9.5.4: Acute hepatobiliary disease

Question 1

Diseases in which zone produce jaudice earliest?

Answer 1

Zone 1
Due to local cholestasis

Question 2

Metabolic and toxic damage primarily affects which zone?

Answer 2

1

Question 3

Hypoxic damage primarily affects which zone?

Answer 3

3

Question 4

Non-specific signs of liver disease

Answer 4

• Depression/lethargy
• Anorexia
• Weight loss
• Vomiting/diarrhoea
• PUPD

Question 5

-
More specific signs of liver disease

Answer 5

• Jaundice
• Hepatic encephalopathy
• Ascites
• Drug intolerance
• Coagulopathy

Question 6

Describe how liver disease can cause GI signs

Answer 6

• These signs probably reflect the metabolic derangements in the liver
• Sometimes due to portal hypertension
• Portal hypertension -> leads to vascular stasis and venous congestion (not well tolerated by GIT)
• Portal hypertension increases the risk of GI ulceration

Question 7

Describe how liver disease leads to PUPD

Answer 7

Various reasons suggested:
* Decreased urea production -> decreased medullary solute gradient -> impaired renal concentrating mechanism -> dilute urine and compensatory
* Psychogenic component -> linked to hepatic encephalopathy
* Reduced hormone metabolism e.g. cortisol

Question 8

Describe how liver disease leads to ascites

Answer 8

• Portal hypertension -> increased portal flow -> increased resistance to flow e.g. in cirrhotic liver
• Hypoalbuminaemia - albumin has to be significantly low to cause ascites

Question 9

How low does albumin have to be to cause ascites?

Answer 9

Serum albumin <15g/l

Question 10

Where can we localise the cause of jaundice to?

Answer 10

• Prehepatic: bilirubin production exceeds the liver’s capacity to excrete it
• Hepatic: decreased uptake, conjugation and excretion of bilirubin
• Post-hepatic : obstruction of the biliary tree/prevention of excretion via faeces

Question 11

Describe how liver disease causes neurological signs (hepatic encephalopathy)

Answer 11

• Ammonia and other encephalopathic toxins originate in the GIT
• Normally, they are detoxified in the liver
• In abnormal situations, detoxification fails e.g. toxins bypass liver or the liver is overwhelmed

Question 12

How does hepatic encephalopathy develop in congenital portosystemic shunts (cPSS)?

Answer 12

Toxins bypass the processing plant of the liver

Question 13

How does hepatic encephalopathy develop in fulminant acute liver disease?

Answer 13

Detoxification processes in the liver are compromised and overwhelmed

Question 14

How does hepatic encephalopathy develop in acquired portosystemic shunts?

Answer 14

• Chronic fibrotic/cirrhotic liver disease leads to multiple tortuous anastomotic vessels opening up, diverting blood from the hepatic portal vein to bypass the liver

Question 15

Why is PCV helpful in localising the cause of jaundice?

Answer 15

• If jaundice is pre-hepatic, this means bilirubin is overwhelming the liver
• Bilirubin is formed from breakdown of RBCs e.g. haemolytic anaemia
• If PCV is normal, we can rule out pre-hepatic causes of jaundice

Question 16

Which is more common in dogs: primary or secondary liver disease?

Answer 16

Secondary liver disease

Question 17

What are some differentials/possible causes of secondary hepatopathies?
(i.e. what would damage the liver?)

Answer 17

• GI disease
• Pancreatitis
• Endocrine disease: HAC, DM, HypoT4 (dogs), HyperT4 (cats)
• Right-sided congestive heart failure
• Hypoxia e.g. secondary to shock, trauma, anaemia
• Toxaemia
• Sepsis/bacteraemia
• Drug-induced e.g. corticosteroids, phenobarbitone

Question 18

True/false: if you suspect secondary liver disease, a good first step is to biopsy the liver.

Answer 18

False
* Biopsy is very invasive and if disease is secondary, it is not necessary and will not help get us to a diagnosis.
* Biopsy may show changes in the liver, but if we treat the primary cause/underlying disease, the secondary liver disease should resolve

Question 19

True/false: liver enzymes are highly sensitive and specific marker of primary liver disease.

Answer 19

False
Liver enzymes are sensitive markers of hepatic injury, but they are not specific for primary liver disease.

Question 20

True/false: the magnitude of the elevation of liver enzymes may reflect the degree of damage to the liver.

Answer 20

True
For example, a large elevation in liver enzymes may correlate with marked damage. However, this is not prognostic, due to the regenerative capacity of the liver.

Question 21

Which liver enzymes are markers of hepatocellular injury?

Answer 21

• ALT
• AST
• GLDH

These are released from hepatocytes following damage, when cell necrosis/changes in membrane permeability cause the enzymes to leak out.

Question 22

Which liver enzymes are markers of cholestasis?

Answer 22

• ALP
• GGT

Question 23

What are some relatively non-specific markers of liver function?

Answer 23

• Albumin
• Urea
• Glucose
• Cholesterol
• Coagulation factors

Question 24

What are some specific markers of liver function?

Answer 24

• Bilirubin
• Bile acids
• Ammonia

Question 25

What levels of ALT might you expect in end-stage liver disease?

Answer 25

In end stage liver disease, ALT may be normal or only slightly increased.

Question 26

Liver regeneration might cause levels of which enzyme to be high?

Answer 26

ALT

Question 27

True/false: AST is a highly specific liver enzyme.

Answer 27

False
AST is found in the liver, but also in skeletal and cardiac muscle.
It is found in the mitochondria, so more damage (compared to ALT) might be required before AST leaks out of cells.

Question 28

If you see elevations in AST with no change to ALT, what might this be suggestive of? There might also be elevations in CK with these cases.

Answer 28

Muscle inflammation (skeletal and cardiac muscle contain AST)

Question 29

Which enzymes are consider markers of cholestasis and why is this?

Answer 29

Enzymes = ALP and GGT
* These enzymes are found on the bile canalicular membrane and normally secreted in small amounts into bile
* Impaired bile flow leads to increased synthesis and release of these enzymes

Question 30

Which liver enzyme is usually the last to normalise after acute hepatic insult?

Answer 30

ALP

Question 31

True/false: ALP is liver specific.

Answer 31

False
ALP may increase with acute hepatic insult, but also with:
* drug administration in dogs (e.g. corticosteroids, anticonvulsants)
* secondary reactive hepatopathies (e.g. hyperT4)
* bone lesions
* in young animals.

Question 32

What are the species differences to be aware of when assessing ALP?

Answer 32

• ALP has a long T1/2 in dogs (66hrs) but short in cats (6hrs)
• Therefore in dogs, increases of ALP are more marked and prolonged than in cats
• In cats, small increases in ALP are always significant

Question 33

When does GGT increase?

Answer 33

• GGT increases in cholestasis, in parallel with ALP

Question 34

What percentage of hepatic function must be lost to generate hypoalbuminaemia?

Answer 34

Liver must lose more than 70% of function to cause hypoalbuminaemia.
i.e. there must be very bad liver disease/damage for this to be the cause of low albumin!

Question 35

How do urea levels relate to hepatic function?

Answer 35

Low urea indicates decreased ability to synthesise urea from ammonia in the hepatic urea cycle.

Question 36

True/false: urea levels are specific for hepatic disease.

Answer 36

False
Urea levels are poorly sensitive and specific for hepatic disease because they are influenced by many extrahepatic variables, e.g.:
* hydration status
* recent meal
* GI bleeding

Question 37

Which liver conditions is low urea most commonly seen with?

Answer 37

• Congenital portosystemic shunts
• End-stage liver disease

Question 38

The liver makes all clotting factors except…

Answer 38

Factor VIII and vWF

Question 39

Which anti-clotting factors and fibrinolytic proteins are made by the liver?

Answer 39

All of them

Question 40

Where it the site of activation for Vitamin K-dependent clotting factors?

Answer 40

The liver

Question 41

Decreased production of clotting factors (e.g. in end-stage liver disease) leads to:

Answer 41

• Prolonged clotting times (APTT and PT)
• Risk of spotaneous bleeding
• Risk of complications in liver biopsy

Question 42

When might we see increased bile acids?

Answer 42

• Hepatic dysfunction
• Cholestasis
• PSS

Question 43

True/false: if we have a jaundiced patient, a bile acid stim test could be undertaken to provide more info.

Answer 43

False
No point doing a bile acids stim test in this patient.

Question 44

Describe how to undertake a bile acid stim test, and what the normal and abnormal findings might be

Answer 44

• Take blood sample, feed patient, take 2nd blood sample 2 hrs later
• Normal = bile acids have returned to normal levels by 2hrs after feeding
• Abnormal = bile acids remain elevated 2hrs after feeding

Question 45

How can bilirubin act as a marker of liver function and what are the limitations of this?

Answer 45

• Bilirubin is produced from the breakdown of heme-containing compounds (hence marker of liver function)
• However we have to rule out pre- and post-hepatic jaundice

Question 46

How does bilirubin relate to jaundice?

Answer 46

Jaundice is caused by the retention of bilirubin in soft tissues