(All too) common gallbladder diseases
Gallbladder disease symptoms can be steady or occur in acute episodes. Though symptoms will vary slightly depending on the exact disease, pain is usually located in the upper abdomen and may be accompanied by features such as jaundice ( a yellowing of the skin), nocturnal onset, nausea, vomiting, and radiation of pain through to the back and neck. The most common gallbladder diseases are:
Cholestasis: The backup of bile flow in the liver or in the biliary ducts.
Gallstones: Stones formed in the gallbladder from the components of bile. About 20 to 25 million Americans (10 to 15 percent of the adult population) are affected by gallstones. Gallstone disease is the leading cause for hospital admissions related to GI problems, yet over 80 percent of individuals with gallstones never experience biliary pain or more serious complications.
Cholesystitis: A complication of prolonged cholestasis and gallstone disease characterized by inflammation of the gallbladder tissue due to cholestasis and lack of blood flow. About 6 to 11 percent of patients with gallstones develop cholecystitis.
Cholangitis: A serious infection of the bile ducts that sometimes occurs as a complication of cholestasis or gallstones, when the flow of bile is blocked. The infection can also spread to the liver, so quick diagnosis and treatment are very important.
Gallstone pancreatitis: In rare cases, a blockage of the pancreatic bile duct by a gallstone can cause inflammation of the pancreas. This occurs at the sphincter of Oddi, a small round muscle located where the bile duct opens into the small intestine. Similar to cholangitis, this is a dangerous condition, and prompt treatment is crucial.
Risk factors for gallbladder disease
Those who are overweight, female, and over the age of 40 have an increased risk of gallbladder disease. In fact, females are almost twice as likely to develop gallstones, and 25 percent of those who are morbidly obese have gallstones. Underlying diseases such as inflammatory bowel disease, liver disease, and cystic fibrosis, as well as a number of prescription medications, can contribute to gallbladder disease. Pregnancy, oral contraceptives, and antibiotic use have all been associated with the onset of cholestasis.
Lifestyle factors also play a role. Reduced physical activity is associated with a higher risk for gallbladder surgery. Gallstones have also been associated with a Western-type diet high in processed foods and sugar. Curious about the role that gluten might play in gallbladder disease? Well, see below!
Leaky gut affects the biliary system
When intestinal barrier function is compromised, also known as “leaky gut”, gut bacteria that are normally confined to the intestinal lumen can cross the gut barrier and enter the bloodstream. The immune system sees these microbes and their microbial products as foreign invaders, and quickly launches an immune response. This can affect the biliary system, as the resulting inflammatory signaling from such a microbial invasion has been shown to alter the gene expression and function of key transport systems involved in bile uptake and secretion in the liver.
The connection between microbes and biliary function has been known since early 1901. In his classic textbook, The Principles and Practice of Medicine, Sir William Osler reports that pneumonia can lead to jaundice: In this form there is no obstruction in the bile-passages, but the jaundice is associated with toxic states of the blood, dependent upon various poisons which either act directly on the blood itself, or in some cases on the liver-cells as well. We now know that these “toxic states of the blood” are due to the presence of microbes in the bloodstream (sepsis) and that the “various poisons” Osler describes are inflammatory signaling molecules called cytokines, which affect transporters on liver cells.
Healthy gut → microbes remain in the colon → proper gallbladder function
Leaky gut → microbes leak into the blood → gallbladder dysfunction and disease
Bile helps maintain gut barrier function
Like many interorgan networks, the gut–biliary connection is a two-way street. As mentioned earlier, leaky gut and microbes entering the blood can lead to gallbladder disease and a backup of bile. However, a lack of bile entering the intestine can itself cause leaky gut and an alteration in gut bacteria. How do we know this?
Researchers found that when they induced acute liver injury in animals, they rapidly showed evidence of increased intestinal permeability. Notably, these changes in the gut barrier preceded any changes in the gut microbiome. Another research group using a mouse model of cholestasis found that stimulating certain receptors in the gut with bile acids resulted in less gut inflammation and improved gut barrier function. This may occur by stimulating host production of antimicrobial properties at the intestinal barrier.
Healthy gallbladder → bile acids reducing inflammation → proper gut barrier function
Gallbladder disease → less bile entering the small intestine → leaky gut & dysbiosis
The gluten connection: leaky gut, leaky bile duct?
Gliadin, a protein in gluten, can increase the production of zonulin, a toxin that breaks down the tight junctions between epithelial cells in the gut. This causes gaps between intestinal epithelial cells and allows microbes and dietary proteins from the gut lumen to “leak” into the bloodstream. Hepatocytes (liver cells) and cholangiocytes (the cells that line the bile duct) are also connected by tight junctions, forming a selectively permeable barrier between the blood and the biliary system. Research has shown that zonulin is associated with the tight junctions in virtually all mammalian epithelia. In other words, if gliadin compromises the intestinal barrier and gets into the bloodstream, it can also wreak havoc on other epithelial barriers, including the blood–biliary barrier.
Sure enough, research has linked gluten intolerance and celiac disease to increased prevalence of gallstones and biliary cirrhosis. There is also a high prevalence of celiac disease in patients with autoimmune hepatitis. One study found that 42 percent of adults with celiac disease had abnormal levels of liver enzymes. Adherence to a gluten-free diet for one to 10 years normalized liver enzyme levels in 95 percent of these patients.
Intestinal villi, the fingerlike projections on epithelial cells responsible for nutrient absorption in the small intestine, are typically shortened and damaged in celiac disease. This may impair the sensing of incoming dietary fatty acids by enteroendocrine cells, resulting in reduced release of cholecystokinin and insufficient contraction of the gallbladder. Studies have shown that this too can be reversed with a gluten-free diet.
Cholecystectomy, the complete removal of the gallbladder, may be unavoidable in some people with late-stage gallbladder disease. In this procedure, the biliary tract is rerouted, so that bile flows directly from the liver to the small intestine via the common bile duct. Gallbladder removal should be avoided whenever possible, as it has several unintended consequences and significantly alters physiology. Even in the absence of the gallbladder, the liver continues to produce bile.
Without a storage organ, intrahepatic cholestasis, the accumulation of bile in the liver, may occur. Altered bile secretion into the small intestine has also been shown to affect gut microbes and gut function. Additionally, even if a patient has undergone cholecystectomy, he or she may still continue to produce gallstones in the liver or bile ducts if the underlying pathophysiology has not been addressed.
Treating gallbladder disease: the functional way
There really is no conventional treatment available for gallbladder disease other than invasive surgery. Conventional medicine usually only advocates a low-fat diet. While this may alleviate symptoms over the short term, long-term reduction of fat intake only prevents the stimulation of gallbladder contraction by cholecystokinin. This can lead to more sluggishness and an increased risk of gallstones, which is what we are trying to avoid in the first place.
In contrast, a high-fat diet has been shown to protect against gallstone formation, especially during weight loss. On the other extreme, many natural health websites are promoting gallbladder flushes. However, research is limited on flushes as a treatment recommendation so it may be better to look more at addressing the underlying cause (a goal of functional and integrative nutrition/medicine). Recommendations for approaching a gallstone issue include:
Get tested: Markers of impaired gallbladder function include high ALT, AST, bilirubin, LDH, GGT, ALP, and 5ʹ-nucleotidase. Relative levels of these markers can also help narrow down which gallbladder disease you are dealing with.
Change your diet: Many people resolve their gallbladder issues simply by changing their dietary habits. Removing inflammatory foods, such as gluten, processed foods, and sugar can substantially improve gallbladder health.
Heal the gut: While it’s a bit of a chicken-or-the-egg situation as to which comes first, leaky gut and biliary disease certainly go hand in hand. It’s important to address both simultaneously in order to break the cycle of gut inflammation → biliary stasis → lack of bile → more gut inflammation.
Stimulate bile flow: Bitters, such as curcumin, dandelion, milk thistle, and ginger are well known for their ability to stimulate bile flow. These can be taken as supplements, included in meals, or consumed as tea.
Dissolve gallstones: Beet root, taurine, phosphatidylcholine, lemon, peppermint, and vitamin C have all been shown to reduce the impact and even dissolve gallstones.
Consider supplementing with bile: If you’re having trouble with fat digestion, you can also consider supplementing with bile itself from a bovine or ox source until your bile flow is restored.
Adapted from: Chris Kresser
Research articles and references highlighted in blue
Nutrition Tip of the Day
Be good to your gut! Include Greek yogurt, sauerkraut, kefir or foods high in fiber in your diet.