Disease The liver is a vital organ and supports almost every other organ in the body. Severe or
end-stage liver failure has dire consequences for the body's overall health and quality of life. Visible signs of liver disease include
jaundice and
ascites.
Hepatomegaly refers to an enlarged liver and may be caused by several underlying diseases. It can be
palpated in an abdominal exam. Scarring (
fibrosis) of the liver from any cause can lead to
cirrhosis. Cirrhosis increases the resistance to blood flow in the liver, and can result in
portal hypertension.
Congested anastomoses between the
portal venous system and the systemic circulation, can be a subsequent condition. The most common chronic liver disease is
nonalcoholic fatty liver disease, which affects an estimated one-third of the world population.
Hepatitis is a common condition of inflammation of the liver. The cause is usually
viral, and the most common of these infections are
hepatitis A,
B,
C,
D, and
E. Some of these infections are
transmitted sexually or through
non-sterile needles. Inflammation can also be caused by other viruses in the family
Herpesviridae such as the
herpes simplex virus. Chronic (rather than acute) infection with hepatitis B virus or hepatitis C virus is the main cause of
liver cancer. Globally, about 248 million individuals are chronically infected with hepatitis B (with 843,724 in the U.S.), and 142 million are chronically infected with hepatitis C (with 2.7 million in the U.S.). Globally there are about 114 million and 20 million cases of hepatitis A respectively, but these generally resolve and do not become chronic. Hepatitis D virus is a "satellite" of hepatitis B virus (it can only infect in the presence of hepatitis B), and co-infects nearly 20 million people with hepatitis B, globally.
Hepatic encephalopathy is caused by an accumulation of toxins in the bloodstream that are normally removed by the liver. This condition can result in coma and or death if not treated.
Budd–Chiari syndrome is a condition caused by
blockage of the
hepatic veins (including
thrombosis) that drain the liver. It presents with the classical triad of abdominal pain,
ascites and
liver enlargement. Many diseases of the liver are accompanied by
jaundice caused by increased levels of
bilirubin in the system. The bilirubin results from the breakup of the
hemoglobin of dead red blood cells; normally, the liver removes bilirubin from the blood and excretes it through bile. Other disorders caused by excessive alcohol consumption are grouped under
alcoholic liver diseases and these include
alcoholic hepatitis,
fatty liver, and
cirrhosis. Factors contributing to the development of alcoholic liver diseases are not only the quantity and frequency of alcohol consumption, but can also include gender, genetics, and liver insult. Liver damage can also be
caused by drugs, particularly
paracetamol and drugs used to treat cancer. A rupture of the liver can be caused by a
liver shot used in combat sports.
Primary biliary cholangitis is an
autoimmune disease of the liver. It is marked by slow progressive destruction of the small
bile ducts of the liver, with the intralobular ducts (
Canals of Hering) affected early in the disease. When these ducts are damaged, bile and other toxins build up in the liver (
cholestasis) and over time damages the liver tissue in combination with ongoing immune related damage. There are also many pediatric liver diseases, including
biliary atresia,
alpha-1 antitrypsin deficiency,
alagille syndrome,
progressive familial intrahepatic cholestasis,
Langerhans cell histiocytosis and
hepatic hemangioma, a
benign tumour. It is the most common type of liver tumour, thought to be congenital. A genetic disorder causing multiple cysts to form in the liver tissue, usually in later life, and usually asymptomatic, is
polycystic liver disease. Diseases that interfere with liver function will lead to derangement of these processes. However, the liver has a great capacity to
regenerate and has a large reserve capacity. In most cases, the liver only produces symptoms after extensive damage. The bare area of the liver is a site that is vulnerable to the passing of infection from the abdominal cavity to the
thoracic cavity. Consuming
caffeine regularly may help safeguard individuals from
liver cirrhosis. Additionally, it has been shown to slow the advancement of liver disease in those already affected, lower the risk of liver fibrosis, and provide a protective benefit against liver cancer for moderate coffee drinkers. A 2017 study revealed that the positive effects of caffeine on the liver were evident regardless of the coffee preparation method.
Symptoms The classic symptoms of liver damage include the following: • Pale stools occur when
stercobilin, a brown pigment, is absent from the stool. Stercobilin is derived from bilirubin metabolites produced in the liver. • Dark urine occurs when bilirubin mixes with urine •
Jaundice (yellow skin and/or whites of the eyes) This is where
bilirubin deposits in skin, causing an intense
itch. Itching is the most common complaint by people who have liver failure. Often this itch cannot be relieved by drugs. •
Fluid accumulating in the abdomen, and
swelling of the ankles and feet occurs because the
liver fails to make albumin. • Excessive fatigue occurs from a
generalized loss of nutrients,
minerals and vitamins. •
Bruising and easy bleeding are other features of liver disease. The liver makes
clotting factors, substances which help prevent bleeding. When liver damage occurs, these factors are no longer present and severe bleeding can occur. • Pain in the upper right quadrant can result from the stretching of Glisson's capsule in conditions of
hepatitis and
pre-eclampsia.
Diagnosis The diagnosis of
liver disease is made by
liver function tests, groups of
blood tests, that can readily show the extent of liver damage. If
infection is suspected, then other
serological tests will be carried out. A physical examination of the liver can only reveal its size and any tenderness, and some form of
imaging such as an
ultrasound or
CT scan may also be needed. Sometimes a
liver biopsy will be necessary, and a tissue sample is taken through a needle inserted into the skin just below the
rib cage. This procedure may be helped by a sonographer providing ultrasound guidance to an interventional radiologist.
Liver regeneration The liver is the only human internal organ capable of natural
regeneration of lost
tissue; as little as 25% of a liver can regenerate into a whole liver. This is, however, not true regeneration but rather
compensatory growth in mammals. The lobes that are removed do not regrow and the growth of the liver is a restoration of function, not the original form. This contrasts with true regeneration where both original function and form are restored. In some other species, such as zebrafish, the liver undergoes true regeneration by restoring both shape and size of the organ. In the liver, large areas of the tissues are formed but for the formation of new cells there must be sufficient amount of material so the circulation of the blood becomes more active. This is predominantly due to the
hepatocytes re-entering the
cell cycle. That is, the hepatocytes go from the quiescent
G0 phase to the
G1 phase and undergo mitosis. This process is activated by the
p75 receptors. There is also some evidence of
bipotential stem cells, called hepatic oval cells or ovalocytes (not to be confused with oval red blood cells of
ovalocytosis), which are thought to reside in the
canals of Hering. These cells can differentiate into either
hepatocytes or
cholangiocytes. Cholangiocytes are the
epithelial lining cells of the
bile ducts. They are cuboidal epithelium in the small interlobular bile ducts, but become columnar and mucus secreting in larger bile ducts approaching the porta hepatis and the extrahepatic ducts. Research is being carried out on the use of stem cells for the generation of an
artificial liver. Scientific and medical works about liver regeneration often refer to the Greek
Titan Prometheus who was chained to a rock in the
Caucasus where, each day, his liver was devoured by an eagle, only to grow back each night. The myth suggests the
ancient Greeks may have known about the liver's remarkable capacity for self-repair.
Liver transplantation Human liver transplants were first performed by
Thomas Starzl in the
United States and
Roy Calne in
Cambridge, England in 1963 and 1967, respectively.
Liver transplantation is the only option for those with irreversible liver failure. Most transplants are done for chronic liver diseases leading to
cirrhosis, such as chronic
hepatitis C,
alcoholism, and autoimmune hepatitis. Less commonly, liver transplantation is done for
fulminant hepatic failure, in which liver failure occurs rapidly over a period of days or weeks. Liver
allografts for
transplant usually come from donors who have died from fatal
brain injury.
Living donor liver transplantation is a technique in which a portion of a living person's liver is removed (
hepatectomy) and used to replace the entire liver of the recipient. This was first performed in 1989 for pediatric liver transplantation. Only 20 percent of an adult's liver (Couinaud segments 2 and 3) is needed to serve as a liver allograft for an infant or small child. More recently, adult-to-adult liver transplantation has been done using the donor's right hepatic lobe, which amounts to 60 percent of the liver. Due to the ability of the liver to
regenerate, both the donor and recipient end up with normal liver function if all goes well. This procedure is more controversial, as it entails performing a much larger operation on the donor, and indeed there were at least two donor deaths out of the first several hundred cases. A 2006 publication addressed the problem of donor mortality and found at least fourteen cases. The risk of postoperative complications (and death) is far greater in right-sided operations than that in left-sided operations. With the recent advances of noninvasive imaging, living liver donors usually have to undergo imaging examinations for liver anatomy to decide if the anatomy is feasible for donation. The evaluation is usually performed by multidetector row
computed tomography (MDCT) and
magnetic resonance imaging (MRI). MDCT is good in vascular anatomy and volumetry. MRI is used for biliary tree anatomy. Donors with very unusual vascular anatomy, which makes them unsuitable for donation, could be screened out to avoid unnecessary operations. ==Society and culture==