Cirrhosis, also known as liver cirrhosis or hepatic cirrhosis, is a condition in which the liver does not function properly due to long-term damage. This damage is characterized by the replacement of normal liver tissue by scar tissue. Typically, the disease develops slowly over months or years. Early on, there are often no symptoms. As the disease worsens, a person may become tired, weak, itchy, have swelling in the lower legs, develop yellow skin, bruise easily, have fluid build up in the abdomen, or develop spider-like blood vessels on the skin. The fluid build-up in the abdomen may become spontaneously infected. Other serious complications include hepatic encephalopathy, bleeding from dilated veins in the esophagus or dilated stomach veins, and liver cancer. Hepatic encephalopathy results in confusion and may lead to unconsciousness.
|Other names||Cirrhosis of the liver, hepatic cirrhosis|
|The abdomen of a person with cirrhosis showing massive fluid buildup and very visible veins|
|Symptoms||Tired, itchy, swelling in the lower legs, yellow skin, easily bruise, fluid build up in the abdomen|
|Complications||Spontaneous bacterial peritonitis, hepatic encephalopathy, dilated veins in the esophagus, liver cancer|
|Usual onset||Over months or years|
|Causes||Alcohol, hepatitis B, hepatitis C, non-alcoholic fatty liver disease|
|Diagnostic method||Blood tests, medical imaging, liver biopsy|
|Prevention||Vaccination (such as hepatitis B), avoiding alcohol|
|Treatment||Depends on underlying cause|
|Frequency||2.8 million (2015)|
|Deaths||1.3 million (2015)|
Cirrhosis is most commonly caused by alcohol, hepatitis B, hepatitis C, and non-alcoholic fatty liver disease. Typically, more than two or three alcoholic drinks per day over a number of years is required for alcoholic cirrhosis to occur. Non-alcoholic fatty liver disease has a number of causes, including being overweight, diabetes, high blood fats, and high blood pressure. A number of less common causes of cirrhosis include autoimmune hepatitis, primary biliary cholangitis, hemochromatosis, certain medications, and gallstones. Diagnosis is based on blood testing, medical imaging, and liver biopsy.
Some causes of cirrhosis, such as hepatitis B, can be prevented by vaccination. Treatment partly depends on the underlying cause, but the goal is often to prevent worsening and complications. Avoiding alcohol is recommended in all cases of cirrhosis. Hepatitis B and C may be treatable with antiviral medications. Autoimmune hepatitis may be treated with steroid medications. Ursodiol may be useful if the disease is due to blockage of the bile ducts. Other medications may be useful for complications such as abdominal or leg swelling, hepatic encephalopathy, and dilated esophageal veins. In severe cirrhosis, a liver transplant may be an option.
Cirrhosis affected about 2.8 million people and resulted in 1.3 million deaths in 2015. Of these deaths, alcohol caused 348,000, hepatitis C caused 326,000, and hepatitis B caused 371,000. In the United States, more men die of cirrhosis than women. The first known description of the condition is by Hippocrates in the 5th century BCE. The word cirrhosis is from Greek: κίρρωσις; kirrhos κιρρός "yellowish" and -osis (-ωσις) meaning "condition", describing the appearance of a cirrhotic liver.
Signs and symptomsEdit
Cirrhosis has many possible manifestations. These signs and symptoms may be either a direct result of the failure of liver cells, or secondary to the resultant portal hypertension. There are also some manifestations whose causes are nonspecific but which may occur in cirrhosis. Likewise, the absence of any signs does not rule out the possibility of cirrhosis. Cirrhosis of the liver is slow and gradual in its development. It is usually well advanced before its symptoms are noticeable enough to cause alarm. Weakness and loss of weight may be early symptoms.
The following features are as a direct consequence of liver cells not functioning.
- Spider angiomata or spider nevi are vascular lesions consisting of a central arteriole surrounded by many smaller vessels (hence the name "spider") and occur due to an increase in estradiol. One study found that spider angiomata occur in about 1/3 of cases.
- Palmar erythema is a reddening of palms at the thenar and hypothenar eminences also as a result of increased estrogen.
- Gynecomastia, or increase in breast gland size in men that is not cancerous, is caused by increased estradiol and can occur in up to 2/3 of patients. This is different from increase in breast fat in overweight people.
- Hypogonadism, a decrease in male sex hormones may manifest as impotence, infertility, loss of sexual drive, and testicular atrophy, and can result from primary gonadal injury or suppression of hypothalamic/pituitary function. Hypogonadism is associated with cirrhosis due to alcoholism or hemochromatosis.
- Liver size can be enlarged, normal, or shrunken in people with cirrhosis.
- Ascites, accumulation of fluid in the peritoneal cavity (space in the abdomen), gives rise to "flank dullness". This may be visible as an increase in abdominal girth.
- Fetor hepaticus is a musty breath odor resulting from increased dimethyl sulfide.
- Jaundice, or icterus is yellow discoloration of the skin and mucous membranes, (with the white of the eye being especially noticeable) due to increased bilirubin (at least 2–3 mg/dl or 30 µmol/l). The urine may also appear dark.
Liver cirrhosis increases resistance to blood flow and leads to higher pressure in the portal venous system, resulting in portal hypertension. Effects of portal hypertension include:
- Splenomegaly (increase in size of the spleen) is found in 35% to 50% of patients.
- Esophageal varices result from collateral portal blood flow through vessels in the stomach and esophagus (a process called portacaval anastomosis). When these blood vessels become enlarged, they are called varices and are more likely to rupture. Variceal rupture often leads to severe bleeding, which can prove fatal.
- Caput medusa are dilated periumbilical collateral veins due to portal hypertension. Blood from the portal venous system may be shunted through the periumbilical veins and ultimately to the abdominal wall veins, manifesting as a pattern that may resemble the head of Medusa.
- Cruveilhier-Baumgarten bruit is a venous hum heard in the epigastric region (on examination by stethoscope) due to collateral connections forming between the portal system and the periumbilical veins as a result of portal hypertension.
There are some changes seen in cirrhosis whose causes are not clearly known. They may also be a sign of other non-liver related causes.
- Nail changes.
- Muehrcke's lines – paired horizontal bands separated by normal color resulting from hypoalbuminemia (inadequate production of albumin). It is not specific for cirrhosis.
- Terry's nails – proximal two-thirds of the nail plate appears white with distal one-third red, also due to hypoalbuminemia
- Clubbing – angle between the nail plate and proximal nail fold > 180 degrees. It is not specific for cirrhosis and can therefore can be due to a number of conditions
- Hypertrophic osteoarthropathy. Chronic proliferative periostitis of the long bones that can cause considerable pain. It is not specific for cirrhosis.
- Dupuytren's contracture. Thickening and shortening of palmar fascia (tissue on the palm of the hands) that leads to flexion deformities of the fingers. Caused by fibroblastic proliferation (increased growth) and disorderly collagen deposition. It is relatively common (33% of patients).
- Other. Weakness, fatigue, anorexia, weight loss.
As the disease progresses, complications may develop. In some people, these may be the first signs of the disease.
- Bruising and bleeding resulting from decreased production of coagulation factors.
- Hepatic encephalopathy – the liver does not clear ammonia and related nitrogenous substances from the blood, which are carried to the brain, affecting cerebral functioning: neglect of personal appearance, unresponsiveness, forgetfulness, trouble concentrating, changes in sleep habits or psychosis may result. This can be seen on exam by asterixis, which is bilateral asynchronous flapping of outstretched, dorsiflexed hands seen in patients with hepatic encephalopathy.
- Sensitivity to medication caused by decreased metabolism of the active compounds.
- Acute kidney injury (particularly hepatorenal syndrome)
Liver cirrhosis has many possible causes; sometimes more than one cause is present in the same person. Globally, 57% of cirrhosis is attributable to either hepatitis B (30%) or hepatitis C (27%). Alcohol consumption is another major cause, accounting for about 20% of the cases.
- Alcoholic liver disease (ALD). Alcoholic cirrhosis develops for 10–20% of individuals who drink heavily for a decade or more. Alcohol seems to injure the liver by blocking the normal metabolism of protein, fats, and carbohydrates. This injury happens through the formation of acetaldehyde from alcohol which itself is reactive, but which also leads to the accumulation of other reactive products in the liver. Patients may also have concurrent alcoholic hepatitis with fever, hepatomegaly, jaundice, and anorexia. AST and ALT blood levels are both elevated, but at less than 300 IU/liter, with an AST:ALT ratio > 2.0, a value rarely seen in other liver diseases. In the United States, 40% of cirrhosis-related deaths are due to alcohol.
- Non-alcoholic steatohepatitis (NASH). In NASH, fat builds up in the liver and eventually causes scar tissue. This type of hepatitis appears to be associated with obesity (40% of NASH patients) diabetes, protein malnutrition, coronary artery disease, and treatment with steroid medications. This disorder is similar in it signs to alcoholic liver disease, but the patient does not have an alcohol history. A biopsy is needed for diagnosis.
- Chronic hepatitis C. Infection with the hepatitis C virus causes inflammation of the liver and a variable grade of damage to the organ. Over several decades, this inflammation and damage can lead to cirrhosis. Among patients with chronic hepatitis C, 20–30% will develop cirrhosis. Cirrhosis caused by hepatitis C and alcoholic liver disease are the most common reasons for liver transplant.
- Chronic hepatitis B. The hepatitis B virus causes liver inflammation and injury that over several decades can lead to cirrhosis. Hepatitis D is dependent on the presence of hepatitis B and accelerates cirrhosis in co-infection.
- Primary biliary cholangitis (also known as primary biliary cirrhosis). The bile ducts become damaged by an autoimmune process, leading to secondary liver damage. Patients may be asymptomatic or have fatigue, pruritus, and non-jaundice skin hyperpigmentation with hepatomegaly. There is prominent alkaline phosphatase elevation as well as elevations in cholesterol and bilirubin and usually positive anti-mitochondrial antibodies.
- Primary sclerosing cholangitis. PSC is a progressive cholestatic disorder presenting with pruritus, steatorrhea, fat-soluble vitamin deficiencies, and metabolic bone disease. There is a strong association with inflammatory bowel disease (IBD), especially ulcerative colitis.
- Autoimmune hepatitis. This disease is caused by an attack of the liver by lymphocytes, causing inflammation and eventually scarring and cirrhosis. Findings include elevations in serum globulins, especially gamma globulins.
- Hereditary hemochromatosis. Usually presents with a family history of cirrhosis, skin hyperpigmentation, diabetes mellitus, pseudogout, or cardiomyopathy, all due to signs of iron overload.
- Wilson's disease. Autosomal recessive disorder characterized by low serum ceruloplasmin and increased hepatic copper content on liver biopsy and elevated 24-hour urine copper. May also have Kayser-Fleischer rings in the cornea and altered mental status.
- Indian childhood cirrhosis is a form of neonatal cholestasis characterized by deposition of copper in the liver.
- Alpha 1-antitrypsin deficiency (A1AD). Autosomal recessive disorder of decreased levels of the enzyme alpha 1—antitrypsin.
- Cardiac cirrhosis. Due to chronic right sided heart failure, which leads to liver congestion.
- Glycogen storage disease type IV
- Cystic fibrosis
- Hepatotoxic drugs or toxins
The liver plays a vital role in synthesis of proteins (for example, albumin, clotting factors and complement), detoxification, and storage (for example, vitamin A). In addition, it participates in the metabolism of lipids and carbohydrates.
Cirrhosis is often preceded by hepatitis and fatty liver (steatosis), independent of the cause. If the cause is removed at this stage, the changes are fully reversible.
The pathological hallmark of cirrhosis is the development of scar tissue that replaces normal parenchyma. This scar tissue blocks the portal flow of blood through the organ, raising the blood pressure and disturbing normal function. Recent research shows the pivotal role of the stellate cell, a cell type that normally stores vitamin A, in the development of cirrhosis. Damage to the hepatic parenchyma (due to inflammation) leads to activation of stellate cells, which increases fibrosis (through production of myofibroblasts) and obstructs hepatic blood flow. In addition, stellate cells secrete TGF-β1, which leads to a fibrotic response and proliferation of connective tissue. Furthermore, it secretes TIMP 1 and 2, naturally occurring inhibitors of matrix metalloproteinases, which prevents them from breaking down the fibrotic material in the extracellular matrix.
As this cascade of processes continues, fibrous tissue bands (septa) separate hepatocyte nodules, which eventually replace the entire liver architecture, leading to decreased blood flow throughout. The spleen becomes congested, which leads to hypersplenism and the spleen's retention of platelets, which are needed for normal blood clotting. Portal hypertension is responsible for the most severe complications of cirrhosis.
The gold standard for diagnosis of cirrhosis is a liver biopsy, through a percutaneous, transjugular, laparoscopic, or fine-needle approach. A biopsy is not necessary if the clinical, laboratory, and radiologic data suggests cirrhosis. Furthermore, there is a small but significant risk of complications from liver biopsy, and cirrhosis itself predisposes for complications caused by liver biopsy.
|Score||Platelet count x109||ALT/AST ratio||INR|
The best predictors of cirrhosis are ascites, platelet count <160,000/mm3, spider angiomata, and a Bonacini cirrhosis discriminant score greater than 7 (as the sum of scores for platelet count, ALT/AST ratio and INR as per table).
The following findings are typical in cirrhosis:
- Thrombocytopenia – typically multifactorial. Due to alcoholic marrow suppression, sepsis, lack of folate, platelet sequestering in the spleen as well as decreased thrombopoietin. However, this rarely results in a platelet count < 50 000/mL.
- Aminotransferases – AST and ALT are moderately elevated, with AST > ALT. However, normal aminotransferase levels do not preclude cirrhosis.
- Alkaline phosphatase – slightly elevated but less than 2–3 times the upper limit of normal.
- Gamma-glutamyl transferase – correlates with AP levels. Typically much higher in chronic liver disease from alcohol.
- Bilirubin – levels normal when compensated but may elevate as cirrhosis progresses.
- Albumin – levels fall as the synthetic function of the liver declines with worsening cirrhosis, since albumin is exclusively synthesized in the liver
- Prothrombin time – increases, since the liver synthesizes clotting factors.
- Globulins – increased due to shunting of bacterial antigens away from the liver to lymphoid tissue.
- Serum sodium – hyponatremia due to inability to excrete free water resulting from high levels of ADH and aldosterone.
- Leukopenia and neutropenia – due to splenomegaly with splenic margination.
- Coagulation defects – the liver produces most of the coagulation factors and thus coagulopathy correlates with worsening liver disease.
- Glucagon – increased in cirrhosis
- Vasoactive intestinal peptide – increased as blood is shunted in the intestinal system because of portal hypertension
- Vasodilators – increased (such as nitric oxide and carbon monoxide) reducing afterload with compensatory increase in cardiac output, mixed venous oxygen saturation
- Renin – increased (as well as sodium retention in kidneys) secondary to fall in systemic vascular resistance
Other laboratory studies performed in newly diagnosed cirrhosis may include:
- Serology for hepatitis viruses, autoantibodies (ANA, anti-smooth muscle, anti-mitochondria, anti-LKM)
- Ferritin and transferrin saturation: markers of iron overload as in hemochromatosis, copper and ceruloplasmin: markers of copper overload as in Wilson's disease
- Immunoglobulin levels (IgG, IgM, IgA) – these immunoglobins are non-specific, but may help in distinguishing various causes
- Cholesterol and glucose
- Alpha 1-antitrypsin
Ultrasound is routinely used in the evaluation of cirrhosis. It may show a small and nodular liver in advanced cirrhosis along with increased echogenicity with irregular appearing areas. Other liver findings suggestive of cirrhosis in imaging are an enlarged caudate lobe, widening of the fissures and enlargement of the spleen. An enlarged spleen (splenomegaly), which normally measures less than 11–12 cm in adults, is suggestive of cirrhosis with portal hypertension, in the right clinical context. Ultrasound may also screen for hepatocellular carcinoma, portal hypertension, and Budd-Chiari syndrome (by assessing flow in the hepatic vein). An increased portal vein pulsatility is an indicator of cirrhosis, but may also be caused by an increased right atrial pressure. Portal vein pulsatility can be quantified by pulsatility indices (PI), where an index above a certain cutoff indicates pathology:
|Average-based||(Max – Min) / Average||0.5|
|Max-relative||(Max – Min) / Max||0.5–0.54|
Cirrhosis is diagnosed with a variety of elastography techniques. Because a cirrhotic liver is generally stiffer than a healthy one, imaging the liver's stiffness can give diagnostic information about the location and severity of cirrhosis. Techniques used include transient elastography, acoustic radiation force impulse imaging, supersonic shear imaging and magnetic resonance elastography. Compared to a biopsy, elastography can sample a much larger area and is painless. It shows a reasonable correlation with the severity of cirrhosis.
Gastroscopy (endoscopic examination of the esophagus, stomach, and duodenum) is performed in patients with established cirrhosis to exclude the possibility of esophageal varices. If these are found, prophylactic local therapy may be applied (sclerotherapy or banding) and beta blocker treatment may be commenced.
Rarely are diseases of the bile ducts, such as primary sclerosing cholangitis, causes of cirrhosis. Imaging of the bile ducts, such as ERCP or MRCP (MRI of biliary tract and pancreas) may aid in the diagnosis.
Macroscopically, the liver is initially enlarged, but with the progression of the disease, it becomes smaller. Its surface is irregular, the consistency is firm, and the color is often yellow (if associated with steatosis). Depending on the size of the nodules, there are three macroscopic types: micronodular, macronodular, and mixed cirrhosis. In the micronodular form (Laennec's cirrhosis or portal cirrhosis), regenerating nodules are under 3 mm. In macronodular cirrhosis (post-necrotic cirrhosis), the nodules are larger than 3 mm. Mixed cirrhosis consists of nodules of different sizes.
However, cirrhosis is defined by its pathological features on microscopy: (1) the presence of regenerating nodules of hepatocytes and (2) the presence of fibrosis, or the deposition of connective tissue between these nodules. The pattern of fibrosis seen can depend on the underlying insult that led to cirrhosis. Fibrosis can also proliferate even if the underlying process that caused it has resolved or ceased. The fibrosis in cirrhosis can lead to destruction of other normal tissues in the liver: including the sinusoids, the space of Disse, and other vascular structures, which leads to altered resistance to blood flow in the liver, and portal hypertension.
As cirrhosis can be caused by many different entities which injure the liver in different ways, cause-specific abnormalities may be seen. For example, in chronic hepatitis B, there is infiltration of the liver parenchyma with lymphocytes. In cardiac cirrhosis there are erythrocytes and a greater amount of fibrosis in the tissue surrounding the hepatic veins. In primary biliary cholangitis, there is fibrosis around the bile duct, the presence of granulomas and pooling of bile. Lastly in alcoholic cirrhosis, there is infiltration of the liver with neutrophils.
The severity of cirrhosis is commonly classified with the Child-Pugh score. This scoring system uses bilirubin, albumin, INR, the presence and severity of ascites, and encephalopathy to classify patients into class A, B, or C. Class A has a favourable prognosis, while class C is at high risk of death. This system was devised in 1964 by Child and Turcotte, and modified in 1973 by Pugh and others.
More modern scores, used in the allocation of liver transplants but also in other contexts, are the Model for End-Stage Liver Disease (MELD) score and its pediatric counterpart, the Pediatric End-Stage Liver Disease (PELD) score.
The hepatic venous pressure gradient, (difference in venous pressure between afferent and efferent blood to the liver) also determines the severity of cirrhosis, although it is hard to measure. A value of 16 mm or more means a greatly increased risk of death.
Key prevention strategies for cirrhosis are population-wide interventions to reduce alcohol intake (through pricing strategies, public health campaigns, and personal counseling), programs to reduce the transmission of viral hepatitis, and screening of relatives of people with hereditary liver diseases.
Generally, liver damage from cirrhosis cannot be reversed, but treatment can stop or delay further progression and reduce complications. A healthy diet is encouraged, as cirrhosis may be an energy-consuming process. Close follow-up is often necessary. Antibiotics are prescribed for infections, and various medications can help with itching. Laxatives, such as lactulose, decrease the risk of constipation; their role in preventing encephalopathy is limited.
Alcoholic cirrhosis caused by alcohol abuse is treated by abstaining from alcohol. Treatment for hepatitis-related cirrhosis involves medications used to treat the different types of hepatitis, such as interferon for viral hepatitis and corticosteroids for autoimmune hepatitis. Cirrhosis caused by Wilson's disease, in which copper builds up in organs, is treated with chelation therapy (for example, penicillamine) to remove the copper.
Preventing further liver damageEdit
Regardless of the underlying cause of cirrhosis, consumption of alcohol and paracetamol (acetaminophen), as well as other potentially damaging substances, are discouraged. Vaccination of susceptible patients should be considered for Hepatitis A and Hepatitis B. Treating the cause of cirrhosis prevents further damage; for example, giving oral antivirals such as entecavir and tenofovir in patients of cirrhosis due to Hepatitis B prevents progression of cirrhosis. Similarly, control of weight and diabetes prevents deterioration in cirrhosis due to Non-alcoholic steatohepatitis.
If complications cannot be controlled or when the liver ceases functioning, liver transplantation is necessary. Survival from liver transplantation has been improving over the 1990s, and the five-year survival rate is now around 80%. The survival rate depends largely on the severity of disease and other medical risk factors in the recipient. In the United States, the MELD score is used to prioritize patients for transplantation. Transplantation necessitates the use of immune suppressants (ciclosporin or tacrolimus).
Manifestations of decompensation in cirrhosis include gastrointestinal bleeding, hepatic encephalopathy (HE), jaundice or ascites. In patients with previously stable cirrhosis, decompensation may occur due to various causes, such as constipation, infection (of any source), increased alcohol intake, medication, bleeding from esophageal varices or dehydration. It may take the form of any of the complications of cirrhosis listed below.
People with decompensated cirrhosis generally require admission to a hospital, with close monitoring of the fluid balance, mental status, and emphasis on adequate nutrition and medical treatment – often with diuretics, antibiotics, laxatives or enemas, thiamine and occasionally steroids, acetylcysteine and pentoxifylline. Administration of saline is avoided, as it would add to the already high total body sodium content that typically occurs in cirrhosis. Life expectancy without liver transplant is low, at most 3 years.
Palliative care is specialized medical care that focuses on providing patients with relief from the symptoms, pain, and stress of a serious illness, such as cirrhosis. The goal of palliative care is to improve quality of life for both the patient and the patient's family and it is appropriate at any stage and for any type of cirrhosis.
Especially in the later stages, people with cirrhosis experience significant symptoms such as abdominal swelling, itching, leg edema, and chronic abdominal pain which would be amenable for treatment through palliative care. Because the disease is not curable without a transplant, palliative care can also help with discussions regarding the person's wishes concerning health care power of attorney, Do Not Resuscitate decisions and life support, and potentially hospice. Despite proven benefit, people with cirrhosis are rarely referred to palliative care.
Salt restriction is often necessary, as cirrhosis leads to accumulation of salt (sodium retention). Diuretics may be necessary to suppress ascites. Diuretic options for inpatient treatment include aldosterone antagonists (spironolactone) and loop diuretics. Aldosterone antagonists are preferred for people who can take oral medications and are not in need of an urgent volume reduction. Loop diuretics can be added as additional therapy.
If a rapid reduction of volume is required, paracentesis is the preferred option. This procedure requires the insertion of a plastic tube into the peritoneal cavity. Human albumin solution is usually given to prevent complications from the rapid volume reduction. In addition to being more rapid than diuretics, 4–5 liters of paracentesis is more successful in comparison to diuretic therapy.
Esophageal variceal bleedingEdit
For portal hypertension, nonselective beta blockers such as propranolol or nadolol are commonly used to lower blood pressure over the portal system. In severe complications from portal hypertension, transjugular intrahepatic portosystemic shunting (TIPS) is occasionally indicated to relieve pressure on the portal vein. As this shunting can worsen hepatic encephalopathy, it is reserved for those patients at low risk of encephalopathy. TIPS is generally regarded only as a bridge to liver transplantation or as a palliative measure.
High-protein food increases the nitrogen balance, and would theoretically increase hepatic encephalopathy; in the past, this was therefore eliminated as much as possible from the diet. Recent studies show that this assumption was incorrect, and high-protein foods are even encouraged to maintain adequate nutrition.
The hepatorenal syndrome is defined as a urine sodium less than 10 mmol/L and a serum creatinine > 1.5 mg/dl (or 24 hour creatinine clearance less than 40 ml/min) after a trial of volume expansion without diuretics.
Spontaneous bacterial peritonitisEdit
Portal hypertensive gastropathyEdit
Cirrhosis can cause immune system dysfunction, leading to infection. Signs and symptoms of infection may be nonspecific and are more difficult to recognize (for example, worsening encephalopathy but no fever).
Hepatocellular carcinoma is a primary liver cancer that is more common in people with cirrhosis. People with known cirrhosis are often screened intermittently for early signs of this tumor, and screening has been shown to improve outcomes.
Cirrhosis and chronic liver disease were the tenth leading cause of death for men and the twelfth for women in the United States in 2001, killing about 27,000 people each year. The cost of cirrhosis in terms of human suffering, hospital costs, and lost productivity is high. Cirrhosis is more common in men than in women.
Established cirrhosis has a 10-year mortality of 34–66%, largely dependent on the cause of the cirrhosis; alcoholic cirrhosis has a worse prognosis than primary biliary cholangitis and cirrhosis due to hepatitis. The risk of death due to all causes is increased twelvefold; if one excludes the direct consequences of the liver disease, there is still a fivefold increased risk of death in all disease categories.
The word "cirrhosis" is a neologism derived from Greek kirrhós meaning "yellowish, tawny" (the orange-yellow colour of the diseased liver) and the suffix -osis, i.e. "condition" in medical terminology. While the clinical entity was known before, it was René Laennec who gave it this name (in the same 1819 work in which he also described the stethoscope).
- "Cirrhosis". National Institute of Diabetes and Digestive and Kidney Diseases. April 23, 2014. Archived from the original on 9 June 2015. Retrieved 19 May 2015.
- GBD 2013 Mortality and Causes of Death, Collaborators (17 December 2014). "Global, regional, and national age-sex specific all-cause and cause-specific mortality for 240 causes of death, 1990–2013: a systematic analysis for the Global Burden of Disease Study 2013". Lancet. 385 (9963): 117–71. doi:10.1016/S0140-6736(14)61682-2. PMC 4340604. PMID 25530442.
- GBD 2015 Disease and Injury Incidence and Prevalence, Collaborators. (8 October 2016). "Global, regional, and national incidence, prevalence, and years lived with disability for 310 diseases and injuries, 1990–2015: a systematic analysis for the Global Burden of Disease Study 2015". Lancet. 388 (10053): 1545–1602. doi:10.1016/S0140-6736(16)31678-6. PMC 5055577. PMID 27733282.
- GBD 2015 Mortality and Causes of Death, Collaborators. (8 October 2016). "Global, regional, and national life expectancy, all-cause mortality, and cause-specific mortality for 249 causes of death, 1980–2015: a systematic analysis for the Global Burden of Disease Study 2015". Lancet. 388 (10053): 1459–1544. doi:10.1016/s0140-6736(16)31012-1. PMC 5388903. PMID 27733281.
- Brower, Steven T. (2012). Elective general surgery : an evidence-based approach. New York: McGraw-Hill Medical. p. 36. ISBN 9781607951094. Archived from the original on 2017-09-08.
- κιρρός. Liddell, Henry George; Scott, Robert; A Greek–English Lexicon at the Perseus Project.
- Harper, Douglas. "cirrhosis". Online Etymology Dictionary.
- Harper, Douglas. "-osis". Online Etymology Dictionary.
- Friedman LS (2014). Current medical diagnosis and treatment 2014. [S.l.]: Mcgraw-Hill. pp. Chapter 16. Liver, Biliary Tract, & Pancreas Disorders. ISBN 978-0071806336.
- Li CP, Lee FY, Hwang SJ, et al. (1999). "Spider angiomas in patients with liver cirrhosis: role of alcoholism and impaired liver function". Scand. J. Gastroenterol. 34 (5): 520–3. doi:10.1080/003655299750026272. PMID 10423070.
- william, james (2005). Andrews' Diseases of the Skin: Clinical Dermatology. saunders. ISBN 978-0-7216-2921-6.
- Slater, Joseph S. Esherick, Daniel S. Clark, Evan D. (2012-12-18). Current practice guidelines in primary care 2013. New York: McGraw-Hill Medical. pp. Chapter 3: Disease Management. ISBN 978-0071797504.
- Van Thiel, DH; Gavaler, JS; Schade, RR (February 1985). "Liver disease and the hypothalamic pituitary gonadal axis". Seminars in Liver Disease. 5 (1): 35–45. doi:10.1055/s-2008-1041756. PMID 3983651.
- van Thiel, DH; Gavaler, JS; Spero, JA; Egler, KM; Wright, C; Sanghvi, AT; Hasiba, U; Lewis, JH (Jan–Feb 1981). "Patterns of hypothalamic-pituitary-gonadal dysfunction in men with liver disease due to differing etiologies". Hepatology. 1 (1): 39–46. doi:10.1002/hep.1840010107. PMID 6793494.
- al.], ed. Dan L. Longo ... [et (2012). Harrison's principles of internal medicine (18th ed.). New York: McGraw-Hill. pp. Chapter 308. Cirrhosis and Its Complications. ISBN 9780071748896.CS1 maint: Extra text: authors list (link)
- Tangerman, A; Meuwese-Arends, MT; Jansen, JB (Feb 19, 1994). "Cause and composition of foetor hepaticus". Lancet. 343 (8895): 483. doi:10.1016/s0140-6736(94)92729-4. PMID 7905979.
- Suurmond, D. (2009). Color Atlas and Synopsis of Clinical Dermatology: Common and Serious Diseases. McGraw-Hill. pp. Section 33: Disorders of the nail apparatus. ISBN 978-0071793025.
- Suurmond, D. (2009). Fitzpatrick's Color Atlas & Synopsis of Clinical Dermatology. 6th ed. New York: McGraw-Hill. pp. Section 33. Disorders of the Nail Apparatus.
- Longo et al. Harrison's Principles of Internal Medicine, 18th ed., p.2295
- Perz JF, Armstrong GL, Farrington LA, Hutin YJ, Bell BP (October 2006). "The contributions of hepatitis B virus and hepatitis C virus infections to cirrhosis and primary liver cancer worldwide". J. Hepatol. 45 (4): 529–38. doi:10.1016/j.jhep.2006.05.013. PMID 16879891.
- Alcohol-Induced Liver Disease; "Alcohol Related Liver Disease and Alcohol Damage - ALF". Archived from the original on 2012-01-12. Retrieved 2012-01-25.
- Huang H; et al. (2004). "IDENTIFICATION OF NOVEL GENETIC MARKERS ASSOCIATED WITH FIBROSIS PROGRESSION RISK IN HCV PATIENTS FROM A GENOMIC SCAN OF PUTATIVE FUNCTIONAL POLYMORPHISMS". Hepatology. 40: 230A. doi:10.1002/hep.1840400503.
- al.], ed. Dan L. Longo ... [et (2011). Harrison's principles of internal medicine (18th ed.). New York: McGraw-Hill. p. Liver Transplantation. ISBN 9780071748896.CS1 maint: Extra text: authors list (link)
- Edwards, CQ; Kushner, JP (Jun 3, 1993). "Screening for hemochromatosis". The New England Journal of Medicine. 328 (22): 1616–20. doi:10.1056/NEJM199306033282208. PMID 8110209.
- Tanner, MS (May 1998). "Role of copper in Indian childhood cirrhosis". The American Journal of Clinical Nutrition. 67 (5 Suppl): 1074S–1081S. doi:10.1093/ajcn/67.5.1074S. PMID 9587155.
- Hammer, edited by Stephen J. McPhee, Gary D. (2010). Pathophysiology of disease : an introduction to clinical medicine (6th ed.). New York: McGraw-Hill Medical. pp. Chapter 14: Liver Disease. Cirrhosis. ISBN 978-0071621670.CS1 maint: Extra text: authors list (link)
- Iredale JP (2003). "Cirrhosis: new research provides a basis for rational and targeted treatments". BMJ. 327 (7407): 143–7. doi:10.1136/bmj.327.7407.143. PMC 1126509. PMID 12869458. Archived from the original on 2004-10-29.
- Puche, JE; Saiman, Y; Friedman, SL (Oct 1, 2013). "Hepatic stellate cells and liver fibrosis". Comprehensive Physiology. 3 (4): 1473–92. doi:10.1002/cphy.c120035. PMID 24265236.
- Grant, A; Neuberger J (1999). "Guidelines on the use of liver biopsy in clinical practice". Gut. 45 (Suppl 4): 1–11. doi:10.1136/gut.45.2008.iv1. PMC 1766696. PMID 10485854. Archived from the original on 2007-06-30.
The main cause of mortality after percutaneous liver biopsy is intraperitoneal haemorrhage as shown in a retrospective Italian study of 68,000 percutaneous liver biopsies, in which all six patients who died did so from intraperitoneal haemorrhage. Three of these patients had had a laparotomy, and all had either cirrhosis or malignant disease, both of which are risk factors for bleeding.
- Gudowska, Monika; Gruszewska, Ewa; Panasiuk, Anatol; Cylwik, Bogdan; Świderska, Magdalena; Flisiak, Robert; Szmitkowski, Maciej; Chrostek, Lech (2016). "Selected Noninvasive Markers in Diagnosing Liver Diseases". Laboratory Medicine. 47 (1): 67–72. doi:10.1093/labmed/lmv015. ISSN 0007-5027. PMID 26715612.
- Udell, JA; Wang, CS; Tinmouth, J; FitzGerald, JM; Ayas, NT; Simel, DL; Schulzer, M; Mak, E; Yoshida, EM (Feb 22, 2012). "Does this patient with liver disease have cirrhosis?". JAMA: The Journal of the American Medical Association. 307 (8): 832–42. doi:10.1001/jama.2012.186. PMID 22357834.
- Maddrey, edited by Eugene R. Schiff, Michael F. Sorrell & Willis C. (1999). Schiff's diseases of the liver (11th ed. / edited by Eugene R. Schiff, Willis C. Maddrey, Michael F. Sorrell. ed.). Chichester, West Sussex, UK: John Wiley & Sons. pp. Evaluation of the Liver A: Laboratory Test. ISBN 978-0-470-65468-2.CS1 maint: Extra text: authors list (link)
- Halfon P, Munteanu M, Poynard T (2008). "FibroTest-ActiTest as a non-invasive marker of liver fibrosis". Gastroenterol Clin Biol. 32 (6): 22–39. doi:10.1016/S0399-8320(08)73991-5. PMID 18973844.
- Iranpour, Pooya; Lall, Chandana; Houshyar, Roozbeh; Helmy, Mohammad; Yang, Albert; Choi, Joon-Il; Ward, Garrett; Goodwin, Scott C (2016). "Altered Doppler flow patterns in cirrhosis patients: an overview". Ultrasonography. 35 (1): 3–12. doi:10.14366/usg.15020. ISSN 2288-5919. PMC 4701371. PMID 26169079.
- Goncalvesova, E.; Varga, I.; Tavacova, M.; Lesny, P. (2013). "Changes of portal vein flow in heart failure patients with liver congestion". European Heart Journal. 34 (suppl 1): P627. doi:10.1093/eurheartj/eht307.P627. ISSN 0195-668X.
- Page 367 in: Henryk Dancygier (2009). Clinical Hepatology: Principles and Practice of Hepatobiliary Diseases. 1. Springer Science & Business Media. ISBN 9783540938422.
- Foucher J, Chanteloup E, Vergniol J, et al. (2006). "Diagnosis of cirrhosis by transient elastography (FibroScan): a prospective study". Gut. 55 (3): 403–8. doi:10.1136/gut.2005.069153. PMC 1856085. PMID 16020491.
- Brenner, David; Richard A. Rippe (2003). "Pathogenesis of Hepatic Fibrosis". In Tadataka Yamada (ed.). Textbook of Gastroenterology. 2 (4th ed.). Lippincott Williams & Wilkins. ISBN 978-0-7817-2861-4.
- Giallourakis CC, Rosenberg PM, Friedman LS (November 2002). "The liver in heart failure". Clin Liver Dis. 6 (4): 947–67, viii–ix. doi:10.1016/S1089-3261(02)00056-9. PMID 12516201.
- Heathcote EJ (November 2003). "Primary biliary cirrhosis: historical perspective". Clin Liver Dis. 7 (4): 735–40. doi:10.1016/S1089-3261(03)00098-9. PMID 14594128.
- Pugh RN, Murray-Lyon IM, Dawson JL, Pietroni MC, Williams R (1973). "Transection of the oesophagus for bleeding oesophageal varices". Br J Surg. 60 (8): 646–9. doi:10.1002/bjs.1800600817. PMID 4541913.
- Patch D, Armonis A, Sabin C, et al. (1999). "Single portal pressure measurement predicts survival in cirrhotic patients with recent bleeding". Gut. 44 (2): 264–9. doi:10.1136/gut.44.2.264. PMC 1727391. PMID 9895388. Archived from the original on 2008-05-28.
- Muriel, P; Arauz, J (Jul 2010). "Coffee and liver diseases". Fitoterapia (Phytotherapy). 81 (5): 297–305. doi:10.1016/j.fitote.2009.10.003. PMID 19825397.
- Masterton GS, Hayes PC (November 2010). "Coffee and the liver: a potential treatment for liver disease?". Eur J Gastroenterol Hepatol. 22 (11): 1277–83. doi:10.1097/MEG.0b013e32833cca96. PMID 20802342.
- "E-medicine liver transplant outlook and survival rates". Emedicinehealth.com. 2009-06-09. Archived from the original on 2009-07-14. Retrieved 2009-09-06.
- Kamath PS, Kim WR (March 2007). "The model for end-stage liver disease (MELD)". Hepatology. 45 (3): 797–805. doi:10.1002/hep.21563. PMID 17326206.
- Chavez-Tapia, NC; Barrientos-Gutierrez, T; Tellez-Avila, FI; Soares-Weiser, K; Uribe, M (8 September 2010). "Antibiotic prophylaxis for cirrhotic patients with upper gastrointestinal bleeding". The Cochrane Database of Systematic Reviews (9): CD002907. doi:10.1002/14651858.CD002907.pub2. PMID 20824832.
- Ferrell, B; Connor, SR; Cordes, A; Dahlin, CM; Fine, PG; Hutton, N; Leenay, M; Lentz, J; Person, JL; Meier, DE; Zuroski, K; National Consensus Project for Quality Palliative Care Task Force, Members (Jun 2007). "The national agenda for quality palliative care: the National Consensus Project and the National Quality Forum". Journal of Pain and Symptom Management. 33 (6): 737–44. doi:10.1016/j.jpainsymman.2007.02.024. PMID 17531914.
- Sanchez, W; Talwalkar, JA (Mar 2006). "Palliative care for patients with end-stage liver disease ineligible for liver transplantation". Gastroenterology Clinics of North America. 35 (1): 201–19. doi:10.1016/j.gtc.2005.12.007. PMID 16530121.
- Poonja, Z; Brisebois, A; van Zanten, SV; Tandon, P; Meeberg, G; Karvellas, CJ (Apr 2014). "Patients with cirrhosis and denied liver transplants rarely receive adequate palliative care or appropriate management". Clinical Gastroenterology and Hepatology. 12 (4): 692–8. doi:10.1016/j.cgh.2013.08.027. PMID 23978345.
- "WHO Disease and injury country estimates". World Health Organization. 2009. Archived from the original on 2009-11-11. Retrieved Nov 11, 2009.
- Moore KP, Aithal GP (October 2006). "Guidelines on the management of ascites in cirrhosis". Gut. 55 Suppl 6 (Suppl 6): vi1–12. doi:10.1136/gut.2006.099580. PMC 1860002. PMID 16966752.
- Sellers CM, Nezami N, Schilsky ML, Kim HS (April 2019). "Transjugular intrahepatic portosystemic shunt as a bridge to liver transplant: Current state and future directions". Transplant Rev (Orlando). 33 (2): 64–71. doi:10.1016/j.trre.2018.10.004. PMID 30477811.
- Sundaram V, Shaikh OS (July 2009). "Hepatic encephalopathy: pathophysiology and emerging therapies". Med. Clin. North Am. 93 (4): 819–36, vii. doi:10.1016/j.mcna.2009.03.009. PMID 19577116.
- Ginés P, Arroyo V, Quintero E, et al. (1987). "Comparison of paracentesis and diuretics in the treatment of cirrhotics with tense ascites. Results of a randomized study". Gastroenterology. 93 (2): 234–41. doi:10.1016/0016-5085(87)91007-9. PMID 3297907.
- Kim MY, Choi H, Baik SK, et al. (April 2010). "Portal Hypertensive Gastropathy: Correlation with Portal Hypertension and Prognosis in Cirrhosis". Dig Dis Sci. 55 (12): 3561–7. doi:10.1007/s10620-010-1221-6. PMID 20407828.
- Singal AG, Pillai A, Tiro J (2014). "Early detection, curative treatment, and survival rates for hepatocellular carcinoma surveillance in patients with cirrhosis: a meta-analysis". PLoS Med. 11 (4): e1001624. doi:10.1371/journal.pmed.1001624. PMC 3972088. PMID 24691105.
- Anderson RN, Smith BL (2003). "Deaths: leading causes for 2001". National Vital Statistics Reports. 52 (9): 1–85. PMID 14626726.
- Tamparo, Carol (2011). Fifth Edition: Diseases of the Human Body. Philadelphia, PA: F. A. Davis Company. p. 422. ISBN 978-0-8036-2505-1.
- Sørensen HT, Thulstrup AM, Mellemkjar L, et al. (2003). "Long-term survival and cause-specific mortality in patients with cirrhosis of the liver: a nationwide cohort study in Denmark". Journal of Clinical Epidemiology. 56 (1): 88–93. doi:10.1016/S0895-4356(02)00531-0. PMID 12589875.
- Roguin A (2006). "Rene Theophile Hyacinthe Laënnec (1781–1826): The Man Behind the Stethoscope". Clinical Medicine & Research. 4 (3): 230–5. doi:10.3121/cmr.4.3.230. PMC 1570491. PMID 17048358.
- Cirrhosis of the Liver at the National Digestive Diseases Information Clearinghouse (NDDIC). NIH Publication No. 04-1134, December 2003.