Liver and Biliary System

Question 1

What are the functions of the liver?

Answer 1

• Synthesis: e.g. of enzymes (proteins (e.g. ALT, alanine transferase)
• Excretion: e.g. bilirubin in bile
• Catabolic: e.g. processing of nutrients absorbed in the GI tract

Question 2

Describe the blood supply to the liver

Answer 2

75% from the portal vein (25% from the hepatic artery); everything which enters the blood from the GI tract will pass through the liver, including bacteria, parasites and drugs

Question 3

Name 3 congenital defects that can occur to the liver

Answer 3

• Absence of lobes / supernumerary lobes
• Intrahepatic congenital cysts - cats
• Congenital portosystemic vascular shunts - dogs, cats

Question 4

What is a cysts?

Answer 4

• A structure lined by cuboidal or flattened epithelium
• Usually a normal structure that has become massively dilated
• Contain clear serous fluid

Question 5

Cats with which disease can also have intrahepatic congenital cysts?

Answer 5

Polycystic kidney syndrome

Question 6

An intrahepatic shunt is due to the persistence of?

Answer 6

Fetal ductus venosus

Question 7

Which breeds are predisposed to a intrahepatic congenital shunt

Answer 7

Irish wolfhounds

Question 8

Where does the ductus venosus connect in a foetus?

Answer 8

The left umbilical vein and the caudal vena cava

Question 9

Where does an extrahepatic congenital shunt connect?

Answer 9

Direct connection between the portal vein and the caudal vena cava or azygous vein

Question 10

Which breeds are predisposed to a extrahepatic congenital shunt

Answer 10

Small breed dogs (Maltese and Yorkshire terriers) and cats

Question 11

What are the effects of Congenital portosystemic vascular shunts

Answer 11

• Large amount of blood from portal vein (containing hepatotrophic substances) bypasses the liver
• Clinically: “failure to thrive”, i.e. small for age / poor growth; ultimately hepatic encephalopathy
• Not compatible with life in the long term

Question 12

Describe the gross and histological appearance of a liver with a Congenital portosystemic vascular shunt

Answer 12

Gross finding: small liver
Histology: 
- small hepatocytes
- small / absent portal veins in triads 
- reduplication of arterioles in triads

Question 13

What are the two forms of liver dislocation?

Answer 13

Diaphragmatic hernia

Torsion

Question 14

Describe Diaphragmatic herniation of the liver and its effects

Answer 14

• May be seen as a traumatic lesion; one on slide is severe
• Causes increased respiratory effort due to increased pressure/decreased space for inflation of lungs
• Congenital lesion; if lobar blood supply is affected > necrosis

Question 15

Describe torsion of the liver and its effects

Answer 15

• Twisting of a lobe on its axis which disrupts the blood supply to the lobe -> necrosis
• Left lateral lobe is predisposed, but torsion is rare.
• Haemorrhagic shock > death

Question 16

What are the possible causes of a ruptured liver?

Answer 16

• Blunt trauma (e.g. road traffic accidents)
• Alterations in parenchyma (e.g. amyloidosis)
• Neoplasms (e.g. haemangiosarcoma)

Question 17

What is the consequence of liver rupture?

Answer 17

Haemoperitoneum

Question 18

Describe the changes following trauma e.g. RTA to the liver

Answer 18

Haemorrhage, clot, fibrinolysis; this liver is also yellow with rounded edges > amyloidosis or lipidosis (increased friability and risk of rupture)

Question 19

What are the effects of amyloid in organs?

Answer 19

Causes swelling and makes them friable

Question 20

Which type of neoplasm could cause liver rupture? How?

Answer 20

Haemangiosarcoma

- vascular tumour as it arises from endothelial cells so it often creates blood filled spaces which can rupture

Question 21

Which animals are most susceptible to liver rupture?

Answer 21

Young animals e.g. foals falling to floor during birth

Question 22

Describe passive hyperaemia in the liver

Answer 22

= Congestion from the central vein

- increased pressure within the hepatic vein/venules, compared to the portal vein/venules

Question 23

What are the 3 causes of acute congestion in the liver?

Answer 23

• Acute cardiovascular failure (i.e. agonal)
• Anaphylaxis
• Shock

Question 24

How does acute congestion appear histologically?

Answer 24

Sinusoids surrounding the central vein are dilated by erythrocytes

Question 25

‘Nutmeg’ liver occurs as a consequence of?

Answer 25

Chronic liver congestion

Question 26

Describe the process of chronic congestions

Answer 26

Increased pressure in hepatic vein -> increased pressure in the sinusoids -> thicker capsular surface of the liver and nodular texture

Question 27

Chronic congestion most commonly occurs secondary to?

Answer 27

Congestive heart failure (endocardiosis [dog] or traumatic reticuloperitonitis [cow])

Question 28

Describe the pathophysiology of congestive heart failure and its effects on the liver

Answer 28

Increased venous pressure (backwards HF) -> build up of blood in the systemic circulation -> chronic congestion of the liver -> ascites

Question 29

What are the gross findings in a liver with chronic congestion?

Answer 29

• Slightly nodular and rough surface
• Ascites, fibrin deposition: paler areas
• Thickened capsule
• Nodular appearance
• On the cut surface: very congested and dilated areas of sinusoids with blood pooling
• Fibrosis around the central vein

Question 30

Describe the histological appearance of a liver with chronic congestion

Answer 30

• Centrolobular necrosis: centrolobular hepatocytes become progressively more hypoxic as they are the furthest away from the blood supply -> necrosis
• Fibrosis around central vein (repair)

Question 31

What is the pathogenesis of chronic congestion?

Answer 31

Congestion > decreased oxygen supply > hypoxia/ anoxia of tissues > necrosis > fibrosis

Question 32

Acquired porto-systemic shunts (extrahepatic) occur due to?

Answer 32

Chronic liver disease

Question 33

How does Chronic liver disease cause extrahepatic shunts?

Answer 33

Hepatic fibrosis and/or cirrhosis:

• > development of portal hypertension
• > dilation of (non-functional) veins between portal vein (or veins which terminate in the portal vein) and caudal vena cava

Question 34

Define teleangiectasis

Answer 34

Dilation of functional blood vessels

Question 35

Define Peliosis hepatis

Answer 35

Irregular blood-filled cystic spaces in the liver parenchyma

Question 36

Peliosis hepatis occurs due to?

Answer 36

Focal necrosis of hepatocytes

Question 37

Why are hepatocytes easily degenerated?

Answer 37

• High metabolic rate

- Prone to alterations in oxygenation of blood

Question 38

What is ‘cloudy swelling’?

Answer 38

Hydropic degeneration

• Non-specific change (e.g. toxins, metabolic insults, hypoxia, cholestasis)
• Influx of Na+ and water into cytoplasm -> expanded organelles
• Hepatocytes appear clearer as they are swollen with water
• Reversible

Question 39

What is atrophy?

Answer 39

Reduction in the size of cells

Question 40

What are the causes of atrophy?

Answer 40

• Pressure from other internal organs

- Reduced blood supply e.g. shunt

Question 41

Define steatosis/lipidosis

Answer 41

Abnormal accumulation of triglycerides within hepatocytes

Question 42

What are the pathogenic causes of steatosis/lipidosis

Answer 42

• Nutritional: fat or carbohydrate rich diet = obesity
• Excessive release of fatty acids from adipose tissue; i.e. due to energy demand being greater than supply (starvation, late in pregnancy, early in lactation [dairy cows]
• Hypoxia: decreased oxidation of FA > accumulation in cells
• Toxic: impaired synthesis of apoproteins > decreased lipoprotein synthesis > destruction of cellular membranes

Question 43

Describe the gross appearance of a liver with lipidosis

Answer 43

• Enlargement of liver; increase size, rounded edges of lobes
• Change in colour (pale, yellow)
• Friable
• Cut surface: colour change to yellow/orange

Question 44

What clinical scenarios would pre-dispose a horse to hepatic lipidosis?

Answer 44

• Enterocolitis
• Feed restriction for treatment of colic
• Obesity
• Pregnancy
• Lactation

Question 45

Describe the histological appearance of a liver with lipidosis

Answer 45

• Small droplets of lipid fuse to form bigger vacuoles, which distend the cell and displace the nucleus to the periphery.
• Vacuoles are white/clear on HE; Fat stain (oil red orange) >orange

Question 46

Hyperlipidaemia occurs with what conditions?

Answer 46

• Diabetes mellitus
• Pancreatitis
• Hypothyroidism
• Hyperadrenocorticism
• With high dietary fat intake

Question 47

What are ketones?

Answer 47

Intermediate or waste products of lipid metabolism -> increased during increased lipolysis

Question 48

Ketosis occurs with which conditions?

Answer 48

• Starvation
• Diabetes mellitus
• Pregnancy
• Lactation
• Sheep; pregnancy toxaemia “twin lamb disease”

Question 49

How does ketosis occur?

Answer 49

Increased demand for gluconeogenesis or glucose, impaired utilisation of glucose -> excessive breakdown of adipose tissue

Question 50

Describe hypoglycaemia and fatty liver syndrome in small dog breeds

Answer 50

Puppies; low capacity for gluconeogenesis from muscle protein as small muscle mass; anorexia due to stress (infection, vaccination)

Question 51

How does hepatic lipidosis occur due to hyperadrenocorticism

Answer 51

Glucocorticoids lead to:

• Decreased lipogenesis
• Increased lipolysis of adipose tissue
• Increased catabolism of skeletal muscle protein
• Increased gluconeogenesis in the liver (↑ glycogen stores)

Question 52

Describe the pathogenesis of tension lipidosis

Answer 52

Tension > decreased local perfusion > local hypoxia > decreased lipoprotein synthesis and transport from hepatocytes > accumulation of lipid

Question 53

What is glycogen?

Answer 53

Rapidly available energy store in cytoplasm of hepatocytes

Question 54

Which conditions cause hepatic glycogen storage?

Answer 54

• Diabetes mellitus
• Glycogen storage diseases
• Steroid-induced hepatopathy (dogs)

Question 55

How does diabetes cause glycogen storage?

Answer 55

Hyperglycaemia > hepatocytes are highly permeable to glucose > increased glycogen synthesis and storage

Question 56

Describe the histology of a liver with glycogen storage

Answer 56

• Swelling of cell (influx of fluid) “hydropic degeneration”
• Feathery appearance to cytoplasm
• PAS positive glycogen – stain for carbohydrates (glycogen)

Question 57

What is amyloid?

Answer 57

Pathological proteinaceous substance deposited between cells (in space of Dissé and sinusoids – normally not visible, it lies between the endothelial cells that line the sinusoids and hepatocytes)

Question 58

Which type of amyloid is synthesised within the liver?

Answer 58

Serum amyloid A

- Synthesised in hepatocytes (not Ig), derived from SAA (precursor acute phase serum lipoprotein)

Question 59

Describe how a liver with amyloidosis would appear grossly?

Answer 59

Pale, enlarged, rounded edges, uneven surface

Question 60

Describe how a liver with amyloidosis would appear histologically?

Answer 60

Amyloid in perisinusoidal spaces (space of Dissé) between sinusoidal lining and hepatocyte > compressed hepatocytes
Pale pink extracellular material

Question 61

Name 5 pigments that can be found in the liver

Answer 61

• Bile pigment
• Lipofuscin
• Haemosiderin
• Melanin
• Iron porphyrin

Question 62

Where is Haemosiderin seen?

Answer 62

In Kupffer cells (macrophage cells)

Question 63

What is haemochromatosis?

Answer 63

Hepatic Haemosiderin accumulation due to increased iron uptake (sheep, cattle: high levels of iron in pasture and water)

Question 64

What are the pathological findings of haemochromatosis?

Answer 64

• Hepatomegaly
• Haemosiderin accumulation in hepatocytes, Kupffer cells, lymph nodes, pancreas, spleen
• Periportal bridging fibrosis and nodular regeneration

Question 65

How does haemochromatosis appear histologically?

Answer 65

Disseminated Haemosiderin due to high ferritin and iron (Perl’s Prussian blue stain for iron)

Question 66

What are the two causes of photosensitisation?

Answer 66

a) due to defective pigment synthesis

b) due to intoxication e.g. St. John`s wort, buckwheat