Research shows chronic stress damages the body’s organs and systems
We all know what stress feels like physically — though the symptoms vary by person. Some people experience shakiness or a racing heart, while others develop muscle tension, headaches or stomach aches.
But what we might not realize is that our physiological responses to life’s stresses and strains can have deeper, less obvious repercussions for just about every organ and system in the body.
“I think people really underestimate just how big the effects are,” said Janice Kiecolt-Glaser, director of the Institute for Behavioral Medicine Research at Ohio State University’s College of Medicine.
When you experience stress, your brain triggers the release of a cascade of hormones — such as cortisol, epinephrine (a.k.a., adrenaline) and norepinephrine — that produce physiological changes. These changes, called the stress response or the fight-or-flight response, are designed to help people react to or cope with a threat or danger they’re facing.
The trouble is that these changes can and do occur in response to stressors that are not life-threatening — work deadlines, traffic jams, financial pressures, family strife — and, over time, they can take a toll on the body and mind. “People understand big stressors, but they don’t pay attention to smaller, accumulating stressors that make a difference, too,” Kiecolt-Glaser said.
The whole-body impact of stress
What follows is a detailed look at how stress can affect many organs and systems in the body, from head to toe.
The brain: Acute forms of stress — when you’re facing a work deadline or having an argument with a loved one, for example — can be beneficial in the short term, briefly bathing the brain with hormones (such as cortisol) that help improve your motivation, ability to focus and performance, said Wendy Suzuki, a professor of neural science and psychology at New York University and author of “Good Anxiety: Harnessing the Power of the Most Misunderstood Emotion.”
By contrast, the prolonged elevated cortisol levels that come with chronic stress and post-traumatic stress disorder (PTSD) can interfere with and damage the brain’s hippocampus, which is critical for long-term memory function, Suzuki said.
Long-term increases in cortisol also can damage the brain’s prefrontal cortex, which is essential for focused attention and executive function (cognitive processes that allow you to plan, organize, solve problems, engage in flexible thinking and control your impulses).
The cardiovascular system: With acute stress, your heart rate increases and your blood pressure surges, so (evolutionarily speaking) you can prepare to fight or run for your life. After the stressful encounter subsides, these functions are supposed return to their normal states. But that doesn’t always happen in the modern world, where we can encounter stressor after stressor.
Chronic stress, which occurs over months to years, can lead to high blood pressure, adiposity (fat accumulation), insulin resistance and greater systemic inflammation, said Ahmed Tawakol, co-director of the Cardiovascular Imaging Research Center and director of nuclear cardiology at the Massachusetts General Hospital and Harvard Medical School. “Together, these drive the buildup of arterial plaques and heighten the risk of heart attack and stroke.”
Over time, stress also can lead to the narrowing of blood vessels and heightened coagulation (blood clotting), which further raise the risk of cardiac events. It’s also possible that if someone experiences an acute stressor on top of chronic stress, “there could be an additive effect such that the acute stress could trigger a heart attack or stroke,” Tawakol said.
The respiratory system: During a stressful situation, the sympathetic nervous system ramps up and stress hormones are released, which leads to rapid respiration and can make you feel as though you can’t catch your breath. This can affect the transport of oxygen and carbon dioxide in your blood.
“Shallow, rapid breathing is not a good thing. You’re not getting rid of carbon dioxide optimally, and you can starve yourself of oxygen, which can lead to symptoms such as lightheadedness and dizziness,” said Neil Schachter, a pulmonary specialist and professor of medicine at the Mount Sinai Medical Center in New York City.
Both acute and chronic stress can trigger asthma attacks or exacerbate chronic obstructive pulmonary disease (COPD) in those who have these conditions. A review of studies in a 2017 issue of the journal Respiratory Medicine found that active stressors (such as having to complete a math task) and passive stressors (such as watching stressful movies) both led to increases in activation of the sympathetic nervous system, and the passive form of stress also was associated with mild bronchoconstriction among people with asthma.
The immune system: During a stressful event or period of time, stress hormones such as cortisol travel to the immune system and have various dysregulating effects. One is by triggering heightened inflammation, which is at the root of many conditions, including cardiovascular disease and dementia, Kiecolt-Glaser said. “When you’re stressed, you can get a release of pro-inflammatory cytokines,” proteins that affect immune function.
Although short-term inflammation usually helps the body heal — think about the swelling that develops around a sprained ankle, enhancing blood flow to the area — too much or chronic inflammation can turn against healthy cells, making you more vulnerable to infection, less responsive to vaccines and slower to heal. What’s more, the release of pro-inflammatory cytokines can travel to the brain and increase the risk of depression. When it comes to stress and depression, “it’s a nasty cycle,” Kiecolt-Glaser said. “If you’re depressed, you sleep poorly and are less likely to exercise, which can increase inflammation and depression.”
The gastrointestinal system: Stress decreases gastrointestinal motility (slowing emptying of the gut), which can make you feel nauseated, bloated or constipated, said gastroenterologist Cindy Yoshida, a professor of medicine at the University of Virginia Health System in Charlottesville.
Stress also leads to changes in the gut microbiome, affecting the diversity of the bacteria there, and it affects gut barrier function in ways that increase leakiness of the gut. This means bacterial byproducts from the foods you eat can leak outside the GI tract into your circulation, which in turn sets up inflammatory and hormonal responses, Yoshida said.
Among other effects, these changes can exacerbate irritable bowel syndrome and inflammatory bowel disease (IBD). In fact, a study in a 2020 issue of PLOS One found that psychologic stress correlated with flare-ups of Crohn’s disease and ulcerative colitis among 1,078 people with IBD — and about 75 percent of the participants were aware of this effect.
The skin: If you’ve ever experienced a flare-up of acne or eczema when you were stressed out, you’re familiar with the effects of stress on the skin, which is the largest organ of the human body.
When you experience acute or chronic stress, the skin’s immune system becomes activated, which promotes inflammation, leading to a worsening of skin conditions such as rosacea, psoriasis, hives and eczema, as well as increasing wrinkles.
Stress also can interfere with the skin’s ability to hold on to water — and the cascade of stress hormones that are released prompts the sebaceous glands in the skin to produce more oil, which can trigger acne breakouts, said Joshua Zeichner, an associate professor of dermatology at Mount Sinai Hospital.
The bottom line
Understanding how stress affects the body can help you realize the importance of mitigating it. And for the most part, the damaging effects of stress are somewhat modifiable, experts said.