GI Topic 5 - Liver

Question 1

What LFT results would suggest cholestasis?

Answer 1

High ALP and GGT

AST <3, ALP >2

High bilirubin

Question 2

Describe the microanatomical organisation of the liver

Answer 2

• Arranged into lobules - structural units
  
  • 1-2mm hexagonal lobules, centred on a central vein (terminal hepatic venule)
  • At periphery of each - arteriole, venule + bile duct = portal triad

Question 3

How are acini zones functionally distinct?

Answer 3

• Zone 1 - closest to blood supply, carries out processes which require oxygen e.g. synthesis of glycogen and plasma proteins
• Zone 2 - intermediate zone
• Zone 3 - vascular periphery, furthest from blood supply, hepatocytes sensitive to hypoxia

Question 4

List the lobes of the liver

Answer 4

• R lobe (biggest)
• L lobe
• Quadrate lobe - next to gallbladder
• Caudate lobe - above quadrate, between right and left lobes

Question 5

List the causes of hepatitis

Answer 5

• Alcohol
• Metabolic disease
• Viral infection
• Autoimmune disease
• Biliary disease
• Drugs/toxins
• Cryptogenic

Question 6

What are AST/ALT levels used to indicate?

Answer 6

Hepatocellular injury markers - intermediates in gluconeogenesis

Question 7

What test should be done if ALP and GGT are raised?

Answer 7

• Ultrasound or CT to visualise the biliary ducts
• Dilated ducts = stones/strictures
• Non-dilated ducts = primary biliary cholangitis

Question 8

Describe the pathological changes which cause Reye-Like acute onset liver failure

Answer 8

Microvesicular steatosis

Question 9

Describe the typical clinical history of fatty liver disease

Answer 9

• Usually asymptomatic
• Rarely, if severe - acute cholestasis and liver failure

Question 10

What LFT results would suggest hepatocellular injury?

Answer 10

High AST and ALT

AST >3, ALP <2

High bilirubin

Question 11

Describe the origins of the hepatic portal vein

Answer 11

HPV formed from the union of the superior mesenteric and splenic veins at the neck of the pancreas (splenic mesenteric confluence)

Question 12

How is the biliary system of the liver organised?

Answer 12

• Bile canaliculi - between hepatocytes, direction of flow opposite to blood supply (towards bile duct)
• Bile ducts lined with columnar epithelium with thick nuclei

Question 13

How does exchange of materials occur in the liver?

Answer 13

Hepatocytes arranged in plates and cords exchange material with blood at the sinusoidal surface

Question 14

List the complications of liver cirrhosis

Answer 14

1. Portal hypertension
2. Liver failure
3. Liver cancer

Question 15

Describe the attachments of the coronary ligament

Answer 15

Attaches the liver to the inferior surface of the diaphragm

Question 16

Describe the innervation of the liver

Answer 16

• Glisson’s capsule - branches of the lower intercostal nerves
• Parenchyma - hepatic plexus
  
  • Sympathetic = coeliac plexus
  • Parasympathetic = vagus nerve
  • Enter liver at porta hepatis, follow branches of hepatic artery and portal vein

Question 17

How are sinusoids specialised?

Answer 17

Fenestrated endothelium, lack complete basement membrane

Question 18

Describe the microscopic pathological changes seen in alcoholic hepatitis

Answer 18

• Signs of fatty liver disease +
  
  • Hepatocyte ballooning
  • Mallory bodies in cytoplasm
  • Hepatocyte death (necrosis)
  • Neutrophil polymorph inflammation
  • Fibrosis (scarring) - initially perivenular and pericellular - progresses to cirrhosis

Question 19

What is the function of sinusoids?

Answer 19

• Specialised capillary
• Optimise exchange of material between blood and hepatocytes

Question 20

Describethe functional organisation of the liver

Answer 20

• Acini = functional units
  
  • Triangular structures, portal tracts at base and terminal hepatic venule at apex
  • Divided into 3 zones

Question 21

What does high conjugated bilirubin indicated?

Answer 21

Inherited/acquired defects in hepatic excretion

Question 22

Describe the attachments and structure of the lesser omentum

Answer 22

• Attaches the liver to the lesser curvature of the stomach and the 1st part of the duodenum
• Hepatoduodenal ligament - duodenum to liver, surrounds the portal triad
• Hepatogastric ligament - lesser curvature of stomach to liver

Question 23

What causes liver cirrhosis?

Answer 23

• Result of chronic inflammation (hepatitis) - injury causing agent present for a long time
• Can be reversed up to a certain point - if injury causing agent is removed, eventually irreversible

Question 24

What is the role of accessory hepatic portal veins?

Answer 24

Drain directly into liver from the GI tract/spleen/pancreas without joining the hepatic portal vein

Question 25

Describe the presentation of Reye-Like acute onset liver failure

Answer 25

• Neonatal to 3 years old
• History of episodic vomiting (since neonatal), failure to thrive, family history?
• Clinical features - encephalopathy, acidosis, hypoglycaemia, no ketosis, high transaminases, prolonged prothrombin time, low serum albumin, leukocytosis

Question 26

How does the liver function in amino acid metabolism/disposal of urea?

Answer 26

• Nitrogen produced by amino acid metabolism is converted to urea in the liver and excreted by the kidneys
• Liver failure - encephalopathy due to increasing ammionia levels in the brain (drowsy, confused)

Question 27

List the processes carried out in zone 1 of acini

Answer 27

• Respiratory chain
• Citric acid cycle
• Fatty acid oxidation
• Gluconeogenesis
• Urea synthesis - ammonia detoxification
• Production and excretion of bile
• Cholesterol synthesis

Question 28

List the ligaments of the liver

Answer 28

1. Falciform ligament
2. Coronary ligament
3. Triangular ligament
4. Lesser omentum

Question 29

Which areas are drained by the hepatic portal vein?

Answer 29

Drains from just below the gastroesophageal junction to the upper 2/3 of the rectum, as well as the spleen and pancreas

Question 30

What is primary biliary cholangitis?

Answer 30

• Autoimmune disease of the liver
• Slow, progressive destruction of the bile ducts of the liver
• Symptoms - tiredness, pruritis, jaundice, cirrhotic symptoms in advanced disease
• Cholestatic LFTs, anti-mitochondrial antibodies

Question 31

What should the patient be asked if their LFTs are abnormal

Answer 31

• Symptoms
  
  • Weight loss?
  • Anorexia?
  • Vomiting?
  • Pain?
  • Myalgia?
  • Jaundice?
  • Pruritis?
  • Urine/stool
• Exposure to hepatoxins? - alcohol, medication etc.
• Family history - viral hepatitis, heritable liver disease?
• Exposure to viruses - sexual transmission? Travel? Transfusion? IV drug use?

Question 32

What causes liver cirrhosis?

Answer 32

• Long-term hepatitis, including viral
  
  • Specifically - alcohol, non-alcoholic steatohepetitis (NASH), biliary disease
• Haemochromatosis

Question 33

How is alcohol metabolised in the liver?

Answer 33

• 2 main pathways, both oxidise alcohol to acetaldehyde, which is converted to acetate then acetyl coA which is used in the tricarboxylic acid cycle to produce fatty acids
• Reduces the liver’s capacity to oxidise other molecules
• Pathways = cytoplasma alcohol dehydrogenase and microsomal ethanol oxidising system

Question 34

List the external surfaces of the liver

Answer 34

• Diaphragmatic (has bare area)
• Visceral - in contact with right kidney, adrenal gland, colic flexure, transverse colon, 1st part of gallbladder, oesophagus and stomach)

Question 35

What is Gilbert’s syndrome?

Answer 35

• Autosomal dominant disease
• Deficiency of UDP-glucuronyl transferase
• Test to confirm - unconjugated bilirubin

Question 36

What does it mean if ALP is high without a corresponding rise in GGT?

Answer 36

Bone disease e.g. fractures, Paget’s disease, osteomalacia, bony metastasis

Question 37

Where do vascular structures enter/exit the liver?

Answer 37

• R and L hepatic ducts, R and L branches of hepatic artery and portal vein enter/exit at the porta hepatitis
• From anterior to posterior - duct, artery, vein

Question 38

What markers are tested in liver function tests?

Answer 38

• Bilirubin
• Albumin
• Alanin/aspartate aminotransferase (ALT/AST)
• Alkaline phosphatase
• Gamma glutamyl transferase (GGT)
• Total protein
• • viral markers, serum autoantibodies, serum immunoglobulins?

Question 39

When will total protein levels be high in LFTs?

Answer 39

Viral hepatitis

Question 40

Describe the process of lipogenesis

Answer 40

• Acetyl choline (from steroids, amino acids or breakdown products of glucose) is converted to fatty acids (can then be converted to triglycerides or cholesterol / prostaglandins / phospholipids / glycolipids)
• Amino acids can be converted to pyruvate, which is converted to acetyl choline
• Glycerol from glucose breakdown can be converted to triglycerides

Question 41

What causes fatty liver disease (steatosis)?

Answer 41

• Alcohol
• Obesity
• Type 2 diabetes
• Nutritional imbalance - after intestinal surgery or coeliac disease
• Drugs e.g. methotrexate, steroid-related drugs

Question 42

Where do portosystemic shunts and varices typically form in portal hypertension?

Answer 42

• Gastroesophageal junction
• Rectum
• Left renal vein
• Diaphragm
• Retroperitoneum
• Anterior abdominal wall via the umbilical vein

Question 43

Describe the cause of alcoholic hepatitis

Answer 43

• Related to volume and duration of alcohol excess
• Develops after 3-5 years of alcohol abuse but only occurs in 1/3 of alcoholics
• Females at greater risk
• Genetic susceptibility

Question 44

Describe the path of blood through the liver

Answer 44

• Incoming from hepatic artery or hepatic portal vein
• Travels through liver parenchyma to reach hepatic veins
• Sinusoids (specialised capillaries in parenchyma) connect incoming and outgoing blood flow

Question 45

Define cirrhosis

Answer 45

• Endstage liver disease
• Characterised by diffuse nodules and fibrosis

Question 46

What are the potential complications of splenomegaly in liver cirrhosis?

Answer 46

Fewer clotting factors (liver dysfunction) and fewer platelets (splenomegaly) - portosystemic varices vulnerable to rupture and bleeding - causes haematemesis and malena/haematochezia

Question 47

What are the consequences of hepatic detoxification?

Answer 47

Can generate toxic/carcinogenic metabolites

Question 48

What causes centrilobular necrosis?

Answer 48

• Caused by sepsis, shock induced ischaemia, congestive heart failure, toxicity from drugs/poisons
• Made worse by malnutrition, infection, fasting and exercise

Question 49

What function does the liver have in blood coagulation?

Answer 49

Formation of clotting factors - fibrinogen, prothrombin, accelerator globulin, factor VII (requires Vitamin K)

Question 50

What causes metabolic liver disease?

Answer 50

• Congenital deficiencies of enzymes
• Nutritional deficiency/excess
• Toxic damage to organelles
• Hypoxic/ischaemic insult
• Secondary to metabolic effects of disease

Question 51

Describe the epidemiology of hepatocellular carcinomas

Answer 51

• 85% of malignant primary liver tumours
• 80% in males
• 80% in cirrhotic livers

Question 52

What is the portal triad?

Answer 52

Bile ducts, hepatic artery, portal vein

Question 53

What does high unconjugated bilirubin indicate?

Answer 53

Increased bilirubin production or defects in hepatic uptake/conjugation

E.g. Gilbert’s disease (lack of UDP-glucuronyl transferase)

Question 54

Describe the breakdown of fatty acids to produce ATP

Answer 54

• Fatty acids to fatty acyl coA to acyl carnitine
• Acyl carnitine transported into mitchondrial matrix by carnitine shuttle
• Acyl carnitine to fatty acyl coA, undergoes beta oxidation to acetyl coA
• Acetyl coA goes through citric acid cycle to produce NADH and FADH₂, which produce ATP

Question 55

How does alcohol consumption increase hepatic lipids?

Answer 55

• Alcohol changes hepatocyte fat metabolism - increases lipid synthesis, catabolism impaired, accummulation of cholesterol esters and fatty acids
• Raised peripheral fat metabolism
• Decreased lipoprotein synthesis

Question 56

List the processes carried out in zone 3 of acini

Answer 56

• Glycolysis
• Glutamine synthesis
• Xenobiotic metabolism
• Lipogenesis
• Ketogenesis

Question 57

What indicates hepatocellular carcinoma?

Answer 57

High serum alpha-fetoprotein

Question 58

What causes Reye-Like acute onset liver failure?

Answer 58

Inherited metabolic disease - inborn errors of metabolism

Question 59

How are lipids produced in the liver transported around the body?

Answer 59

• Initially transported as VLDL (very low density lipoprotein) in the bloodstream, lipoprotein lipase releases fatty acids and monoglycerides for uptake by tissues
• VLDL is converted to IDL (intermediate density lipoprotein) and LDL (low density lipoprotein) in the bloodstream
• LDL transports lipids in the bloodstream, lipids (cholesterol) move from high to low concentration through capillary walls into interstitial fluids
• Excess cholesterol diffuses out of cells back into the bloodstream, absorbed by HDL (high density lipoprotein)
• HDL transports lipids back to the liver, excess excreted in bile salts

Question 60

List the types of parenchymal liver cells

Answer 60

• Hepatocytes (majority) - cuboidal epithelial cells, have microvilli
• Endothelial cells
• Kupffer cells (macrophages) - immune
• Perisinusoidal (fat-storing) cells - storage of fat-soluble vitamins A, D, E, K
• Liver associated lymphocytes - immune

Question 61

Describe the functions of the liver involved in carbohydrate metabolism

Answer 61

• Stores glycogen, releases glucose (through glycogenolysis or gluconeogenesis)
• Uses glucose for energy in glycolysis, citric acid cycle and fatty acid/triglyceride synthesis
• Converts fructose/galactose to glucose phosphates (for use in respiration)

Question 62

What is the effect of mitochondrial damage to the liver

Answer 62

• No beta oxidation of fatty acids - micro-vesicular steatosis
• No oxidative phosphorylation - insufficient ATP generation
• No respiratory chain - excess reactive oxygen species with lipid peroxidation
• Increased permeability transition - cell death

Question 63

Describe the structural arrangement of the liver

Answer 63

Portal tracts and parenchyma

Question 64

Describe the anatomical location of the liver

Answer 64

• R hypochondrium, epigastrum and L hypochondrium
• Just below diaphragm, lower edge at level of costal margin - usual not palpable unless hepatomegaly
• Inferior part passes xiphoid process
• Up to level of nipples

Question 65

What is the treatment for Reye-Like acute onset liver failure

Answer 65

Correct hypoglycaemia, acidosis, bleeding tendency and hyperammonaemia

Question 66

Describe the coverings of the liver

Answer 66

• Covered by fibrous membrane - Glission’s capsule
• Partially covered by peritoneum

Question 67

What should be checked in a physical examination if LFTs are abnormal?

Answer 67

• BMI
• Nutritional status
• Jaundice
• Ascites, pleural effusion, ankle oedema
• Hepatomegaly, splenomegaly, other abdominal masses
• Spider naevi - swollen vessels under the skin surface, central red spot and red extensions
• Palmar erythema

Question 68

How is the inferior vena cava secured to the liver?

Answer 68

By hepatic veins and fibrous tissue

Question 69

Hepatic mitochondrial dysfunctions include inborn enzyme deficiencies involving…

Answer 69

• Fatty acid oxygenation
• Organic acids
• Lactate metabolism
• Oxidative phosphorylation
• Urea cycle

Question 70

Where is alkaline phosphatase found?

Answer 70

Mostly liver and bone (+ intestines, placenta during pregnancy)

Question 71

Describe the venous drainage of the liver

Answer 71

• Caudate lobe drains directly into the inferior vena cava
• Other lobes drain into central veins, which drain to collecting veins then hepatic veins, which then join the inferior vena cava

Question 72

Describe the development and consequences of portal hypertension

Answer 72

• Increased resistance to blood flow due to fibrosis
• Blood escapes back to systemic circulation at portocaval anastomoses
• Leads to portosystemic shunts and varices, ascites and splenomegaly

Question 73

What is the effect of metabolic disease of the liver?

Answer 73

Dysfunction of:

• Synthesis - plasma proteins etc.
• Detoxification/degradation e.g. ammonia
• Regulation e.g. blood glucose

Question 74

How does the liver produce bile acids?

Answer 74

Bile acids are derivatives of cholesterol, which is recycled in the enterohepatic circulation

Question 75

How is the liver involved in protein metabolism?

Answer 75

• Albumin and glycoprotein synthesis
• Glycation of proteins

Question 76

Describe the conjugation of bilirubin in the liver

Answer 76

• Unconjugated bilirubin from the breakdown of haemoglobin is transported to the liver bound to albumin
• Ligandin presents unconjugated bilirubin to glucaronic acid
• Conjugated by UDP-glucuronyl transferase

Question 77

Describe the blood supply of the liver

Answer 77

• Hepatic artery
  
  • 30-40%
  • Incoming blood supply - rich in oxygenated blood, high pressure
• Hepatic portal vein
  
  • 60-70%
  • Incoming blood supply - rich in nutrients from gut, low pressure

Question 78

Describe the attachments of the triangular ligament

Answer 78

Left and right triangular ligaments attach the liver to the diaphragm

Question 79

Compare the cytoplasma alcohol dehydrogenase pathway to the microsomal ethanol oxidising system

Answer 79

• CAD - main route, not inducible
• MEOS - in smooth endoplasmic reticulum, uses cytochrome P450, is inducible (increased by alcoholism), affects metabolism of drugs e.g. paracetamol

Question 80

Describe the connective tissue of the liver

Answer 80

• Liver capsule
• Portal tracts
• Parenchymal reticulin - basement membrane, collagen type I + III

Question 81

Describe the process of detoxification which occurs in the liver

Answer 81

• Phase 1 reactions
  
  • In the smooth endoplasmic reticulum, mediated by cytochrome P450
  • Produces hydroxylated or carboxylated compounds
• Phase 2 reactions
  
  • Subsequent conjugation with glucaronic acid, acetyl or methyl radicals, glycine/taurine or sulphate

Question 82

Why is GGT used as a marker for liver function?

Answer 82

• Microsomal
• Transfers glutamyl from alpha glutamyl pepides to other peptides/amino acids
• In liver, hepatobilliary tree, heart, kidneys, lungs, pancreas and seminal vescicles
• Poor specificity for liver disease - good for raised ALP of liver origin or chronic alcohol consumptions
• Rasied GGT may be due to liver damage/alcohol consumption - not definite

Question 83

List the types of inherited metabolic diseases of the liver

Answer 83

• Essential product deficit e.g. glucose-6-phosphate deficiency (Glycogen storage 1)
• Precursor accummulation e.g. ornithine transcarbamylase deficiency (hyperammonaemia)
• Alternative pathway activation e.g. amino-acidopathy
• Or combination

Question 84

List the functions of the liver

Answer 84

1. Amino acid, carbohydrate and lipid metabolism
2. Plasma protein and enzyme synthesis
3. Bile production
4. Detoxification - drugs etc.
5. Storage of proteins, glycogen, vitamins and metals
6. Immune function

Question 85

Define ascites

Answer 85

Abnormal build-up of fluid in the abdominal cavity, sign of cirrhosis

Question 86

Describe the pathogenesis of cirrhosis

Answer 86

• Hepatocyte injury
  
  • Causes inflammation, which leads to fibrosis
  • Also leads to hepatocyte regeneration, forming hyperplastic nodules
• Nodules and fibrosis cause architectural abnormality, leading to ischaemia which causes further hepatocyte injury
• Shunts form - allowing blood to flow between arteries and veins and reducing the oxygenation of tissues

Question 87

How does the liver function in lipid metabolism?

Answer 87

• Mitochondrial beta oxidation of short chain fatty acids
• Synthesis of fatty acids, triglycerides, cholesterol, phospholipids and lipoproteins

Question 88

Compare AST and ALT

Answer 88

• AST
  
  • Cytosolic and mitochondrial
  • In liver, cardiac/skeletal muscle, kidneys, brain, pancreas, lungs, leukocytes and RBC
  • Low sensitivity/specificity for the liver
• ALT
  
  • Cytosolic
  • More specific to liver

Question 89

Describe the microscopic pathological changes seen in fatty liver disease

Answer 89

• Lipid droplets in hepatocytes
  
  • Initially small - microvesicular
  • Coalesce to form macrovesicular
• Seen after 2 days of alcohol excess
• Rapid reversal

Question 90

Describe the blood pressure of the hepatic portal vein

Answer 90

Low pressure (below 10mmHg) already through the gut capillary bed

Question 91

Describe the structure of the falciform ligament

Answer 91

• Attaches to the anterior abdominal wall, divides the left and right lobes
• Free edge = ligamentum teres, remnant of the umbilical cord