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Causes of Cirrhosis
Cirrhosis is a liver disease characterized by permanent scarring of the liver that interferes with its normal functions. Causes include:
Cirrhosis can cause many serious complications including:
Dietary and Lifestyle Changes
All patients with cirrhosis can benefit from certain lifestyle interventions. These include:
Cirrhosis is generally considered an irreversible condition. Treatment focuses on slowing the progression of liver damage and reducing the risk of further complications. Your doctor will treat any underlying medical conditions that are the cause of your cirrhosis. If liver damage progresses to liver failure, patients may be candidates for liver transplantation. Liver donations can come from either a cadaver or from a living donor. Patients with cirrhosis who have a liver transplant have very good chances for survival.
Cirrhosis is a chronic condition marked by scarring of the liver and poor liver function. It results from various disorders that damage liver cells over time. Eventually, damage becomes so extensive that the normal structure of the liver is distorted and its function is impaired.
Scarring. The main damage in cirrhosis is triggered by scarring (fibrosis) that occurs from injuries due to alcohol, viruses, or other assaults. The scar tissue and other changes in liver cells gradually replace healthy liver tissue and act like small dams to alter the flow of blood and bile in and out of the liver.
Altered Blood and Bile Flow. The changes in blood and bile flow have significant consequences, with both the liver and other organs responding to the altered flow:
The liver is the largest internal organ in the body. In the healthy adult, it weighs about 3 pounds. The liver is wedge-shaped, with the top part wider than the bottom. It is located right below the diaphragm and occupies the entire upper right quadrant of the abdomen.
The liver performs over 500 vital functions. Damage to the liver can impair these and many other processes. Among them are the following:
Processing Healthful Nutrients. The liver processes all of the nutrients the body requires, including proteins, glucose, vitamins, and fats.
Producing Proteins The liver is the body’s “factory” where many important proteins are made. The blood protein albumin is one example that is often underproduced in patients with cirrhosis.
Producing Bile. The liver produces bile, a green-colored fluid that helps the body absorb fats and fat-soluble vitamins. Bile contains bilirubin, a yellow-brown pigment produced from the breakdown of hemoglobin, the oxygen-carrying component in red blood cells. Bile also contains bile salts, fatty acids, cholesterol, and other substances.
Bile travels from the liver to the gallbladder, where it is stored until after a meal. It is then secreted into the intestines where it helps digest fat. Because bile can also travel directly from the liver to the intestines, patients who have had their gallbladders removed can still absorb fat normally.
Eliminating Toxins. One of the liver's major functions is to render harmless potentially toxic substances, including alcohol, ammonia, drugs, and harmful by-products of digestion.
The vital processes the liver performs rely on well-organized liver architecture.
The basic building blocks of the liver are the following structures:
The liver is a built on a framework of lobes:
The Liver's Blood Supply. The liver is rich in blood. Its vessels contain about a pint, or 13% of the body's supply. It gets its blood from two large vessels, the hepatic artery and the portal vein, and is drained of blood by the hepatic vein. (The word "hepatic" derives from the Latin word for liver.)
The hepatic artery. This artery carries blood from the heart directly to the liver. This blood nourishes the liver.
The portal vein. The portal vein carries blood that has circulated through the stomach, spleen, and intestine to the liver. The liver processes this blood, extracting nutrients and toxins.
The hepatic vein. This vein carries blood away from the liver and connects to the inferior vena cava, a large vein that carries blood back to the heart.
Several processes can lead to cirrhosis.
Chronic alcoholism particularly endangers the liver by causing alcoholic liver disease (also called alcohol-induced liver disease). Alcoholic liver disease includes fatty liver (build-up of fat cells in the liver), alcoholic hepatitis (inflammation of the liver caused by heavy drinking), and alcoholic cirrhosis. Alcoholic cirrhosis is the primary type of cirrhosis in the U.S. It develops in 10 - 20% of heavy drinkers, usually after 10 - 15 years of heavy alcohol consumption. People who drink heavily and who also have hepatitis C are at particular risk of developing cirrhosis. In the liver, alcohol converts to toxic chemicals that trigger inflammation and tissue injury, which lead to cirrhosis.
Chronic viral hepatitis, both hepatitis B and hepatitis C, is another major cause of cirrhosis. Chronic hepatitis C is a more common cause of cirrhosis in developed countries, while hepatitis B is a more common cause of cirrhosis worldwide, especially in sub-Saharan Africa and parts of Asia. People with chronic hepatitis B who are co-infected with hepatitis D are especially at risk for cirrhosis. The longer a patient has had chronic hepatitis, the greater the risk for eventually developing cirrhosis.
Hepatitis viruses can produce inflammation in liver cells, causing injury or destruction. If the condition is severe enough, the cell damage becomes progressive, leading to scar tissue in the liver. In advanced cases, the liver shrivels in size, a condition called postnecrotic or posthepatic cirrhosis.
Autoimmune hepatitis, like other autoimmune disorders, develops when a misdirected immune system attacks the body's own cells and organs. People who have autoimmune hepatitis also often have other autoimmune conditions, including systemic lupus erythematosus, rheumatoid arthritis, Sjögren syndrome, scleroderma, inflammatory bowel disease, glomerulonephritis, and hemolytic anemia. Autoimmune hepatitis typically occurs in women ages 15 - 40.
Disorders that block or damage the bile ducts can cause bile to back up in the liver, leading to inflammation and cirrhosis. These diseases include primary biliary cirrhosis and primary sclerosing chlorangitis.
Primary Biliary Cirrhosis. Up to 95% of primary biliary cirrhosis (PBC) cases occur in women, usually around age 50. In people with PBC, the immune system attacks and destroys cells in the liver’s bile ducts. Like many autoimmune disorders, the causes of PBC are unknown.
Primary Sclerosing Cholangitis. Primary sclerosing cholangitis (PSC) is a chronic disease that mostly affects men, usually around age 40. The cause is unknown, but immune system defects, genetics, and infections may play a role.
Nonalcoholic fatty liver disease (NAFLD) resembles alcoholic liver disease, but it occurs in people who do not drink a lot of alcohol. NAFLD is the most common liver disease in the United States.
NAFLD is actually a progressive spectrum of liver diseases that include:
Obesity and type 2 diabetes are the two main causes of NAFLD. Metabolic syndrome is another major factor. Metabolic syndrome is a collection of risk factors that include abdominal obesity, unhealthy blood lipid levels, high blood pressure, and insulin resistance.
Nonalcoholic fatty liver disease is usually benign and very slowly progressive. But, in certain patients, it can lead to cirrhosis and eventual liver failure. NAFLD also increases the risk for heart disease, which is the leading cause of death for these patients.
Hemochromatosis. Hemochromatosis is a disorder of iron metabolism. This disease interferes with the way the body normally handles iron. People with hemochromatosis absorb too much iron from the food they eat. The iron overload accumulates in organs in the body. When excess iron deposits accumulate in the liver, they can cause cirrhosis.
Other Hereditary Disorders. Other inherited diseases that can cause cirrhosis include Wilson’s disease (which causes an accumulation of copper in the body), alpha-1 antitrypsin deficiency (a genetic disorder caused by defective production of a particular enzyme), and glycogen storage diseases (a group of disorders that cause abnormal amounts of glycogen to be stored in the liver).
Other causes of cirrhosis include:
Cirrhosis is divided into two stages: Compensated and decompensated.
Early stages of compensated cirrhosis may cause few or no symptoms. When symptoms do begin, they may include:
As cirrhosis progresses to a decompensated stage, patients may develop the following symptoms:
A damaged liver affects almost every bodily process, including the functions of the digestive, hormonal, and circulatory systems. Decompensated cirrhosis increases the risk of serious and potentially life-threatening complications. Once decompensation occurs, mortality rates without liver transplantation can be as high as 85% within 5 years.
The most serious complications of cirrhosis are those associated with portal hypertension (increased pressure in the portal vein that carries blood from the intestine to the liver). They include:
Liver cancer is a serious long-term risk with cirrhosis. Other complications also occur.
Ascites is fluid buildup in the abdominal cavity. It is uncomfortable and can impair breathing and other functions. Ascites is caused by a combination of portal hypertension (high pressure in the blood vessels of the liver) and low albumin levels. Albumin is a protein produced by the liver. Although ascites itself is not fatal, it is a marker for severe progression.
Hepatorenal syndrome occurs if the kidneys drastically reduce their own blood flow in response to the altered blood flow in the liver. It is a life-threatening complication of late-stage liver disease that occurs in patients with ascites. Symptoms include dark colored urine and a reduction in volume, yellowish skin, abdominal swelling, mental changes (such as delirium and confusion), jerking or coarse muscle movement, nausea, and vomiting.
One of the most serious consequences of portal hypertension is the development of varices, veins that enlarge to provide an alternative pathway for blood diverted from the liver. In most patients, they form in the esophagus. They can also form in the upper stomach. Varices pose a high risk for rupture and bleeding because they are thin-walled, twisted, and subject to high pressure. Variceal intestinal bleeding is a life-threatening event. Symptoms include vomiting blood or black and tarry stools.
Spontaneous bacterial peritonitis is a life-threatening bacterial infection of the membrane that lines the abdomen. The main symptoms include confusion and altered mental status, fever, chills, and abdominal pain. Certain medications, such as proton pump inhibitors (used for treating acid reflux and gastroesophageal reflux disease), can increase the risk for spontaneous bacterial peritonitis in patients with cirrhosis.
Mental impairment is a common complication of advanced cirrhosis. In severe cases, the disease causes encephalopathy (impaired brain function), with mental symptoms that range from confusion to coma and death. Hepatic encephalopathy is caused by a buildup in the blood of harmful intestinal toxins, particularly ammonia, which then accumulate in the brain. Encephalopathy can be triggered by many different conditions including internal bleeding, infection, constipation, and dehydration. Certain medications such as opoids, sedatives, and some anti-anxiety drugs may increase the risk for hepatic encephalopathy.
Early symptoms of hepatic encephalopathy include confusion, forgetfulness, and trouble concentrating. Sudden changes in the patient's mental state, including agitation or confusion, may indicate an emergency condition. Other symptoms include fruity-smelling bad breath and tremor. Late-stage symptoms of encephalopathy are stupor and eventually coma.
People with cirrhosis have an increased risk for hepatocellular carcinoma, a type of liver cancer. Hepatitis B and C, alcoholism, hemochromatosis, and primary biliary cirrhosis -- all causes of cirrhosis -- are some of the major risk factors for liver cancer. Cirrhosis due to hepatitis C is the leading cause of hepatocellular carcinoma in the United States.
Kidney Failure. Portal hypertension and spontaneous bacterial peritonitis can cause several secondary complications, including kidney failure. Nonsteroidal anti-inflammatory drugs (NSAIDs) -- such as ibuprofen (Advil, Motrin, generic), naproxen (Aleve, generic), and aspirin -- can also cause kidney failure in patients with cirrhosis.
Osteoporosis. Many patients with cirrhosis develop osteoporosis, a bone-thinning disease.
Insulin Resistance and Type 2 Diabetes. Cirrhosis often causes insulin resistance, a primary feature in type 2 diabetes. As insulin resistance progresses, it causes excess sugar (glucose) to build up in the blood, which leads to type 2 diabetes. In turn, type 2 diabetes is also a risk factor for nonalcoholic fatty liver disease, one of the causes of cirrhosis.
Heart Problems. Cirrhosis may increase the risk for heart failure and other cardiovascular complications.
A doctor diagnoses cirrhosis based on results from a patient’s physical exam, medical history, blood tests, and imaging tests. A liver biopsy is the definitive test for confirming a diagnosis of cirrhosis.
A physical examination may reveal the following in a patient with cirrhosis:
A patient’s medical history is another indicator of the risk for cirrhosis. Patients with a history of alcoholism, hepatitis B or C, or certain other medical conditions are at high risk.
Other tests (blood tests, imaging tests, liver biopsy) may also be performed. The results of these tests along with the presence of specific complications (ascites and encephalopathy) are used for calculating the Child-Pugh Classification. This is a staging system (A to C) that helps doctors determine the severity of cirrhosis and predict the development of future complications.
A patient’s medical history can reveal risk factors (such as alcoholism) that warrant screening for conditions such as hepatitis. Blood tests are also performed to measure liver enzymes associated with liver function. Enzymes known as aminotransferases, including aspartate (AST) and alanine (ALT), are released when the liver is damaged. Blood tests may also measure:
Magnetic resonance imaging (MRI), computed tomography (CT), and ultrasound are all imaging techniques that are useful in detecting and defining the complications of cirrhosis, such as ascites and hepatocellular carcinoma. These imaging tests can also provide information on the extent of liver damage.
A liver biopsy is the only definite method for confirming a diagnosis of cirrhosis. It also helps determine its cause, treatment possibilities, the extent of damage, and the long-term outlook. For example, patients with chronic hepatitis C who show no significant liver scarring when biopsied may have a low risk for cirrhosis.
A biopsy involves a doctor inserting a thin biopsy needle, guided by ultrasound, to remove a small sample of liver tissue. Local anesthetic is used to numb the area. Patients may feel pressure and some dull pain. The procedure takes about 20 minutes to perform.
The biopsy may be performed using various approaches, including:
Endoscopy. Endoscopy may be used for patients newly diagnosed with mild-to-moderate cirrhosis in order to screen for esophageal varices. (These are enlarged veins in the esophagus that increase the risk for bleeding). In this test, a fiber-optic tube is inserted down the throat. The tube contains tiny cameras to view the inside of the esophagus, where varices are most likely to develop.
Paracentesis. If ascites is present, paracentesis is performed to determine its cause. This procedure involves using a thin needle to withdraw fluid from the abdomen. The fluid is tested for different factors to determine the cause of ascites:
Tests for Liver Cancer. Some doctors recommend screening patients with cirrhosis every 6 months to check for the development of liver cancer (hepatocellular carcinoma). To do this, a doctor will use both a blood test to check for levels of alpha-fetoprotein and an imaging test (ultrasound, MRI, or CT scan).
Cirrhosis is generally considered an irreversible condition. Treatment goals are to slow the progression of liver damage and reduce the risk of further complications. There are currently no drugs available to treat liver scarring, although researchers are investigating various anti-fibrotic drugs.
All patients with cirrhosis can benefit from certain types of lifestyle interventions. These include:
Patients with cirrhosis are susceptible to infections and bleeding, both of which can be life threatening. Contact your doctor’s office or go to the emergency room if you experience any of the following symptoms:
Treatment for cirrhosis depends on the cause of cirrhosis. In some cases, treatment of an underlying condition may help reverse early-stage cirrhosis.
Chronic Hepatitis. Many types of antiviral drugs are used to treat chronic hepatitis B, including pegylated interferon, entecavir, and tenofovir. Treatment for chronic hepatitis C depends on the genotype. Patients with genotype 1 hepatitis C may receive triple combination therapy with pegylated interferon, ribavirin, and a protease inhibitor drug such as telaprevir or boceprevir. In 2013, the FDA approved simeprevir and sofosbuvir, two new oral treatments for hepatitis C. Successful treatment of hepatitis can sometimes lead to regression of cirrhosis.
Autoimmune Hepatitis. Autoimmune hepatitis is treated with the corticosteroid prednisone and also sometimes immunosuppressants, such as azathioprine (Imuran).
Bile Duct Disorders. Ursodeoxycholic acid (Actigall, generic), also known as ursodiol or UDCA, is used for treating primary biliary cirrhosis but does not slow the progression. Itching is usually controlled with cholesterol drugs such as cholestyramine (Questran, generic) and colestipol (Colestid). Antibiotics for infections in the bile ducts and drugs that quiet the immune system (prednisone, azathioprine, cyclosporine, methotrexate) may also be used. Several surgical procedures may also be tried to open up the bile ducts.
Nonalcoholic Fatty Liver Disease (NAFLD) and Nonalcoholic Steatohepatitis (NASH). Weight reduction through diet and exercise, and diabetes and cholesterol management are the primary approaches to treating these diseases.
Hemochromatosis. Hemachromatosis is treated with phlebotomy, a procedure that involves removing about a pint of blood once or twice a week until iron levels are normal.
First-line treatment of patients with ascites (fluid accumulation in the abdomen) involves:
Treatment for Recurring or Refractory Ascites. Patients with ascites that does not respond to standard diuretics after a month (refractory ascites) may be treated with the drug midodrine (Orvaten, generic) to reduce ascetic fluid. If they do not respond to this drug treatment, they may require other procedures to reduce fluid:
Patients with ascites who have high white blood cell counts should receive intravenous antibiotic therapy (usually cefotaxime) or oral antibiotic therapy with ofloxacin. Patients who have had an episode of spontaneous bacterial peritonitis are treated with long-term antibiotic therapy of norfloxacin (Noroxin) or trimethoprim/sulfamethoxazole (Bactrim, Septra, generic) to prevent further infection but doctors must also consider the risk for drug resistance.
Hepatorenal syndrome can occur in patients with ascites. This is a life-threatening condition in which kidney failure develops because of altered blood flow in the liver. Patients with hepatorenal syndrome are usually treated with intravenous infusion of albumin or with the drug pentoxifylline. Studies suggest that the vasoconstrictor drug terlipressin, given in combination with albumin, may be helpful for treating hepatorenal syndrome.
The first step in managing encephalopathy (damage to the brain) is to treat any precipitating cause, such as:
Protein-restricted diets used to be recommended to lower ammonia production. However, extreme protein restriction can cause malnutrition and be harmful. Guidelines now recommend that patients receive adequate protein intake and have small meals throughout the day including a late-night snack of complex carbohydrate.
Diets rich in vegetables and fiber are also important. Patients who are critically ill may need intravenous or tube feedings. The laxative lactulose, given as a syrup or enema, is used to empty the bowels and to help improve mental status. The antibiotic neomycin may be added for patients who do not improve with lactulose alone. Rifaximin (Xifaxan) is another antibiotic used for treatment of hepatic encephalopathy. Sedatives and medications containing ammonium (such as certain antacids) should be avoided.
Primary Prevention. Primary prevention means treating the varices (swollen or distended veins) before they have bled. Varices that are present in the esophagus, stomach, or intestines are always at risk of bleeding. Nonselective beta-blockers drugs, which are commonly used to treat high blood pressure, may be given to prevent bleeding. Propanolol (Inderal, generic) or nadolol (Corgard, generic) are the standard beta-blockers used for variceal prevention.
Patients with medium-to-large varices that have not bled may also be treated with a surgical procedure called endoscopic variceal ligation (EVL). EVL is also called band ligation. It involves inserting an endoscope or tube down through the esophagus. The equipment contains microcameras and tiny instruments. Latex bands are wrapped around the bleeding varices to shut off the blood supply.
Treatment. When varices located in the digestive tract begin to bleed (variceal hemorrhage), it is considered an emergency situation. The first step is to immediately achieve normal blood clotting (hemostasis) in order to stop the current bleeding episode. Patients almost always need blood transfusions.
The primary treatment for variceal hemorrhage is drug therapy with a drug that tightens blood vessels (vasoconstrictor) such as ocreotide (Sandostatin, generic). Medical procedures to stop bleeding include endoscopic variceal ligation (described above). An alternative procedure is endoscopic sclerotherapy. In endoscopic sclerotherapy, the endoscopic tube is inserted through the mouth and a sclerosant (a solution that toughens the tissue around the variceal blood vessels) is injected to stop the bleeding.
If these treatments do not control the bleeding, or bleeding recurs, a transjugular intrahepatic portosystemic shunt (TIPS) procedure is performed. (For more information on TIPS, see "Treatment of Ascites" above.) TIPS is not useful as the first choice for stopping an initial bleeding episode or for preventing rebleeding since it poses a high risk for encephalopathy.
Another procedure, called balloon tamponade, may be used to temporarily control bleeding prior to the TIPS procedure. Balloon tamponade is performed only for bleeding that cannot be controlled by drugs or endoscopy. It involves inserting a tube through the nose and down through the esophagus until it reaches the upper part of the stomach. A balloon at the tube's end is inflated and positioned tightly against the esophageal wall. It is usually deflated in about 24 hours. Balloon tamponade poses a risk for serious complications, the most dangerous being rupture of the esophagus.
Secondary Prevention. Patients who survive an episode of variceal bleeding need to be treated with drugs to prevent bleeding recurrence. Patients are prescribed either a combination of a nitrate drug (such as isosorbide, which is used to treat angina) and a nonselective beta-blocker (propanolol or nadolol) or a beta-blocker alone. Patients may also be given several sessions of endoscopic variceal ligation over the course of several months. The TIPS procedure may be recommended for patients who experience recurrent bleeding despite drug and endoscopic therapy. Liver transplantation may also be an option.
Patients hospitalized for cirrhosis are at high risk for septic shock. Septic shock is a life-threatening condition that occurs when severe bacterial infection causes extreme low blood pressure. It is very important that patients with cirrhosis and septic shock receive immediate and appropriate antibiotic treatment. A combination of broad-spectrum antibiotics is recommended.
When cirrhosis progresses to end-stage liver disease, patients may be candidates for liver transplantation. Patients with liver cancer that has not spread beyond the liver are also candidates for transplant.
Current 5-year survival rates after liver transplantation are about 75%. Patients report improved quality of life and mental functioning after liver transplantation. Patients should seek medical centers that perform more than 50 transplants per year and produce better-than-average results.
A scoring system called Model for End-Stage Liver Disease (MELD) is used to determine which patients are most in need of a donor liver. A MELD score predicts 3-month survival based on laboratory tests of creatinine, bilirubin, and blood-clotting time. Priority is given to patients who are most likely to die without a liver transplant.
Unfortunately, there are many more patients waiting for liver transplants than there are available organs. Patients may also want to consider living-donor liver transplantation. In living-donor transplantation, surgeons replace the patient’s diseased liver with a part of the liver taken from a donor. The donor’s liver regenerates to full size within a few weeks of surgery, and the recipient’s liver also regrows. This procedure produces excellent results for patients, but there are some risks for the donor.
Transplantation surgery generally takes 4 - 12 hours to perform, and patients stay in the hospital for up to 3 weeks after the surgery. Most patients return to normal or near-normal activities 6 - 12 months following the transplant. For the rest of their lives, patients need to take immunosuppressive medication to prevent rejection.
Liver Transplantation in Patients with Viral Hepatitis. One of the primary problems with performing liver transplantation in patients with hepatitis is recurrence of the virus after transplantation. Recurrence typically occurs with hepatitis C. Viral recurrence can also occur with hepatitis B. HepaGam B is an immune globulin preparation approved to prevent recurrence of hepatitis B after transplantation. Patients need to receive periodic HepaGam B injections on a lifelong basis.
Liver Transplantation for Patients with Primary Biliary Cirrhosis. Patients who require transplantation for primary biliary cirrhosis are those who develop major complications of portal hypertension and liver failure or who have poor quality of life and short survival without the procedure. Survival rates after transplantation are excellent.
Liver Transplantation for Patients with Autoimmune Hepatitis. The outlook is also good for patients who have autoimmune hepatitis who require a transplant. Survival rates are about 90% after 1 year, and 70 - 80% after 5 years. Rejection usually occurs in those patients whose immune systems are very compromised.
Liver Transplantation for Patients with Alcoholism. Liver transplantation is generally not recommended for patients with active alcohol or drug abuse addictions.
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