Health

You Could Be Unknowingly Starving Your Gut Bacteria — But The Fix Is Surprisingly Simple

Diet-related chronic diseases have reached a critical juncture in the U.S.

by The Conversation and Christopher Damman
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Originally Published: 
Staying at home blond woman looking for food in domestic fridge
Arman Zhenikeyev/Corbis/Getty Images

Diet-related chronic diseases have reached a critical juncture in the U.S.

Nearly half the population has prediabetes or diabetes. Over 40 percent are overweight or obese. One in nine people over the age of 65 has Alzheimer’s disease, the development of which researchers are exploring the potential role of diet. Poor diet is also linked to poor mental health, cardiovascular disease, and cancer. It was responsible for nearly 1 in 5 deaths in the U.S. and accounted for over US$140 billion in U.S. healthcare spending in 2016.

Though American waists are getting bigger, research is showing that the gut microbiome — the bacteria living in our digestive tracts — and the energy-producing compartments of cells, the mitochondria, remain hungry for nutrients missing in the American diet.

I am a physician-scientist and gastroenterologist who has spent over 20 years studying how food can affect the gut microbiome and whole-body health. The ultra-processed food that makes up an increasing part of the American diet has removed vital nutrients from food. Adding those nutrients back may be important for health in part by feeding the microbiome and mitochondria that turn food into fuel.

Your health is what you eat

Research has consistently shown that the Mediterranean diet and other whole food diets are associated with better health and longer lives, and ultra-processed foods and drinks like soda, chips, and fast food, among others, are linked with poor health outcomes such as diabetes, cardiovascular disease, cancer, and other diseases.

But improving the diet of an individual, let alone a population is challenging. Whole foods are sometimes less convenient and less tasty for modern lifestyles and preferences. Furthermore, food processing can be beneficial by preventing spoilage and extending shelf life. Whole grain processing, in particular, extends shelf life by removing the germ and bran that otherwise rapidly spoil. Long-term storage of affordable calories has helped address food insecurity, a primary challenge in public health.

Much of the public health conversation around diet has focused on what to avoid: added sugars and refined carbs, some fats, salt, and additives. But modern food processing, while increasing the concentration of some nutrients, has removed other key nutrients, producing potential long-term health costs. Equally important is what to add back into diets: fibers, phytonutrients, micronutrients, missing fats, and fermented foods.

Only 5 percent of the U.S. population gets sufficient fiber, a prebiotic nutrient linked to metabolic, immune, and neurologic health. Americans are likely also deficient in phytonutrients, potassium, and certain healthy fats linked to lower rates of cardiovascular disease and cancer.

Fermentation is nature’s version of processing, creating foods with natural preservatives, flavors, and vitamins. Recent research suggests fermented foods can improve gut microbiome diversity and dampen systemic inflammation.

Figuring out which bioactive nutrients contribute to disease can help both individuals and institutions develop diets and foods that are personalized to different health conditions, economic constraints, and taste preferences. It can also help maximize nutrients in a way that is convenient, affordable, and familiar to the modern palate.

Of microbiomes and mitochondria

Understanding how nutrients affect the gut microbiome and mitochondria could help determine which ingredients to add to the diet and which to temper.

In your lower gut, bacteria transform undigested bioactive nutrients into biochemical signals that stimulate gut hormones to slow down digestion. These signals also regulate the immune system, controlling how much of the body’s energy goes toward inflammation and fighting infection, and cognition, influencing appetite and even mood.

The microbiome’s biochemical signals also regulate the growth and function of energy-producing mitochondria across many cell types, including those in fat, muscles, the heart, and the brain. When these cues are missing in ultra-processed diets, mitochondria function less well, and their dysregulation has been linked to obesity, diabetes, Alzheimer’s disease, mood disorders, and cancer. A better understanding of how diet could improve the function of the microbiome-mitochondria axis could help provide a way to reduce the burden of chronic disease.

The Greek physician Hippocrates, regarded as the father of medicine, supposedly once said, “Let food be thy medicine,” and a growing body of research suggests that, yes, food can be medicine. I believe that shining a light on the connection between diet, health, the microbiome, and mitochondria could help societies reach a bright future in which unhealthy aging isn’t an inevitability of growing older.

This article was originally published on The Conversation by Christopher Damman at University of Washington. Read the original article here.

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