Gallstones



Definition of Gallstones

A gallstone is a crystalline concretion formed within the gallbladder (pear-shaped organ just below the liver that stores the bile secreted by the liver) by accretion of bile components. These calculi are formed in the gallbladder but may distally pass into other parts of the biliary tract such as the cystic duct, common bile duct, pancreatic duct, or the ampulla of Vater. Rarely, in cases of severe inflammation, gallstones may erode through the gallbladder into adherent bowel potentially causing an obstruction termed gallstone ileus.

Presence of gallstones in the gallbladder may lead to acute cholecystitis, an inflammatory condition characterized by retention of bile in the gallbladder and often secondary infection by intestinal microorganisms, predominantly Escherichia coli, Klebsiella, Enterobacter, and Bacteroides species. Presence of gallstones in other parts of the biliary tract can cause obstruction of the bile ducts, which can lead to serious conditions such as ascending cholangitis or pancreatitis. Either of these two conditions can be life-threatening and are therefore considered to be medical emergencies.

Gallstones range in size from as small as a grain of sand to as large as a golf ball. Some people develop just one gallstone, while others develop many gallstones at the same time.

The composition of gallstones is affected by age, diet, and ethnicity. On the basis of their composition, gallstones can be divided into the following types:

Cholesterol stones

Cholesterol stones vary from light yellow to dark green or brown and are oval, between 2 and 3 cm long, each often having a tiny, dark, central spot. To be classified as such, they must be at least 80% cholesterol by weight (or 70%, according to the Japanese- classification system).

Pigment stones

Pigment stones are small and dark and comprise bilirubin and calcium salts that are found in bile. They contain less than 20% of cholesterol (or 30%, according to the Japanese-classification system).

Mixed stones

Mixed gallstones typically contain 20–80% cholesterol (or 30–70%, according to the Japanese- classification system). Other common constituents are calcium carbonate, palmitate phosphate, bilirubin, and other bile pigments. Because of their calcium content, they are often radiographically visible.

Cause of Gallstones

It’s not clear what causes gallstones to form. Doctors think gallstones may result when:

  • Normally, the bile contains enough chemicals to dissolve the cholesterol excreted by your liver. But if the liver excretes more cholesterol than the bile can dissolve, the excess cholesterol may form into crystals and eventually into stones.
  • The bile contains too much bilirubin, a chemical that’s produced when the body breaks down red blood cells. In some conditions, the liver to make too much bilirubin, including liver cirrhosis, biliary tract infections and certain blood disorders. The excess bilirubin contributes to gallstone formation.
  • If the gallbladder doesn’t empty completely or often enough, bile may become very concentrated and this contributes to the formation of gallstones.
  • A lack of melatonin could significantly contribute to gallbladder stones, as melatonin inhibits cholesterol secretion from the gallbladder, enhances the conversion of cholesterol to bile, and is an antioxidant, which is able to reduce oxidative stress to the gallbladder.
  • Researchers believe that gallstones may be caused by a combination of factors, including inherited body chemistry, body weight, gallbladder motility (movement), and perhaps diet. The absence of such risk factors does not, however, preclude the formation of gallstones.
  • No clear relationship has been proved between diet and gallstone formation; however, low-fiber and high-cholesterol diets have been suggested as contributing to gallstone formation. Other nutritional factors that may increase risk of gallstones include rapid weight loss; constipation; eating fewer meals per day; and low intake of the nutrients folate, magnesium, calcium, and vitamin C.
  • Risk factors for pigment stones include hemolytic anemias (such as sickle-cell disease and hereditary spherocytosis), cirrhosis, and biliary tract infections.
  • People with erythropoietic protoporphyria (EPP) are at increased risk to develop gallstones.
  • Prolonged use of proton pump inhibitors has been shown to decrease gallbladder function, potentially leading to gallstone formation.

Signs and Symptoms of Gallstones

Gallstones may be asymptomatic, even for years. These gallstones are called “silent stones” and do not require treatment. Symptoms commonly begin to appear once the stones reach a certain size (>8 mm).

 A characteristic symptom of gallstones is a ”gallstone attack”, in which a person may experience:

  • intense pain in the upper-right side of the abdomen
  • nausea and vomiting, that steadily increases for approximately 30 minutes to several hours
  • referred pain between the shoulder blades or below the right shoulder

These symptoms may resemble those of a ”kidney stone attack”. Often, attacks occur after a particularly fatty meal and almost always happen at night, and after drink.

A positive Murphy’s sign is a common finding on physical examination.

Risk Factors for Gallstones

Risk for cholesterol gallstones.

There is no relationship between cholesterol in the blood and cholesterol gallstones. Individuals with elevated blood cholesterol do not have an increased prevalence of cholesterol gallstones. A common misconception is that diet is responsible for the development of cholesterol gallstones, however, it isn’t. The risk factors for developing cholesterol gallstones include:

  • Gender. Gallstone risk increases for females (especially before menopause)
  • Age. Gallstone prevalence increases for people near or above 40 years.
  • Obesity. Obese individuals are more likely to form gallstones than thin individuals.
  • Pregnancy. Pregnancy increases the risk for cholesterol gallstones because during pregnancy, bile contains more cholesterol, and the gallbladder does not contract normally.
  • Birth control pills and hormone therapy. The increased levels of hormones caused by either treatment mimics pregnancy.
  • Rapid weight loss. Rapid weight loss by whatever means, very low calorie diets or obesity surgery, causes cholesterol gallstones in up to 50% of individuals. Many of the gallstones will disappear after the weight is lost, but many do not. Moreover, until they are gone, they may cause problems.
  • Nutritional factors that may increase risk of gallstones include rapid weight loss; constipation; eating fewer meals per day; and low intake of the nutrients folate, magnesium, calcium, and vitamin C. On the other hand, wine and whole-grained bread may decrease the risk of gallstones.
  • Crohn’s disease. Individuals with Crohn’s disease of the terminal ileum are more likely to develop gallstones. Gallstones form because patients with Crohn’s disease lack enough bile acids to solubilize the cholesterol in bile. Normally, bile acids that enter the small intestine from the liver and gallbladder are absorbed back into the body in the terminal ileum and are secreted again by the liver into bile. In other words, the bile acids recycle. In Crohn’s disease, the terminal ileum is diseased. Bile acids are not absorbed normally, the body becomes depleted of bile acids, and less bile acids are secreted in bile. As a result there is not enough bile acids to keep cholesterol dissolved in bile, resulting in gallstone formation.
  • Increased blood triglycerides. Gallstones occur more frequently in individuals with elevated blood triglyceride levels.
  • A lack of melatonin could significantly contribute to gallbladder stones, as melatonin inhibits cholesterol secretion from the gallbladder, enhances the conversion of cholesterol to bile, and is an antioxidant, which is able to reduce oxidative stress to the gallbladder.

Risk for pigment gallstones

Pigment gallstones are most commonly seen in the developing world. Risk factors for pigment stones include hemolytic anemias (such as sickle-cell disease and hereditary spherocytosis), cirrhosis, and biliary tract infections. People with erythropoietic protoporphyria (EPP) are at increased risk to develop gallstones. Additionally, prolonged use of proton pump inhibitors has been shown to decrease gallbladder function, potentially leading to gallstone formation.

Diagnosis of Gallstones

Choledocholithiasis (stones in common bile duct) is one of the complications of cholelithiasis (gallstones), so the initial step is to confirm the diagnosis of cholelithiasis. Patients with cholelithiasis typically present with pain in the right-upper quadrant of the abdomen with the associated symptoms of nausea and vomiting, especially after a fatty meal. The physician can confirm the diagnosis of cholelithiasis with an abdominal ultrasound that shows the ultrasonic shadows of the stones in the gallbladder.

The diagnosis of choledocholithiasis is suggested when the liver function blood test shows an elevation in bilirubin and serum transaminases. Other indicators include raised indicators of ampulla of vater (pancreatic duct obstruction) such as lipases and amylases. In prolonged cases the INR may change due to a decrease in vitamin K absorption. (It is the decreased bile flow which reduces fat breakdown and therefore absorption of fat soluble vitamins). The diagnosis is confirmed with either an MRCP (magnetic resonance cholangiopancreatography), an ERCP, or an intraoperative cholangiogram. If the patient must have the gallbladder removed for gallstones, the surgeon may choose to proceed with the surgery, and obtain a cholangiogram during the surgery. If the cholangiogram shows a stone in the bile duct, the surgeon may attempt to treat the problem by flushing the stone into the intestine or retrieve the stone back through the cystic duct.

On a different pathway, the physician may choose to proceed with ERCP before surgery. The benefit of ERCP is that it can be utilized not just to diagnose, but also to treat the problem. During ERCP the endoscopist may surgically widen the opening into the bile duct and remove the stone through that opening. ERCP, however, is an invasive procedure and has its own potential complications. Thus, if the suspicion is low, the physician may choose to confirm the diagnosis with MRCP, a non-invasive imaging technique, before proceeding with ERCP or surgery.

Prevention from Gallstones

  • Avoid low-fiber and high-cholesterol diets have been suggested as contributing to gallstone formation.
  • Loose weight slowly
  • Don’t skip any meals
  • Take the nutrients folate, magnesium, calcium, and vitamin C. 
  • Wine and whole-grained bread may decrease the risk of gallstones.

Treatment of Gallstone

Medical

Cholesterol gallstones can sometimes be dissolved by oral ursodeoxycholic acid, but it may be necessary for the patient to take this medication for up to two years. Gallstones may recur, however, once the drug is stopped. Obstruction of the common bile duct with gallstones can sometimes be relieved by endoscopic retrograde sphincterotomy (ERS) following endoscopic retrograde cholangiopancreatography (ERCP). Gallstones can be broken up using a procedure called extracorporeal shock wave lithotripsy (often simply called “lithotripsy”), which is a method of concentrating ultrasonic shock waves onto the stones to break them into tiny pieces. They are then passed safely in the feces. However, this form of treatment is suitable only when there is a small number of gallstones.

Surgical

Cholecystectomy (gallbladder removal) has a 99% chance of eliminating the recurrence of cholelithiasis. Surgery is only indicated in symptomatic patients. The lack of a gallbladder may have no negative consequences in many people. However, there is a portion of the population — between 10 and 15% — who develop a condition called postcholecystectomy syndrome which may cause gastrointestinal distress and persistent pain in the upper-right abdomen, as well as a 10% risk of developing chronic diarrhea.

There are two surgical options for cholecystectomy:

  • Open cholecystectomy is performed via an abdomenal incision (laparotomy) below the lower right ribs. Recovery typically requires 3–5 days of hospitalization, with a return to normal diet a week after release and to normal activity several weeks after release.
  • Laparoscopic cholecystectomy, introduced in the 1980s, is performed via three to four small puncture holes for a camera and instruments. Post-operative care typically includes a same-day release or a one night hospital stay, followed by a few days of home rest and pain medication. Laparoscopic cholecystectomy patients can, in general, resume normal diet and light activity a week after release, with some decreased energy level and minor residual pain continuing for a month or two. Studies have shown that this procedure is as effective as the more invasive open cholecystectomy, provided the stones are accurately located by cholangiogram prior to the procedure so that they can all be removed.

A New Alternative Surgical Technique 

A new surgical technique is available to remove Gallstones without excision of gallbladder. This technique is available in China.

Alternative medicine

A regimen called a “gallbladder flush” or “liver flush” is a popular remedy in alternative medicine. In this treatment, often self-administered, the patient drinks four glasses of pure apple juice (not cider) and eats five apples (or applesauce) per day for five days, then fasts briefly, takes magnesium, and then drinks large quantities of lemon juice mixed with olive oil before bed. The next morning, they painlessly pass a number of green and brown pebbles purported to be stones flushed from the biliary system. Apples are a source of pectin, which has been shown to sequester bile and facilitate its elimination in the stool.

A brief communication in The Lancet presents a case report of such a treatment where the patient released many soft stones. According to the letter, “At the university hospital the stones were recognized as fatty stones”. In another case report, a patient with ultrasonography-confirmed gallstones drank olive oil and lemon juice, suffered diarrhea and intense abdominal pain, and released several gallstones. After that treatment, the gallbladder was empty, as confirmed by ultrasonography.

On the other hand, a couple of case reports challenge whether the stones retrieved from the stool after the “gallbladder flush” really come from the gallbladder. A New Zealand hospital analyzed stones from a typical gallbladder flush and found them to be composed of fatty acids similar to those in olive oil, with no detectable cholesterol or bile salts, demonstrating that they are little more than hardened olive oil. Despite the gallbladder flush, the patient still required surgical removal of multiple true gallstones. A similar case report in The Lancet, accompanied by a simple chemical experiment, concludes that the observed stones from a typical gallbladder flush actually are a consequence of the flush: they form in the stomach under the action of digestive enzymes on the mix of olive oil and lemon.

Finally, drinking an infusion of “Chanca Piedra”, or “Break Stones” (Phyllanthus niruri), a plant that is native to the Amazon, has long been used in South American traditional medicine to maintain kidney, liver, and gallbladder health and to treat gallstones and kidney stones and jaundice.

Other patients have anecdotally reported that symptoms can be temporarily reduced by drinking several glasses of water when experiencing gallstone pain. There is no known evidence backing this claim, and this approach will not eliminate the gallstones or improve the patient’s condition in the long term.