Sunday, March 4, 2012

Liver disease treatment

What is the treatment for liver disease?

Cirrhosis
Each liver disease will have its own specific treatment regimen. For example, hepatitis A requires supportive care to maintain hydration while the body's immune system fights and resolves the infection. Patients with gallstones may require surgery to remove the gallbladder. Other diseases may need long-term medical care to control and minimize the consequences of their disease

In patients with cirrhosis and end-stage liver disease, medications may be required to control the amount of protein absorbed in the diet. The liver affected by cirrhosis may not be able to metabolize the waste products, resulting in elevated blood ammonia levels and hepatic encephalopathy. Low sodium diet and water pills (diuretics) may be required to minimize water retention.

In those with large amounts of ascites fluid, the excess fluid may have to be occasionally removed with a needle and syringe (paracentesis). Using local anesthetic, a needle is inserted through the abdominal wall and the fluid withdrawn.

Operations may be required to treat portal hypertension and minimize the risk of bleeding.

Liver transplantation is the final option for patients whose liver has failed.

What are the complications of liver disease?

Except for gallstone disease and some viral infections such as Hepatitis A and infectious mononucleosis, most liver diseases are managed and not cured.

Liver disease can progress to cirrhosis and liver failure. Associated complications may include increased risk of bleeding and infection, malnutrition and weight loss, and decreased cognitive function.

Some liver diseases are associated with an increased risk for developing liver cancer.

Liver cancer:: Hepatitis B and C Infection

What are liver cancer causes and risk factors?

Hepatitis B infection Hepatitis B can be caught from contaminated blood products or used needles or sexual contact but is frequent among Asian children from contamination at birth or even biting among children at play. The role of hepatitis B virus (HBV) infection in causing liver cancer is well established. Several lines of evidence point to this strong association. As noted earlier, the frequency of liver cancer relates to (correlates with) the frequency of chronic hepatitis B virus infection. In addition, the patients with hepatitis B virus who are at greatest risk for liver cancer are men with hepatitis B virus cirrhosis (scarring of the liver) and a family history of liver cancer. Perhaps the most convincing evidence, however, comes from a prospective (looking forward in time) study done in the 1970s in Taiwan involving male government employees over the age of 40. In this study, the investigators found that the risk of developing liver cancer was 200 times higher among employees who had chronic hepatitis B virus as compared to employees without chronic hepatitis B virus infection.

Studies in animals also have provided evidence that hepatitis B virus can cause liver cancer. For example, we have learned that liver cancer develops in other mammals that are naturally infected with viruses related to the hepatitis B virus. Finally, by infecting transgenic mice with certain parts of the hepatitis B virus, scientists caused liver cancer to develop in mice that do not usually develop liver cancer. (Transgenic mice are mice that have been injected with new or foreign genetic material.)

How does chronic hepatitis B virus cause liver cancer? In patients with both chronic hepatitis B virus and liver cancer, the genetic material of hepatitis B virus is frequently found to be part of the genetic material of the cancer cells. It is thought, therefore, that specific regions of the hepatitis B virus genome (genetic code) enter the genetic material of the liver cells. This hepatitis B virus genetic material may then disrupt the normal genetic material in the liver cells, thereby causing the liver cells to become cancerous.

 The vast majority of liver cancer that is associated with chronic hepatitis B virus occurs in individuals who have been infected most of their lives. In areas where hepatitis B virus is not always present (endemic) in the community (for example, the U.S.), liver cancer is relatively uncommon. The reason for this is that most of the people with chronic hepatitis B virus in these areas acquired the infection as adults, and very few develop an ongoing (chronic active) infection, which happens as often as 15% of the time in Asia.

 Hepatitis C infection

 Hepatitis C virus (HCV) infection is more difficult to get than hepatitis B. It usually requires direct contact with infected blood, either from contaminated blood products or needles. HCV is also associated with the development of liver cancer. In fact, in Japan, hepatitis C virus is present in up to 75% of cases of liver cancer. As with hepatitis B virus, the majority of hepatitis C virus patients with liver cancer have associated cirrhosis (liver scarring). In several retrospective-prospective studies (looking backward and forward in time) of the natural history of hepatitis C, the average time to develop liver cancer after exposure to hepatitis C virus was about 28 years. The liver cancer occurred about eight to 10 years after the development of cirrhosis in these patients with hepatitis C. Several prospective European studies report that the annual incidence (occurrence over time) of liver cancer in cirrhotic hepatitis C virus patients ranges from 1.4%-2.5% per year.

 In hepatitis C virus patients, the risk factors for developing liver cancer include the presence of cirrhosis, older age, male gender, elevated baseline alpha-fetoprotein level (a blood tumor marker), alcohol use, and co-infection with hepatitis B virus. Some earlier studies suggested that hepatitis C virus genotype 1b (a common genotype in the U.S.) may be a risk factor, but more recent studies do not support this finding.

 The way in which hepatitis C virus causes liver cancer is not well understood. Unlike hepatitis B virus, the genetic material of hepatitis C virus is not inserted directly into the genetic material of the liver cells. It is known, however, that cirrhosis from any cause is a risk factor for the development of liver cancer. Therefore, it has been argued that hepatitis C virus, which causes cirrhosis of the liver, is an indirect cause of liver cancer.

On the other hand, there are some chronic hepatitis C virus-infected individuals who have liver cancer without cirrhosis. So, it has been suggested that the core (central) protein of hepatitis C virus is the culprit in the development of liver cancer. The core protein itself (a part of the hepatitis C virus) is thought to impede the natural process of cell death or interfere with the function of a normal tumor suppressor (inhibitor) gene (the p53 gene). The result of these actions is that the liver cells go on living and reproducing without the normal restraints, which is what happens in cancer.

Alcohol

Cirrhosis caused by chronic alcohol consumption is the most common association of liver cancer in the developed world. In fact, at autopsy, as many as half of alcoholics previously unsuspected to have cancer will have early evidence of cancer hidden within the liver. Many of these people are also infected with chronic hepatitis C virus. The usual setting is an individual with alcoholic cirrhosis who has stopped drinking for 10 years and then develops liver cancer. It is somewhat unusual for an actively drinking alcoholic to develop liver cancer. What happens is that when the drinking is stopped, the liver cells try to heal by regenerating (reproducing). It is during this active regeneration that a cancer-producing genetic change (mutation) can occur, which explains the occurrence of liver cancer after the drinking has been stopped.

 More importantly, if an alcoholic does not stop drinking, he or she is unlikely to live long enough to develop the cancer. Alcoholics who are actively drinking are more likely to die from non-cancer related complications of alcoholic liver disease (for example, liver failure). Indeed, patients with alcoholic cirrhosis who die of liver cancer are about 10 years older than patients who die of non-cancer causes. Finally, as noted above, alcohol adds to the risk of developing liver cancer in patients with chronic hepatitis C virus or hepatitis B virus infections.

 Aflatoxin B1

 Aflatoxin B1 is the most potent liver cancer-forming chemical known. It is a product of a mold called Aspergillus flavus, which is found in food that has been stored in a hot and humid environment. This mold is found in such foods as peanuts, rice, soybeans, corn, and wheat.
Aflatoxin B1 has been implicated in the development of liver cancer in Southern China and sub-Saharan Africa. It is thought to cause cancer by producing changes (mutations) in the p53 gene. These mutations work by interfering with the gene's important tumor suppressing (inhibiting) functions.

Drugs, medications, and chemicals

There are no medications that cause liver cancer, but female hormones (estrogens) and protein-building (anabolic) steroids are associated with the development of hepatic adenomas. These are benign liver tumors that may have the potential to become malignant (cancerous). Thus, in some individuals, hepatic adenoma can evolve into cancer.

Certain chemicals are associated with other types of cancers found in the liver. For example, thorotrast, a previously used contrast agent for diagnostic imaging studies, caused a cancer of the blood vessels in the liver called hepatic angiosarcoma. Also, vinyl chloride, a compound used in the plastics industry, can cause hepatic angiosarcomas that appear many years after the exposure.

Hemochromatosis

Liver cancer will develop in up to 30% of patients with hereditary hemochromatosis (a disorder in which there is too much iron stored in the body, including in the liver). Patients at the greatest risk are those who develop cirrhosis with their hemochromatosis. Unfortunately, once cirrhosis is established, effective removal of excess iron (the treatment for hemochromatosis) will not reduce the risk of developing liver cancer.

 Diabetes and obesity

Over the past decade, the incidence of liver cancer in the United States has risen significantly, paralleling the rise in obesity. Although it is hard to separate the effects of diabetes from obesity on the liver, both conditions can cause chronic damage and accumulation of fat within the liver.. This is a disease called NASH (non-alcoholic steatohepatitis), which is present in up to 5% of North Americans. Fatty liver disease like this causes damage to the individual liver cells and may lead to cirrhosis in some people, thereby increasing the risk of liver cancer. Not only is the chance of developing the cancer enhanced, but patients with diabetes who undergo surgical removal of liver cancer have a higher chance of the cancer returning than do those without diabetes.

Cirrhosis

Individuals with most types of cirrhosis of the liver are at an increased risk of developing liver cancer. In addition to the conditions described above (hepatitis B, hepatitis C, alcohol, and hemochromatosis), alpha 1 anti-trypsin deficiency, a hereditary condition that can cause emphysema and cirrhosis, may lead to liver cancer. Liver cancer is also strongly associated with hereditary tyrosinemia, a childhood biochemical abnormality that results in early cirrhosis.

Certain causes of cirrhosis are less frequently associated with liver cancer than are other causes. For example, liver cancer is rarely seen with the cirrhosis in Wilson's disease (abnormal copper metabolism) or primary sclerosing cholangitis (chronic scarring and narrowing of the bile ducts). It used to be thought that liver cancer is rarely found in primary biliary cirrhosis (PBC) as well. Recent studies, however, show that the frequency of liver cancer in PBC is comparable to that in other forms of cirrhosis.

Overcome liver disease:: What are symptoms and signs

What are liver cancer symptoms and signs?

The initial symptoms of liver cancer are variable. It is becoming much more common for patients to be identified by screening people at high risk for the cancer and finding the cancer before there are any symptoms at all. In countries where liver cancer is very common, the cancer generally is discovered at a very advanced stage of disease for several reasons. For one thing, areas where there is a high frequency of liver cancer are generally developing countries where access to health care is limited. For another, screening examinations for patients at risk for developing liver cancer are not available in these areas. In addition, patients from these regions may actually have more aggressive liver cancer disease. In other words, the tumor usually reaches an advanced stage and causes symptoms more rapidly. In contrast, patients in areas of low liver cancer frequency tend to have liver cancer tumors that progress more slowly and, therefore, remain without symptoms longer.

There are no specific symptoms of liver cancer, and in fact, the earliest signs are usually subtle and can be mistaken for simple worsening of cirrhosis and liver function. Abdominal pain is uncommon with liver cancer and usually signifies a very large tumor or widespread involvement of the liver. Additionally, unexplained weight loss or unexplained fevers are warning signs of liver cancer in patients with cirrhosis. These symptoms are less common in individuals with liver cancer in the U.S. because these patients are usually diagnosed at an earlier stage. However, whenever the overall health of a patient with cirrhosis deteriorates, every effort should be made to look for liver cancer.

A common initial presentation of liver cancer in a patient with compensated cirrhosis (meaning that there are no complications of liver disease) is the sudden onset of a complication. For example, the sudden appearance of ascites (abdominal fluid and swelling), jaundice (yellow color of the skin), or muscle wasting without causative (precipitating) factors (for example, alcohol consumption) suggests the possibility of liver cancer. What's more, the cancer can invade and block the portal vein (a large vein that brings blood to the liver from the intestine and spleen). When this happens, the blood will travel paths of less resistance, such as through esophageal veins. This causes increased pressure in these veins, which results in dilated (widened) veins called esophageal varices. The patient then is at risk for hemorrhage from the rupture of the varices into the gastrointestinal tract. Rarely, the cancer itself can rupture and bleed into the abdominal cavity, resulting in bloody ascites.

On physical examination, an enlarged, sometimes tender, liver is the most common finding. Liver cancers are very vascular (containing many blood vessels) tumors. Thus, increased amounts of blood feed into the hepatic artery (artery to the liver) and cause turbulent blood flow in the artery. The turbulence results in a distinct sound in the liver (hepatic bruit) that can be heard with a stethoscope in about one-quarter to one-half of patients with liver cancer. Any sign of advanced liver disease (for example, ascites, jaundice, or muscle wasting) means a poor prognosis. Rarely, a patient with liver cancer can become suddenly jaundiced when the tumor erodes into the bile duct. The jaundice occurs in this situation because both sloughing of the tumor into the duct and bleeding that clots in the duct can block the duct.

In advanced liver cancer, the tumor can spread locally to neighboring tissues or, through the blood vessels, elsewhere in the body (distant metastasis). Locally, liver cancer can invade the veins that drain the liver (hepatic veins). The tumor can then block these veins, which results in congestion of the liver. The congestion occurs because the blocked veins cannot drain the blood out of the liver. (Normally, the blood in the hepatic veins leaving the liver flows through the inferior vena cava, which is the largest vein that drains into the heart.) In African patients, the tumor frequently blocks the inferior vena cava. Blockage of either the hepatic veins or the inferior vena cava results in a very swollen liver and massive formation of ascites. In some patients, as previously mentioned, the tumor can invade the portal vein and lead to the rupture of esophageal varices.

Regarding distant metastases, liver cancer frequently spreads to the lungs, presumably by way of the bloodstream. Usually, patients do not have symptoms from the lung metastases, which are diagnosed by radiologic (X-ray) studies. Rarely, in very advanced cases, liver cancer can spread to the bone or brain. These are an infrequent problem in many patients who do not live long enough to develop these complications.

Overcome liver disease:: The cause of liver disease

What are the causes of liver disease?

The liver can be damaged in a variety of ways.
  • Cells can become inflamed (such as in hepatitis: hepar=liver + itis=inflammation).
  • Bile flow can be obstructed (such as in cholestasis: chole=bile + stasis=standing).
  • Cholesterol or triglycerides can accumulate (such as in steatosis; steat=fat + osis=accumulation).
  • Blood flow to the liver may be compromised. 
  • Liver tissue can be damaged by chemicals and minerals, or infiltrated by abnormal cells.
Alcohol abuse

Alcohol abuse is the most common cause of liver disease in North America. Alcohol is directly toxic to liver cells and can cause liver inflammation, referred to as alcoholic hepatitis. In chronic alcohol abuse, fatty accumulation (steatosis) occurs in liver cells causing the cells to malfunction.

Cirrhosis

Cirrhosis is a late-stage liver disease. Scarring of the liver and loss of functioning liver cells cause the liver to fail.

Drug-induced liver disease

Liver cells may become temporarily inflamed or permanently damaged by exposure to medications or drugs. Some medications or drugs require an overdose to cause liver injury while others may cause the damage even when taken in the appropriately prescribed dosage.

Taking excess amounts of acetaminophen (Tylenol, Panadol) can cause liver failure that is permanent. This is the reason that warning labels exist on many over-the-counter medications that contain acetaminophen and why prescription narcotic-acetaminophen combination medications (for example, Vicodin, Lortab, Norco, Tylenol #3) limit the numbers of tablets to be taken in a day.

Statin medications are commonly prescribed to control elevated blood levels of cholesterol. Even when taken in the appropriately prescribed dose, liver inflammation may occur and can be detected by blood tests that measure liver enzymes. Stopping the medication usually results in return of the liver function to normal.

Niacin is another medication used to control elevated blood levels of cholesterol, but liver inflammation for this medication is related to the dose taken. Similarly, patients with underlying liver disease may be at higher risk of developing liver disease due medications such as niacin.

There are numerous other medications that may cause liver inflammation, most of which will resolve when the medication is stopped. These include antibiotics such as nitrofurantoin (Macrodantin, Furadantin, Macrobid), amoxicillin and clavulanic acid (Augmentin, Augmentin XR), tetracycline (Sumycin), and isoniazid (INH, Nydrazid, Laniazid). Methotrexate (Rheumatrex, Trexall), a drug used to treat autoimmune disorders and cancers, has a variety of side effects including liver inflammation that can lead to cirrhosis. Disulfiram (Antabuse) used to treat alcoholics and can cause liver inflammation.

Some herbal remedies and excessive amounts of vitamins can cause hepatitis, cirrhosis and liver failure. Examples include vitamin A, kava kava, ma-huang, and comfrey.

Many mushrooms are poisonous to the liver and eating unidentified mushrooms gathered in the woods can be lethal.

Infectious hepatitis

The term "hepatitis" means inflammation, and liver cells can become inflamed because of infection.

  1. Hepatitis A is a viral infection that is caused primarily through the fecal-oral route when small amounts of infected fecal matter are inadvertently ingested. Hepatitis A causes an acute inflammation of the liver which generally resolves spontaneously. The hepatitis A vaccine can prevent this infection. 
  2. Hepatitis B is spread by exposure to body fluids (needles from drug abusers, contaminated blood, and sexual contact) and can cause an acute infection, but can also progress to cause chronic inflammation (chronic hepatitis) that can lead to cirrhosis and liver cancer. The hepatitis B vaccine prevents this infection. 
  3. Hepatitis C causes chronic hepatitis. An infected individual may not recall any acute illness. Hepatitis C is spread by exposure to body fluids (needles from drug abusers, contaminated blood, and sexual contact). Chronic hepatitis C may lead to cirrhosis and liver cancer. At present, there is no vaccine against this virus. 
  4. Hepatitis D is a virus that requires concomitant infection with hepatitis B to survive, and is spread via body fluid exposure (needles from drug abusers, contaminated blood, and sexual contact). 
  5.  Hepatitis E is a virus that is spread via contaminated food and water exposure.
Other viruses

Other viruses can also cause liver inflammation or hepatitis as part of the cluster of symptoms. Viral infections with infectious mononucleosis (Epstein Barr virus), adenovirus, and cytomegalovirus can inflame the liver. Non-viral infections such as toxoplasmosis and Rocky Mountain spotted fever are less common
causes.

Non-Alcoholic fatty liver disease

Accumulation of fat within the liver can cause gradual decrease in liver function. Also known as nonalcoholic steatohepatitis, fatty liver disease, or NASH.

Hemochromatosis

Hemachromatosis (iron overload) is a metabolic disorder that leads to abnormally elevated iron stores in the body. The excess iron may be found in the tissues of the liver, pancreas, and heart and can lead to inflammation, cirrhosis, liver cancer, and liver failure. Hemachromatosis is an inherited disease.

Wilson's Disease

Wilson's disease is another inherited disease that affects the body's ability to metabolize copper. Wilson's disease may lead to cirrhosis and liver failure.

Gilbert's Disease

In Gilbert's disease, there is an abnormality in bilirubin metabolism in the liver. It is a common disease that affects up to 7% of the North American population. There are no symptoms and it is usually diagnosed incidentally when an elevated bilirubin level is found on routine blood tests. Gilbert's disease is a benign condition and no treatment is necessary.

Cancers

Primary cancers of the liver arise from liver structures and cells. Two examples include hepatocellular carcinoma and cholangiocarcinoma.

Metastatic cancer (secondary cancer of the liver) begins in another organ and spreads to the liver, usually through the blood stream. Common cancers that spread to the liver begin in the lung, breast, large intestine, stomach, and pancreas. Leukemia and Hodgkin's lymphoma may also involve the liver.

Blood flow abnormalities

Budd Chiari syndrome is a disease in which blood clots form in the hepatic vein and prevent blood from leaving the liver. This can increase portal vein pressure and lead to cirrhosis and liver failure. Causes of Budd Chiari syndrome include polycythemia (elevated red blood cell count), inflammatory bowel diseases, sickle cell disease, and pregnancy.

Congestive heart failure, where fluid and blood backs up in the large veins of the body can cause liver swelling and inflammation.

Bile flow abnormalities

Normally, bile flows from the liver into the gallbladder and ultimately into the intestine to help with the digestion of food. If bile flow is obstructed, it can cause inflammation within the liver. Most commonly, gallstones can cause an obstruction of the ducts that drains bile from the liver.

Abnormalities of the opening of the bile duct into the intestine (sphincter of Oddi) can lead to abnormalities of bile flow. The sphincter of Oddi acts as a "valve" that allows bile to flow from the common bile duct into the intestine.

Primary biliary cirrhosis and primary sclerosing cholangitis can lead to progressive scarring of the bile ducts, causing them to become narrow, which results in reduced bile flow through the liver. Eventually, damage and scarring of the liver architecture causes liver failure to develop.

Other diseases and conditions

Conditions such as portal hypertension (increased blood pressure within the portal vein), abnormal blood clotting, and hepatic encephalopathy (abnormal brain function due to elevated levels of ammonia in the blood stream).

Overcome liver disease:: What is liver disease

What is liver disease?

Liver disease is any disturbance of liver function that causes illness. The liver is responsible for many critical functions within the body and should it become diseased or injured, the loss of those functions can cause significant damage to the body. Liver disease is also referred to as hepatic disease.

Liver disease is a broad term that covers all the potential problems that may occur to cause the liver to fail to perform its designated functions. Usually, more than 75% or three quarters of liver tissue needs to be affected before decrease in function occurs.

The liver the largest solid organ in the body; and is also considered a gland because among its many functions, it makes and secretes bile. The liver is located in the upper right portion of the abdomen protected by the rib cage. It has two main lobes that are made up of tiny lobules. The liver cells have two different sources of blood supply. The hepatic artery supplies oxygen rich blood that is pumped from the heart, while the portal vein supplies nutrients from the intestine and the spleen.

Normally, veins return blood from the body to the heart, but the portal vein allows chemicals from the digestive tract to enter the liver for "detoxification" and filtering prior to entering the general circulation. The portal vein also efficiently delivers the chemicals and proteins that liver cells need to produce the proteins, cholesterol, and glycogen required for normal body activities.

As part of its function, the liver makes bile, a fluid that contains among other substances, water, chemicals, and bile acids (made from stored cholesterol in the liver). Bile is stored in the gallbladder and when food enters the duodenum (the first part of the small intestine), bile is secreted into the duodenum, to aid in digestion of food.

The liver is the only organ in the body that can easily replace damaged cells, but if enough cells are lost, the liver may not be able to meet the needs of the body.

The liver can be considered a factory; and among its many functions include the:
  • Production of bile that is required in the digestion of food, in particular fats; 
  • Conversion of the extra glucose in the body into stored glycogen in liver cells; and then converting it back into glucose when the need arises; 
  • Production of blood clotting factors; 
  • Production of amino acids (the building blocks for making proteins), including those used to help fight infection;
  • The processing and storage iron necessary for red blood cell production; 
  • Manufacture of cholesterol and other chemicals required for fat transport;
  • Conversion of waste products of body metabolism into urea that is excreted in the urine; and 
  • Metabolization medications into their active ingredient in the body.
Cirrhosis is a term that describes permanent scarring of the liver. Normal liver cells are replaced by scar tissue that cannot perform any liver function.

Acute liver failure may or may not be reversible, meaning that is there is a treatable cause and the liver is able to recover and resume its normal functions.

Overcome and risk factors for liver disease

What are the risk factors for liver disease?
  • Some liver diseases are potentially preventable and are associated with lifestyle choices. Hepatitis B and C are viral infections that are most often spread through the exchange of bodily fluids (for example, unprotected sexual intercourse, sharing unsterilized drug injecting equipment, using non-sterilized equipment for tattoos or body piercing). Alcohol related liver disease is due to excessive consumption of alcohol. 
  •  Hereditary liver disease can be passed genetically from generation to generation. Examples include Wilson's disease and hemochromatosis. 
  • Chemical exposure may be toxic to the liver by irritating the liver cells causing inflammation (hepatitis), decreasing bile flow through the liver (cholestasis) and accumulation of triglycerides (steatosis). Chemicals such as anabolic steroids and vinyl chloride can cause liver cancers.
  • Acetaminophen (Tylenol) overdose is a common cause of liver failure. It is important to review the dosing guidelines for all over-the-counter medications and to ask for guidance from your health care professional or pharmacist as to how much may be taken safely.
  • Medications may irritate the blood vessels causing narrowing or formation blood clots (thrombosis). Birth control pills may cause hepatic vein thrombosis, especially in smokers.

What are the symptoms of liver disease?

 Classic symptoms of liver disease include:
  • nausea,
  • vomiting,
  • right upper quadrant abdominal pain, and 
  • jaundice (a yellow discoloration of the skin due to elevated bilirubin concentrations in the bloodstream).

Fatigue, weakness and weight loss may also be occur.

However, since there are a variety of liver diseases, the symptoms tend to be specific for that illness until late-stage liver disease and liver failure occurs.

Examples of liver disease symptoms due to certain conditions or diseases include:
  • A person with gallstones may experience right upper abdominal pain and vomiting after eating a greasy (fatty) meal. If the gallbladder becomes infected, fever may occur. 
  • Gilbert's disease have no symptoms. 
  • Individuals with cirrhosis will develop progressive symptoms as the liver fails. Some symptoms are directly related to the inability of the liver to metabolize the body's waste products. Others reflect the failure of the liver to manufacture proteins required for body function and may affect blood clotting function, secondary sex characteristics and brain function. 
Symptoms of cirrhosis of the liver include:
  1. Easy bruising may occur due to decreased production of clotting factors; 
  2. Bile salts can deposit in the skin causing itching;
  3. Gynecomastia or enlarged breasts in men may occur because of an imbalance in sex hormones; specifically an increase in estradiol;
  4. Impotence (erectile dysfunction, ED), poor sex drive and shrinking testicles are due to decrease in function of sex hormones;
  5. Confusion and lethargy may occur if ammonia levels rise in the blood stream (ammonia is a waste product formed from protein metabolism and requires normal liver cells to remove it); 
  6. Ascites (fluid accumulation within the abdominal cavity) occurs because of decreased protein production; and 
  7. Muscle wasting may occur because of reduced protein production. 
Additionally, there is increased pressure within the cirrhotic liver affecting blood flow through the liver. Increased pressure in the portal vein causes blood flow to the liver to slow and blood vessels to swell. Swollen veins (varices) form around the stomach and esophagus and are at risk for bleeding.

Overcome and prevented of liver disease

Can liver disease be prevented?
  • Alcohol abuse is the most common cause of liver disease in North America. Consuming alcohol in moderation may help minimize the risk of alcohol-related liver disease.
  • The risk of contracting Hepatitis B and C can be decreased by minimizing the risk of exposure to other person's bodily fluids.
  • Vaccination is available for Hepatitis A and B.
  • Fatty liver disease is a preventable illness with the promotion of a healthy lifestyle including a well balanced diet, weight control, avoiding excess alcohol consumption and routine exercise program. These lifestyle modifications do not guarantee success in disease prevention in that some people will develop fatty liver disease anyway.
What is the outlook for a patient with liver disease?

The outlook and outcome for a patient depends upon the underlying diagnosis. Interestingly, in patients with cirrhosis, there may be little correlation between the amount of damage found on liver biopsy and the ultimate outcome. A patient may never develop symptoms and have a normal life-span or may develop significant symptoms.

Liver Disease At A Glance
  • The liver has an important role in many bodily functions from protein production and blood clotting to cholesterol, glucose and iron metabolism.
  • A variety of illnesses can affect the liver.
  • Cirrhosis occurs when normal liver cells are replaced by scar tissue as a result of chronic liver disease.
  • Symptoms of liver diseases include weakness and fatigue, weight loss, nausea, vomiting, and yellow discoloration of the skin (jaundice).
  • The treatment of a particular liver disease depends on its specific cause.

 REFERENCES: Fauci, Anthony S., et al. Harrison's Principles of Internal Medicine. 17th ed. United States: McGraw-Hill Professional, 2008. National Digestive Diseases Information Clearinghouse, National Institute of Diabetes and Digestive and Kidney Diseases. "Liver." Last Editorial Review: 1/29/2010