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Physical Examination

• Physical examination of patients with [disease name] is usually remarkable for:[finding 1], [finding 2], and [finding 3].
• The presence of [finding(s)] on physical examination is diagnostic of [disease name].
• The presence of [finding(s)] on physical examination is highly suggestive of [disease name].

Appearance of the Patient

• Patients with [disease name] usually appear [general appearance].

Vital Signs

• Normal/low blood pressure with normal pulse pressure

Skin

• Jaundice
• Pallor
• Bruises
• Palmar erythema on the thenar and hypothenar eminences
• Spider angiomata 

HEENT

• Abnormalities of the head/hair may include ___
• parotid gland enlargement
• fetor hepaticus 

Abdomen

Inspection abdominal distension

Caput medusae

Palpation- fluid wave

Percussion-  flank dullness to percussion

Auscultation  Cruveilhier-Baumgarten murmur

• Abdominal distention
• Hepatomegaly
•  Splenomegaly
• Hepatomegaly — The cirrhotic liver may be enlarged, normal sized, or small.
• Cruveilhier-Baumgarten murmur —  venous hum that may be auscultated in patients with portal hypertension. It results from collateral connections between the portal system and the remnant of the umbilical vein, over the epigastrium. The murmur is augmented by maneuvers that increase intraabdominal pressure, such as the Valsalva maneuver, and diminished by applying pressure on the skin above the umbilicus

Genitourinary

• testicular atrophy 
• inversion of the normal male pubic hair pattern

Neuromuscular

• Asterixis (bilateral but asynchronous flapping motions of outstretched, dorsiflexed hands) is seen in patients with hepatic encephalopathy.

Extremities

• Clubbing
• Cyanosis
• Pitting/non-pitting edema of the upper/lower extremities
• Muscle atrophy
• Fasciculations in the upper/lower extremity
• Nail changes:
  • Muehrcke nails: paired horizontal white bands separated by normal color due to hypoalbuminemia
  •  Terry nails: the proximal two-thirds of the nail plate appears white, whereas the distal one-third is red due to hypoalbuminemia
  •  Clubbing:  the angle between the nail plate and proximal nail fold is greater than 180 degrees. 
  • In severe cases, the distal finger has a "drum stick" appearance.
  • Hypertrophic osteoarthropathy
  •  Dupuytren's contracture causes flexion deformities of the fingers .
  • asterixis

Chest findings 

•  Gynecomastia
• loss of chest or axillary hair

History

Psychosocial history

• Past history of abuse

Past Medical history

• History of

Menstrual history

• History of

Family history

• Family history of:

Medication history

• History of medication use should be obtained as many drugs such as opioids cause constipation as a side effect.

Causes

Cirrhosis

Pathophysiology ^{[1][2][3][4][5][6]}

• When an injured issue is replaced by a collagenous scar, it is termed as fibrosis.
• When fibrosis of the liver reaches an advanced stage where distortion of the hepatic vasculature also occurs, it is termed as cirrhosis of the liver.
• The cellular mechanisms responsible for cirrhosis are similar regardless of the type of initial insult and site of injury within the liver lobule.
• Viral hepatitis involves the periportal region, whereas involvement in alcoholic liver disease is largely pericentral.
• If the damage progresses, panlobular cirrhosis may result.
• Cirrhosis involves the following steps: ^[7]
  • Inflammation
  • Hepatic stellate cell activation
  • Angiogenesis
  • Fibrogenesis
• Kupffer cells are hepatic macrophages responsible for Hepatic Stellate cell activation during injury.
• The hepatic stellate cell (also known as the perisinusoidal cell or Ito cell) plays a key role in the pathogenesis of liver fibrosis/cirrhosis.
• Hepatic stellate cells(HSC) are usually located in the subendothelial space of Disse and become activated to a myofibroblast-like phenotype in areas of liver injury.
• Collagen and non collagenous matrix proteins responsible for fibrosis are produced by the activated Hepatic Stellate Cells(HSC).
• Hepatocyte damage causes the release of lipid peroxidases from injured cell membranes leading to necrosis of parenchymal cells.
• Activated HSC produce numerous cytokines and their receptors, such as PDGF and TGF-f31 which are responsible for fibrogenesis.
• The matrix formed due to HSC activation is deposited in the space of Disse and leads to loss of fenestrations of endothelial cells, which is a process called capillarization.
• Cirrhosis leads to hepatic microvascular changes characterised by ^[8]
  •  formation of intra hepatic shunts (due to angiogenesis and loss of parenchymal cells) 
  • hepatic endothelial dysfunction
• The endothelial dysfunction is characterised by ^[9]
  • insufficient release of vasodilators, such as nitric oxide due to oxidative stress
  • increased production of vasoconstrictors (mainly adrenergic stimulation and activation of endothelins and RAAS)
• Fibrosis eventually leads to formation of septae that grossly distort the liver architecture which includes both the liver parenchyma and the vasculature. A cirrhotic liver compromises hepatic sinusoidal exchange by shunting arterial and portal blood directly into the central veins (hepatic outflow). Vascularized fibrous septa connect central veins with portal tracts leading to islands of hepatocytes surrounded by fibrous bands without central veins.^[10][11][12]
• The formation of fibrotic bands is accompanied by regenerative nodule formation in the hepatic parenchyma.
• Advancement of cirrhosis may lead to parenchymal dysfunction and development of portal hypertension.
• Portal HTN results from the combination of the following:
  • Structural disturbances associated with advanced liver disease account for 70% of total hepatic vascular resistance.
  •  Functional abnormalities such as endothelial dysfunction and increased hepatic vascular tone account for 30% of total hepatic vascular resistance.

Pathogenesis of Cirrhosis due to Alcohol:

• More than 66 percent of all American adults consume alcohol.
• Cirrhosis due to alcohol accounts for approximately forty percent of mortality rates due to cirrhosis.
• Mechanisms of alcohol-induced damage include:
  • Impaired protein synthesis, secretion, glycosylation
• Ethanol intake leads to elevated accumulation of intracellular triglycerides by:
  • Lipoprotein secretion
  • Decreased fatty acid oxidation
  • Increased fatty acid uptake
• Alcohol is converted by Alcohol dehydrogenase to acetaldehyde.
• Due to the high reactivity of acetaldehyde, it forms acetaldehyde-protein adducts which cause damage to cells by:
  • Trafficking of hepatic proteins
  • Interrupting microtubule formation
  • Interfering with enzyme activities
• Damage of hepatocytes leads to the formation of reactive oxygen species that activate Kupffer cells.^[6]
• Kupffer cell activation leads to the production of profibrogenic cytokines that stimulates stellate cells.
• Stellate cell activation leads to the production of extracellular matrix and collagen.
• Portal triads develop connections with central veins due to connective tissue formation in pericentral and periportal zones, leading to the formation of regenerative nodules.
• Shrinkage of the liver occurs over years due to repeated insults that lead to:
  • Loss of hepatocytes
  • Increased production and deposition of collagen

Pathology

• There are four stages of Cirrhosis as it progresses:
  • Chronic nonsuppurative destructive cholangitis - inflammation and necrosis of portal tracts with lymphocyte infiltration leading to the destruction of the bile ducts.
  • Development of biliary stasis and fibrosis
• Periportal fibrosis progresses to bridging fibrosis
• Increased proliferation of smaller bile ductules leading to regenerative nodule formation.

Classification

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor(s)-in-Chief: Charmaine Patel, M.D. [2]

Overview

Cirrhosis of the liver can be classified using two methods; classification based on etiology, and classification based on morphology. Currently, classifying cirrhosis based on morphology is not used, as it requires an invasive procedure to examine the gross appearance of the liver, and it provides little diagnostic value. Classifying cirrhosis according to etiology is a more accepted form of classification, as it can be attained through non-invasive laboratory testing, and has a higher diagnostic value.

Classification Based on Etiology

Cirrhosis can be classified by its etiology. This is the most widely accepted method of classification.

Alcoholic Cirrhosis

This is the most common cause of cirrhosis, and is caused by continuous and prolonged alcohol abuse. The American Academy of Family Physicians estimate that 60-70 percent of all cases of cirrhosis are a result of alcohol abuse.

Post-Necrotic Cirrhosis

This type of cirrhosis occurs after a massive event causes liver cell death. Viral hepatitis is the most common cause for this type of cirrhosis. Agents that are toxic to the liver can also cause this type of cirrhosis, as well as certain types of carcinomas.

Biliary Cirrhosis

This type of cirrhosis results from any diseases that cause biliary obstruction. There is usually a blockage in the bile duct and there may also be inflammation. The excess bile in the liver causes tissue destruction. It commonly results in jaundice.

Cardiac Cirrhosis

This type of cirrhosis is caused by congestive heart failure causing poor circulation of oxygenated blood to the liver. This results in liver cell death, and the subsequent replacement of dead cells by fibrous tissue.

Genetic Disorder

This is when the cirrhosis is caused by a genetic disorder such as hemochromatosis, Wilson's disease, or alpha-1 antitrypsin deficiency.

Malnutrition

This category contains cirrhosis caused by various forms of malnutrition, particularly chronic starvation.

Classification Based on Morphology

Cirrhosis has historically been classified upon the nodular morphology that is seen on upon the gross appearance of the liver. Accurate assessment of the liver morphology can only be obtained through surgery, biopsy, or autopsy, therefore more recently, more non-invasive means of classifying and determining the causes of cirrhosis are used.

References

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REFERENCES