A month devoted to the importance of liver awareness gives you the opportunity to focus on the important role the liver plays. You can also learn about different forms of liver disease including the threat posed by obesity and fatty livers.
And to begin, why not take the quick quiz to test your knowledge about liver disease? It’s definitely quick—just four questions!
How much do you know about liver disease? Just in time for Liver Awareness Month 2013, here’s a quick quiz—with the answers:
• How many people in America (alone) have one form or another of liver disease? (Answer: 30 million)
• How many types of disease are there? (Answer: More than 100.)
• Is it possible to have liver disease and not know about it? (Answer: Yes, the shocking fact is that about 75 percent of the population infected with hepatitis B and hepatitis C is unaware they are even infected.)
• Is it true that liver disease is primarily caused by alcohol and drug abuse? (Answer: No, while it continues to be one of the causes, the truth is that liver disease can occur for many other reasons including the mounting obesity rate in the United States.)
The Liver’s Important Role
As the quick quiz illustrates, there is a critical need for the American Liver Foundation throughout the year, but especially during Liver Awareness Month, to educate the general public about the important role the liver plays and how to maintain a healthy liver.
The Focus on Fatty Livers Intensifies
Much of our Foundation’s emphasis during October continues to point to the cause and treatment for liver diseases like hepatitis A, B and C; cirrhosis, biliary atresia and liver cancer.
But our Foundation is also tapping into the heightened awareness during Liver Awareness Month to draw attention to the alarming increase in the incidence of Non-Alcoholic Fatty Liver Disease (NAFLD), which, staggeringly, affects up to 25 percent of people in the United States.
As its name suggests, NAFLD is the buildup of extra fat in the liver that isn’t caused by alcohol. It’s normal for the liver to contain some fat. But if more than 5 to 10 percent of the liver’s weight is fat, then it is called a “fatty liver.”
Most often, NAFLD tends to develop in people who are overweight or obese or have diabetes, high cholesterol or high triglycerides. Sedentary behavior is another major contributing factor to the onset of NAFLD.
For these reasons, concern continues to grow as one in 10 children—that’s seven million children in the United States (alone)—is estimated to have fatty livers.
NALFD can become even more serious. It can progress to Non-Alcoholic Steatohepatitis (NASH), which means that along with the fat, there is inflammation and damage to the liver. A swollen liver may cause scarring (cirrhosis) over time and may even lead to liver cancer or liver failure.
National Liver Awareness Month
The liver is the largest gland in the human body. It is located in the upper right abdomen.
The normal liver has many important complex functions. These functions include manufacture of plasma proteins, storage of carbohydrates, detoxifying drugs and toxins, fat and carbohydrate metabolism, bile formation, and others.
Cirrhosis is a disease of the liver in which normal cells are replaced by scar tissue. This condition results in the failure of the liver to perform many of its usual functions. There are many causes of cirrhosis. Alcohol is a very common cause, particularly in the Western world. The development of cirrhosis in alcohol consumers depends upon the amount and regularity of intake.
Viral liver inflammation (hepatitis) is also a common cause of cirrhosis, although most patients with viral hepatitis will not develop cirrhosis.
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Cirrhosis is a complication of liver disease which involves loss of liver cells and irreversible scarring of the liver.
- Alcohol and viral hepatitis B and C are common causes of cirrhosis, although there are many other causes.
- Cirrhosis can cause weakness, loss of appetite, easy bruising, yellowing of the skin
- Diagnosis of cirrhosis can be suggested by history, physical examination and blood tests, and can be confirmed by liver biopsy.
- Complications of cirrhosis include edema and ascites, spontaneous bacterial peritonitis, bleeding from varices, hepatic encephalopathy, hepatorenal syndrome, hepatopulmonary syndrome, hypersplenism, and liver cancer.
- Treatment of cirrhosis is designed to prevent further damage to the liver, treat complications of cirrhosis, and preventing or detecting liver cancer early.
- Transplantation of the liver is an important option for treating patients with advanced cirrhosis.
Symptoms of Cirrhosis of the Liver
Individuals with cirrhosis may have few or no symptoms and signs of liver disease. Some of the symptoms may be nonspecific, that is, they don’t suggest that the liver is their cause. Some of the more common symptoms and signs of cirrhosis include:
- Yellowing of the skin (jaundice) due to the accumulation of bilirubin in the blood
- Loss of appetite
- Easy bruising from decreased production of blood clotting factors by the diseased liver.
Individuals with cirrhosis also develop symptoms and signs from the complications of cirrhosis
What is cirrhosis?
Cirrhosis is a complication of many liver diseases characterized by abnormal structure and function of the liver. The diseases that lead to cirrhosis do so because they injure and kill liver cells, after which the inflammation and repair that is associated with the dying liver cells causes scar tissue to form. The liver cells that do not die multiply in an attempt to replace the cells that have died. This results in clusters of newly-formed liver cells (regenerative nodules) within the scar tissue. There are many causes of cirrhosis including chemicals (such as alcohol, fat, and certain medications), viruses, toxic metals (such as iron and copper that accumulate in the liver as a result of genetic diseases), and autoimmune liver disease in which the body’s immune system attacks the liver.
Why does cirrhosis cause problems?
The liver is an important organ in the body. It performs many critical functions, two of which are producing substances required by the body, for example, clotting proteins that are necessary in order for blood to clot, and removing toxic substances that can be harmful to the body, for example, drugs. The liver also has an important role in regulating the supply of glucose (sugar) and lipids (fat) that the body uses as fuel. In order to perform these critical functions, the liver cells must be working normally, and they must have a close proximity to the blood because the substances that are added or removed by the liver are transported to and from the liver by the blood.
In cirrhosis, the relationship between blood and liver cells is destroyed. Even though the liver cells that survive or are newly-formed may be able to produce and remove substances from the blood, they do not have the normal, intimate relationship with the blood, and this interferes with the liver cells’ ability to add or remove substances from the blood. In addition, the scarring within the cirrhotic liver obstructs the flow of blood through the liver and to the liver cells. As a result of the obstruction to the flow of blood through the liver, blood “backs-up” in the portal vein, and the pressure in the portal vein increases, a condition called portal hypertension. Because of the obstruction to flow and high pressures in the portal vein, blood in the portal vein seeks other veins in which to return to the heart, veins with lower pressures that bypass the liver. Unfortunately, the liver is unable to add or remove substances from blood that bypasses it. It is a combination of reduced numbers of liver cells, loss of the normal contact between blood passing through the liver and the liver cells, and blood bypassing the liver that leads to many of the manifestations of cirrhosis.
A second reason for the problems caused by cirrhosis is the disturbed relationship between the liver cells and the channels through which bile flows. Bile is a fluid produced by liver cells that has two important functions: to aid in digestion and to remove and eliminate toxic substances from the body. The bile that is produced by liver cells is secreted into very tiny channels that run between the liver cells that line the sinusoids, called canaliculi. The canaliculi empty into small ducts which then join together to form larger and larger ducts. Ultimately, all of the ducts combine into one duct that enters the small intestine. In this way, bile gets to the intestine where it can help with the digestion of food. At the same time, toxic substances contained in the bile enter the intestine and then are eliminated in the stool. In cirrhosis, the canaliculi are abnormal and the relationship between liver cells and canaliculi is destroyed, just like the relationship between the liver cells and blood in the sinusoids. As a result, the liver is not able to eliminate toxic substances normally, and they can accumulate in the body. To a minor extent, digestion in the intestine also is reduced.
What are the signs and symptoms of cirrhosis?
Patients with cirrhosis may have few or no symptoms and signs of liver disease. Some of the symptoms may be nonspecific, that is, they don’t suggest that the liver is their cause. Some of the more common symptoms and signs of cirrhosis include:
- Yellowing of the skin (jaundice) due to the accumulation of bilirubin in the blood
- Loss of appetite
- Easy bruising from decreased production of blood clotting factors by the diseased liver.
Patients with cirrhosis also develop symptoms and signs from the complications of cirrhosis that are discussed next.
What are the complications of cirrhosis?
Edema and ascites
As cirrhosis of the liver becomes severe, signals are sent to the kidneys to retain salt and water in the body. The excess salt and water first accumulates in the tissue beneath the skin of the ankles and legs because of the effect of gravity when standing or sitting. This accumulation of fluid is called peripheral edema or pitting edema. (Pitting edema refers to the fact that pressing a fingertip firmly against an ankle or leg with edema causes an indentation in the skin that persists for some time after release of the pressure. Actually, any type of pressure, such as from the elastic band of a sock, may be enough to cause pitting.) The swelling often is worse at the end of a day after standing or sitting and may lessen overnight as a result of the loss of the effects of gravity when lying down. As cirrhosis worsens and more salt and water are retained, fluid also may accumulate in the abdominal cavity between the abdominal wall and the abdominal organs. This accumulation of fluid (called ascites) causes swelling of the abdomen, abdominal discomfort, and increased weight.
Spontaneous bacterial peritonitis (SBP)
Fluid in the abdominal cavity (ascites) is the perfect place for bacteria to grow. Normally, the abdominal cavity contains a very small amount of fluid that is able to resist infection well, and bacteria that enter the abdomen (usually from the intestine) are killed or find their way into the portal vein and to the liver where they are killed. In cirrhosis, the fluid that collects in the abdomen is unable to resist infection normally. In addition, more bacteria find their way from the intestine into the ascites. Therefore, infection within the abdomen and the ascites, referred to as spontaneous bacterial peritonitis or SBP, is likely to occur. SBP is a life- threatening complication. Some patients with SBP have no symptoms, while others have fever, chills, abdominal pain and tenderness, diarrhea, and worsening ascites.
Bleeding from esophageal varices
In the cirrhotic liver, the scar tissue blocks the flow of blood returning to the heart from the intestines and raises the pressure in the portal vein (portal hypertension). When pressure in the portal vein becomes high enough, it causes blood to flow around the liver through veins with lower pressure to reach the heart. The most common veins through which blood bypasses the liver are the veins lining the lower part of the esophagus and the upper part of the stomach.
Bleeding from varices usually is severe and, without immediate treatment, can be fatal. Symptoms of bleeding from varices include vomiting blood (the vomitus can be red blood mixed with clots or “coffee grounds” in appearance, the latter due to the effect of acid on the blood), passing stool that is black and tarry due to changes in the blood as it passes through the intestine (melena), and orthostatic dizziness or fainting (caused by a drop in blood pressure especially when standing up from a lying position).
Bleeding also may occur from varices that form elsewhere in the intestines, for example, the colon, but this is rare. For reasons yet unknown, patients hospitalized because of actively bleeding esophageal varices have a high risk of developing spontaneous bacterial peritonitis.
Some of the protein in food that escapes digestion and absorption is used by bacteria that are normally present in the intestine. While using the protein for their own purposes, the bacteria make substances that they release into the intestine. These substances then can be absorbed into the body. Some of these substances, for example, ammonia, can have toxic effects on the brain. Ordinarily, these toxic substances are carried from the intestine in the portal vein to the liver where they are removed from the blood and detoxified.
As previously discussed, when cirrhosis is present, liver cells cannot function normally either because they are damaged or because they have lost their normal relationship with the blood. In addition, some of the blood in the portal vein bypasses the liver through other veins. The result of these abnormalities is that toxic substances cannot be removed by the liver cells, and, instead, the toxic substances accumulate in the blood.
When the toxic substances accumulate sufficiently in the blood, the function of the brain is impaired, a condition called hepatic encephalopathy. Sleeping during the day rather than at night (reversal of the normal sleep pattern) is among the earliest symptoms of hepatic encephalopathy. Other symptoms include irritability, inability to concentrate or perform calculations, loss of memory, confusion, or depressed levels of consciousness. Ultimately, severe hepatic encephalopathy causes coma and death.
The toxic substances also make the brains of patients with cirrhosis very sensitive to drugs that are normally filtered and detoxified by the liver. Doses of many drugs that normally are detoxified by the liver have to be reduced to avoid a toxic buildup in cirrhosis, particularly sedatives and drugs that are used to promote sleep. Alternatively, drugs may be used that do not need to be detoxified or eliminated from the body by the liver, for example, drugs that are eliminated by the kidneys.
Patients with worsening cirrhosis can develop hepatorenal syndrome. This syndrome is a serious complication in which the function of the kidneys is reduced. It is a functional problem in the kidneys, meaning there is no physical damage to the kidneys. Instead, the reduced function is due to changes in the way the blood flows through the kidneys themselves. The hepatorenal syndrome is defined as progressive failure of the kidneys to clear substances from the blood and produce adequate amounts of urine while other important functions of the kidney, such as retention of salt, are maintained. If liver function improves or a healthy liver is transplanted into a patient with hepatorenal syndrome, the kidneys usually begin to work normally again. This suggests that the reduced function of the kidneys is the result of either the accumulation of toxic substances in the blood or abnormal liver function when the liver fails. There are two types of hepatorenal syndrome. One type occurs gradually over months. The other occurs rapidly over a week or two.
Rarely, some patients with advanced cirrhosis can develop hepatopulmonary syndrome. These patients can experience difficulty breathing because certain hormones released in advanced cirrhosis cause the lungs to function abnormally. The basic problem in the lung is that not enough blood flows through the small blood vessels in the lungs that are in contact with the alveoli (air sacs) of the lungs. Blood flowing through the lungs is shunted around the alveoli and cannot pick up enough oxygen from the air in the alveoli. As a result the patient experiences shortness of breath, particularly with exertion.
The spleen normally acts as a filter to remove older red blood cells, white blood cells, and platelets (small particles that are important for the clotting of blood.). The blood that drains from the spleen joins the blood in the portal vein from the intestines. As the pressure in the portal vein rises in cirrhosis, it increasingly blocks the flow of blood from the spleen. The blood “backs-up,” accumulating in the spleen, and the spleen swells in size, a condition referred to as splenomegaly. Sometimes, the spleen is so enlarged that it causes abdominal pain.
As the spleen enlarges, it filters out more and more of the blood cells and platelets until their numbers in the blood are reduced. Hypersplenism is the term used to describe this condition, and it is associated with a low red blood cell count (anemia), low white blood cell count (leucopenia), and/or a low platelet count (thrombocytopenia). The anemia can cause weakness, the leucopenia can lead to infections, and the thrombocytopenia can impair the clotting of blood and result in prolonged bleeding.
Liver cancer (hepatocellular carcinoma)
Cirrhosis due to any cause increases the risk of primary liver cancer (hepatocellular carcinoma). Primary refers to the fact that the tumor originates in the liver. A secondary liver cancer is one that originates elsewhere in the body and spreads (metastasizes) to the liver.
The most common symptoms and signs of primary liver cancer are abdominal pain and swelling, an enlarged liver, weight loss, and fever. In addition, liver cancers can produce and release a number of substances, including ones that cause an increased in red blood cell count (erythrocytosis), low blood sugar (hypoglycemia), and high blood calcium (hypercalcemia ).
What are the common causes of cirrhosis?
Alcohol is a very common cause of cirrhosis, particularly in the Western world. The development of cirrhosis depends upon the amount and regularity of alcohol intake. Chronic, high levels of alcohol consumption injure liver cells. Thirty percent of individuals who drink daily at least eight to sixteen ounces of hard liquor or the equivalent for fifteen or more years will develop cirrhosis. Alcohol causes a range of liver diseases; from simple and uncomplicated fatty liver (steatosis), to the more serious fatty liver with inflammation (steatohepatitis or alcoholic hepatitis), to cirrhosis.
Nonalcoholic fatty liver disease (NAFLD) refers to a wide spectrum of liver diseases that, like alcoholic liver disease, ranges from simple steatosis, to nonalcoholic steatohepatitis (NASH), to cirrhosis. All stages of NAFLD have in common the accumulation of fat in liver cells. The term nonalcoholic is used because NAFLD occurs in individuals who do not consume excessive amounts of alcohol, yet, in many respects, the microscopic picture of NAFLD is similar to what can be seen in liver disease that is due to excessive alcohol. NAFLD is associated with a condition called insulin resistance, which, in turn, is associated with metabolic syndrome and diabetes mellitus type 2. Obesity is the most important cause of insulin resistance, metabolic syndrome, and type 2 diabetes. NAFLD is the most common liver disease in the United States and is responsible for 24% of all liver disease. In fact, the number of livers that are transplanted for NAFLD-related cirrhosis is on the rise. Public health officials are worried that the current epidemic of obesity will dramatically increase the development of NAFLD and cirrhosis in the population.
Cryptogenic cirrhosis(cirrhosis due to unidentified causes) is a common reason for liver transplantation. It is termed cryptogenic cirrhosis because for many years doctors have been unable to explain why a proportion of patients developed cirrhosis. Doctors now believe that cryptogenic cirrhosis is due to NASH (nonalcoholic steatohepatitis) caused by long standing obesity, type 2 diabetes, and insulin resistance. The fat in the liver of patients with NASH is believed to disappear with the onset of cirrhosis, and this has made it difficult for doctors to make the connection between NASH and cryptogenic cirrhosis for a long time. One important clue that NASH leads to cryptogenic cirrhosis is the finding of a high occurrence of NASH in the new livers of patients undergoing liver transplant for cryptogenic cirrhosis. Finally, a study from France suggests that patients with NASH have a similar risk of developing cirrhosis as patients with long standing infection with hepatitis C virus. (See discussion that follows.) However, the progression to cirrhosis from NASH is thought to be slow and the diagnosis of cirrhosis typically is made in patients in their sixties.
Chronic viral hepatitis is a condition where hepatitis B or hepatitis C virus infects the liver for years. Most patients with viral hepatitis will not develop chronic hepatitis and cirrhosis. For example, the majority of patients infected with hepatitis A recover completely within weeks, without developing chronic infection. In contrast, some patients infected with hepatitis B virus and most patients infected with hepatitis C virus develop chronic hepatitis, which, in turn, causes progressive liver damage and leads to cirrhosis, and, sometimes, liver cancers.
Primary biliary cirrhosis (PBC) is a liver disease caused by an abnormality of the immune system that is found predominantly in women. The abnormal immunity in PBC causes chronic inflammation and destruction of the small bile ducts within the liver. The bile ducts are passages within the liver through which bile travels to the intestine. Bile is a fluid produced by the liver that contains substances required for digestion and absorption of fat in the intestine, as well as other compounds that are waste products, such as the pigment bilirubin. (Bilirubin is produced by the breakdown of hemoglobin from old red blood cells.). Along with the gallbladder, the bile ducts make up the biliary tract. In PBC, the destruction of the small bile ducts blocks the normal flow of bile into the intestine. As the inflammation continues to destroy more of the bile ducts, it also spreads to destroy nearby liver cells. As the destruction of the hepatocytes proceeds, scar tissue (fibrosis) forms and spreads throughout the areas of destruction. The combined effects of progressive inflammation, scarring, and the toxic effects of accumulating waste products culminates in cirrhosis.
Primary sclerosing cholangitis (PSC) is an uncommon disease frequently found in patients with Crohn’s disease and ulcerative colitis. In PSC, the large bile ducts outside of the liver become inflamed, narrowed, and obstructed. Obstruction to the flow of bile leads to infections of the bile ducts and jaundice, eventually causing cirrhosis. In some patients, injury to the bile ducts (usually as a result of surgery) also can cause obstruction and cirrhosis of the liver.
Autoimmune hepatitis is a liver diseasefound more commonly in women that is caused by an abnormality of the immune system. The abnormal immune activity in autoimmune hepatitis causes progressive inflammation and destruction of liver cells (hepatocytes), leading ultimately to cirrhosis.
Infants can be born without bile ducts (biliary atresia) and ultimately develop cirrhosis. Other infants are born lacking vital enzymes for controlling sugars that leads to the accumulation of sugars and cirrhosis. On rare occasions, the absence of a specific enzyme can cause cirrhosis and scarring of the lung (alpha-1 antitrypsin deficiency).
Less common causes of cirrhosis include unusual reactions to some drugs and prolonged exposure to toxins, as well as chronic heart failure (cardiac cirrhosis). In certain parts of the world (particularly Northern Africa), infection of the liver with a parasite (schistosomiasis) is the most common cause of liver disease and cirrhosis.
How is cirrhosis diagnosed and evaluated?
The single best test for diagnosing cirrhosis is biopsy of the liver. Liver biopsies, however, carry a small risk for serious complications, and, therefore, biopsy often is reserved for those patients in whom the diagnosis of the type of liver disease or the presence of cirrhosis is not clear. The possibility of cirrhosis may be suggested by the history, physical examination, or routine testing. If cirrhosis is present, other tests can be used to determine the severity of the cirrhosis and the presence of complications. Tests also may be used to diagnose the underlying disease that is causing the cirrhosis. The following are some examples of how doctors discover, diagnose and evaluate cirrhosis:
- In taking a patient’s history, the physician may uncover a history of excessive and prolonged intake of alcohol, a history of intravenous drug abuse, or a history of hepatitis. These pieces of information suggest the possibility of liver disease and cirrhosis.
- Patients who are known to have chronic viral hepatitis B or C have a higher probability of having cirrhosis.
- Some patients with cirrhosis have enlarged livers and/or spleens. A doctor can often feel (palpate) the lower edge of an enlarged liver below the right rib cage and feel the tip of the enlarged spleen below the left rib cage. A cirrhotic liver also feels firmer and more irregular than a normal liver.
- Some patients with cirrhosis, particularly alcoholic cirrhosis, have small red spider-like markings (telangiectasias) on the skin, particularly on the chest, that are made up of enlarged, radiating blood vessels. However, these spider telangiectasias also can be seen in individuals without liver disease.
- Jaundice (yellowness of the skin and of the whites of the eyes due to elevated bilirubin in the blood) is common among patients with cirrhosis, but jaundice can occur in patients with liver diseases without cirrhosis and other conditions such as hemolysis (excessive break down of red blood cells).
- Swelling of the abdomen (ascites) and/or the lower extremities (edema) due to retention of fluid is common among patients with cirrhosis, although other diseases can cause them commonly, for example, congestive heart failure.
- Patients with abnormal copper deposits in their eyes or certain types of neurologic disease may have Wilson’s disease, a genetic disease in which there is abnormal handling and accumulation of copper throughout the body, including the liver, which can lead to cirrhosis.
- Esophageal varices may be found unexpectedly during upper endoscopy (EGD), strongly suggests cirrhosis.
- Computerized tomography (CT or CAT) or magnetic resonance imaging (MRI) scans and ultrasound examinations of the abdomen done for reasons other than evaluating the possibility of liver disease may unexpectedly detect enlarged livers, abnormally nodular livers, enlarged spleens, and fluid in the abdomen, which suggest cirrhosis.
- Advanced cirrhosis leads to a reduced level of albumin in the blood and reduced blood clotting factors due to the loss of the liver’s ability to produce these proteins. Thus, reduced levels of albumin in the blood or abnormal bleeding suggest cirrhosis.
- Abnormal elevation of liver enzymes in the blood (such as ALT and AST) that are obtained routinely as part of yearly health examinations suggests inflammation or injury to the liver from many causes as well as cirrhosis.
- Patients with elevated levels of iron in their blood may have hemochromatosis, a genetic disease of the liver in which iron is handled abnormally and which leads to cirrhosis.
- Patients with elevated levels of iron in their blood may have hemochromatosis, a genetic disease of the liver in which iron is handled abnormally and which leads to cirrhosis.
- Liver cancer (hepatocellular carcinoma) may be detected by CT and MRI scans or ultrasound of the abdomen. Liver cancer most commonly develops in individuals with underlying cirrhosis.
- Elevation of tumor markers such as alpha fetoprotein suggest the presence of liver cancer.
- If there is an accumulation of fluid in the abdomen, a sample of the fluid can be removed using a long needle. The fluid then can be examined and tested. The results of testing may suggest the presence of cirrhosis as the cause of the fluid.
How is cirrhosis treated?
Treatment of cirrhosis includes:
1) preventing further damage to the liver,
2) treating the complications of cirrhosis,
3) preventing liver cancer or detecting it earl
4) liver transplantation.
Preventing further damage to the liver
- Consume a balanced diet and one multivitamin daily. Patients with PBC with impaired absorption of fat soluble vitamins may need additional vitamins D and K.
- Avoid drugs (including alcohol) that cause liver damage. All patients with cirrhosis should avoid alcohol. Most patients with alcohol induced cirrhosis experience an improvement in liver function with abstinence from alcohol. Even patients with chronic hepatitis B and C can substantially reduce liver damage and slow the progression towards cirrhosis with abstinence from alcohol.
- Avoid nonsteroidal anti-inflammatory drugs (NSAIDs, for example, ibuprofen). Patients with cirrhosis can experience worsening of liver and kidney function with NSAIDs.
- Eradicate hepatitis B and hepatitis C virus by using anti-viral medications. Not all patients with cirrhosis due to chronic viral hepatitis are candidates for drug treatment. Some patients may experience serious deterioration in liver function and/or intolerable side effects during treatment. Thus, decisions to treat viral hepatitis have to be individualized, after consulting with doctors experienced in treating liver diseases (hepatologists).
- Remove blood from patients with hemochromatosis to reduce the levels of iron and prevent further damage to the liver. In Wilson’s disease, medications can be used to increase the excretion of copper in the urine to reduce the levels of copper in the body and prevent further damage to the liver.
- Suppress the immune system with drugs such as prednisone and azathioprine (Imuran) to decrease inflammation of the liver in autoimmune hepatitis.
- Treat patients with PBC with a bile acid preparation, ursodeoxycholic acid (UDCA), also called ursodiol (Actigall). Results of an analysis that combined the results from several clinical trials showed that UDCA increased survival among PBC patients during 4 years of therapy. The development of portal hypertension also was reduced by the UDCA. It is important to note that despite producing clear benefits, UDCA treatment primarily retards progression and does not cure PBC. Other medications such as colchici (Colcrys) and methotrexate (Rheumatrex, Trexall) also may have benefit in subsets of patients with PBC.
- Immunize patients with cirrhosis against infection with hepatitis A and B to prevent a serious deterioration in liver function. There are currently no vaccines available for immunizing against hepatitis C.
Treating the complications of cirrhosis
Edema and ascites. Retention of salt and water can lead to swelling of the ankles and legs (edema) or abdomen (ascites) in patients with cirrhosis. Doctors often advise patients with cirrhosis to restrict dietary salt (sodium) and fluid to decrease edema and ascites. The amount of salt in the diet usually is restricted to 2 grams per day and fluid to 1.2 liters per day. In most patients with cirrhosis, however, salt and fluid restriction is not enough, and diuretics have to be added.
Diuretics are medications that work in the kidneys to promote the elimination of salt and water into the urine. A combination of the diuretics spironolactone (Aldactone) and furosemide (Lasix) can reduce or eliminate the edema and ascites in most patients. During treatment with diuretics, it is important to monitor the function of the kidneys by measuring blood levels of blood urea nitrogen (BUN) and creatinine to determine if too much diuretic is being used. Too much diuretic can lead to kidney dysfunction that is reflected in elevations of the BUN and creatinine levels in the blood.
Sometimes, when the diuretics do not work (in which case the ascites is said to be refractory), a long needle or catheter is used to draw out the ascitic fluid directly from the abdomen, a procedure called abdominal paracentesis. It is common to withdraw large amounts (liters) of fluid from the abdomen when the ascites is causing painful abdominal distension and/or difficulty breathing because it limits the movement of the diaphragms.
Another treatment for refractory ascites is a procedure called transjugular intravenous portosystemic shunting (TIPS, see below).
Bleeding from varices. If large varices develop in the esophagus or upper stomach, patients with cirrhosis are at risk for serious bleeding due to rupture of these varices. Once varices have bled, they tend to rebleed and the probability that a patient will die from each bleeding episode is high (30% to 35%). Therefore, treatment is necessary to prevent the first (initial) bleeding episode as well as rebleeding. Treatments include medications and procedures to decrease the pressure in the portal vein, and procedures to destroy the varices.
- Propranolol (Inderal), a beta blocker, is effective in lowering pressure in the portal vein and is used to prevent initial bleeding and rebleeding from varices in patients with cirrhosis. Another class of oral medications that lowers portal pressure is the nitrates, for example, isosorbide dinitrate (Isordil). Nitrates often are added to propranolol if propranolol alone does not adequately lower portal pressure or prevent bleeding.
- Octreotide (Sandostatin) also decreases portal vein pressure and has been used to treat variceal bleeding.
- During upper endoscopy (EGD) sclerotherapy or band ligation can be performed to obliterate varices and stop active bleeding and prevent rebleeding. Sclerotherapy is less commonly used in clinical practice due to a higher risk of complications as compared to band ligation. Band ligation involves applying rubber bands around the varices to obliterate them. (Band ligation of the varices is analogous to rubber banding of hemorrhoids)
- Transjugular intrahepatic portosystemic shunt (TIPS) is a non-surgical, radiologic procedure to decrease the pressure in the portal vein. TIPS is performed by a radiologist who inserts a stent (tube) through a neck vein, down the inferior vena cava and into the hepatic vein within the liver. The stent then is placed so that one end is in the high pressure portal vein and the other end is in the low pressure hepatic vein. This tube shunts blood around the liver and by so doing lowers the pressure in the portal vein and varices and prevents bleeding from the varices. TIPS is particularly useful in patients who fail to respond to beta blockers, variceal banding. (TIPS also is useful in treating patients with ascites that do not respond to salt and fluid restriction and diuretics.) TIPS can be used in patients with cirrhosis to prevent variceal bleeding while the patients are waiting for liver transplantation. The most common side effect of TIPS is hepatic encephalopathy. Another major problem with TIPS is the development of narrowing and occlusion of the stent, causing recurrence of portal hypertension and variceal bleeding and ascites. The estimated frequency of stent occlusion ranges from 30% to 50% in 12 months. Fortunately, there are methods to open occluded stents. Other complications of TIPS include bleeding due to inadvertent puncture of the liver capsule or a bile duct, infection, heart failure, and liver failure.
- A surgical operation to create a shunt (passage) from the high-pressure portal vein to veins with lower pressure can lower blood flow and pressure in the portal vein and prevent varices from bleeding. One such surgical procedure is called distal splenorenal shunt (DSRS). It is appropriate to consider such a surgical shunt for patients with portal hypertension who have early cirrhosis. (The risks of major shunt surgery in these patients is less than in patients with advanced cirrhosis.) During DSRS, the surgeon detaches the splenic vein from the portal vein and attaches it to the renal vein. Blood is then shunted from the spleen around the liver, lowering the pressure in the portal vein and varices and preventing bleeding from the varices.
Hepatic encephalopathy. Patients with an abnormal sleep cycle, impaired thinking, odd behavior, or other signs of hepatic encephalopathy usually should be treated with a low protein diet and oral lactulose. Dietary protein is restricted because it is a source of toxic compounds that cause hepatic encephalopathy. Lactulose, which is a liquid, traps toxic compounds in the colon so they cannot be absorbed into the blood stream, and thuse causes encephalopathy. Lactulose is converted to lactic acid in the colon, and the acidic environment that results is believed to trap the toxic compounds produced by the bacteria. To be sure that adequate lactulose is present in the colon at all times, the patient should adjust the dose to produce 2 to 3 semiformed bowel movements a day. (Lactulose is a laxative, and the adequacy of treatment can be judged by loosening or increasing frequency of stools.) Rifaximin (Xifaxan) is an antibiotic taken orally that is not absorbed into the body but rather remains in the intestines. It is the preferred mode of treatment of hepatic encephalopathy. Antibiotics work by suppressing the bacteria that produce the toxic compounds in the colon.
Hypersplenism. The filtration of blood by an enlarged spleen usually results in only mild reductions of red blood cells (anemia), white blood cells (leukopenia) and platelets (thrombocytopenia) that do not require treatment. Severe anemia, however, may require blood transfusions or treatment with erythropoietin or epoetin alfa (Epogen, Procrit), hormones that stimulate the production of red blood cells. If the numbers of white blood cells are severely reduced, another hormone called granulocyte-colony stimulating factor is available to increase the numbers of white blood cells. An example of one such factor is filgrastim (Neupogen).
Neumega (Oprelvelkin) is used to increase the number of platelets. As a necessary precaution, patients with low platelets should not use aspirin or other nonsteroidal antiinflammatory drugs (NSAIDS) since these drugs can hinder the function of platelets. If a low number of platelets is associated with significant bleeding, transfusions of platelets usually should be given. Surgical removal of the spleen (called splenectomy) should be avoided, if possible, due to the risk of excessive bleeding during the operation and the risk of anesthesia in advanced liver disease.
Spontaneous bacterial peritonitis (SBP). Patients suspected of having spontaneous bacterial peritonitis usually will undergo paracentesis. Fluid that is removed is examined for white blood cells and cultured for bacteria. Culturing involves inoculating a sample of the ascites into a bottle of nutrient-rich fluid that encourages the growth of bacteria, thus facilitating the identification of even small numbers of bacteria. Blood and urine samples also are often obtained for culturing because many patients with spontaneous bacterial peritonitis also will have infection in their blood and urine. In fact, many doctors believe that infection may have begun in the blood and the urine and spread to the ascitic fluid to cause spontaneous bacterial peritonitis. Most patients with spontaneous bacterial peritonitis are hospitalized and treated with intravenous antibiotics such as cefotaxime. Patients usually treated with antibiotics include:
- Ascites fluid cultures that contain bacteria.
- Patients without bacteria in their blood, urine, and ascitic fluid but who have elevated numbers of white blood cells (neutrophils) in the asciticfluid (>250 neutrophils/cc). Elevated neutrophil numbers in ascitic fluid often means that there is bacterial infection. Doctors believe that the lack of bacteria with culturing in some patients with increased neutrophils is due either to a very small number of bacteria or ineffective culturing techniques.
Spontaneous bacterial peritonitis is a serious infection. It often occurs in patients with advanced cirrhosis whose immune systems are weak, but with modern antibiotics and early detection and treatment, the prognosis of recovering from an episode of spontaneous bacterial peritonitis is good.
In some patients oral antibiotics (norfloxacin [Noroxin] or sulfamethoxazole and trimethoprim [Bactrim]) can be prescribed to prevent spontaneous bacterial peritonitis. Not all patients with cirrhosis and ascites should be treated with antibiotics to prevent spontaneous bacterial peritonitis, but some patients are at high risk for developing spontaneous bacterial peritonitis and warrant preventive treatment:
- Patients with cirrhosis who are hospitalized for bleeding varices have a high risk of developing spontaneous bacterial peritonitis and should be started on antibiotics early during the hospitalization to treat presumed spontaneous bacterial peritonitis
- Patients with recurring episodes of spontaneous bacterial peritonitis
- Patients with low protein levels in the ascitic fluid (Ascitic fluid with low levels of protein is more likely to become infected.)
Prevention and early detection of liver cancer
Several types of liver disease that cause cirrhosis (such as hepatitis B and C) are associated with a particularly high incidence of liver cancer. It would be useful to screen for liver cancer in patients with cirrhosis, as early surgical treatment or transplantation of the liver can cure the patient of cancer. The difficulty is that the methods available for screening are only partially effective, identifying at best only 50% of patients at a curable stage of their cancer. Despite the partial effectiveness of screening, most patients with cirrhosis, particularly hepatitis B and C, are screened yearly or every six months with ultrasound examination of the liver and measurements of cancer-produced proteins in the blood, for example, alpha fetoprotein.
Cirrhosis is irreversible. Many patients’ liver function will gradually worsen despite treatment and complications of cirrhosis will increase and become difficult to treat. Therefore, when cirrhosis is far advanced, liver transplantation often is the only option for treatment. Recent advances in surgical transplantation and medications to prevent infection and rejection of the transplanted liver have greatly improved survival after transplantation. On average, more than 80% of patients who receive transplants are alive after five years. Not everyone with cirrhosis is a candidate for transplantation. Furthermore, there is a shortage of livers to transplant, and there usually is a long (months to years) wait before a liver for transplanting becomes available. Therefore, measures to retard the progression of liver disease and treat and prevent complications of cirrhosis are vitally important.
What is new and in the future for cirrhosis?
Progress in the management and prevention of cirrhosis continues. Research is ongoing to determine the mechanism of scar formation in the liver and how this process of scarring can be interrupted or even reversed. Newer and better treatments for viral liver disease are being developed to prevent the progression to cirrhosis. Prevention of viral hepatitis by vaccination, which is available for hepatitis B, is being developed for hepatitis C. Treatments for the complications of cirrhosis are being developed or revised and tested continually. Finally, research is being directed at identifying new proteins in the blood that can detect liver cancer early or predict which patients will develop liver cancer.