight the importance of utilizing lifestyle factors, such as getting enough sleep, eating a balanced diet, getting regular physical activity, and using stress management techniques, to support mental balance.