Chronic Liver Disease, Cirrhosis, Gallstone problems

Question 1

Cirrhosis histology

Answer 1

Px: necrosis of hepatic parenchyma causes connective tissue proliferation and nodular regeneration

Question 2

Acute liver failure causes:
Infection [3]
Toxins [4]
Other [3]
Obstetric [2]
Ischemic [1]
What is a trigger of cirrhosis and decompensated liver failure?

Answer 2

o Infection: hepatitis A or B, CMV, EBV, leptospirosis
o Toxins: alcohol, paracetamol, isoniazid, halothane
o Other: Budd-Chiari, Wilson’s, autoimmune hepatitis
o Obstetric: eclampsia, acute fatty liver of pregnancy
o Ischaemic hepatitis: post cardiac arrest

Cirrhosis can be triggered by constipation

Question 3

Liver failure
Classic triad
Presentation [5]

Answer 3

• Classic triad: encephalopathy, jaundice, coagulopathy

• jaundice
• oedema and ascites
• bruising
• encephalopathy (asterixis and constructional apraxia (unable to draw 5-pointed star)
• fetor hepaticus

Question 4

Investigation of liver failure [7]

Answer 4

• FBC: leucocytosis (infection), anaemia (GI bleed), reduced MCV (alcohol)
• U&E and creatinine: hepatorenal syndrome
• LFT
• ABG: metabolic acidosis
• Clotting: increased INR
• Glucose: hypoglycaemia (gluconeogenesis is the last function to fail)
• Underlying cause: liver screen incl. paracetamol screen

Question 5

Mx of liver failure [3]

Monitoring [3]

Answer 5

ITU admission with mx of underlying cause
• Nutrition: via NGT with high carbs, PABRINEX
• Stress ulcer prevention: PPI
• Monitoring:
- fluid balance (urinary and CVP catheters)
- glucose (1-4hrly with 10% dextrose IV 1L/12h)
- bloods (daily FBC, U&E, LFT, INR)

Question 6

Liver transplantation in acute failure

King’s college hospital criteria: PCM induced [4] and non-PCM induced [6]

Answer 6

o Paracetamol induced: - pH<7.3 24h after ingestion
- OR ALL 3 of
1. PT >100s
2. Cr >300mM
3. grade 3 or 4 encephalopathy
o Non-paracetamol induced:
- PT >100s
- OR 3 out of 5 of
1. drug induced
2. <10 or >40y/o
3. >1w from jaundice to encephalopathy
4, PT >50s
5. bilirubin >300uM

Question 7

Managing cirrhosis [2]

Answer 7

1. Prevent CX
   - Laxatives
   - Vitamin K
   - Nutritional support
   - Human albumin solution
   - CIPRO
2. Liver transplant

Question 8

What are cirrhosis complications? [4]

Answer 8

o Decompensation: hepatic failure
o Spontaneous bacterial peritonitis
o Portal hypertension: splenomegaly, ascites, varices, encephalopathy
o HCC: increased risk

Question 9

Liver transplant indictions in non-acute liver failure [2]
Contraindicated [5]
Types [2]

Answer 9

Advanced cirrhosis
HCC

o CI: extra hepatic malignancy, severe cardiorespiratory disease, sepsis, HIV infection, non-compliance with therapy

o Types: cadaver (heart beating or heart not beating), live (right lobe)

Question 10

Liver transplant mx post-op [2]

Complications [5]

Answer 10

12-24h in ITU
Immunosuppression
Complication:
- acute rejection 5-10d after, sepsis, hepatic artery thrombosis, chronic rejection, disease recurrence (HBV)

Question 11

Hepatic encephalopathy

Pathophysiology [4]

Answer 11

• reduced hepatic metabolic function causes conversion of liver toxins directly into systemic system
• with ammonia accumulation and transfer over the BBB
• In the brain converted to glutamate and then glutamine
• causing osmotic imbalance and cerebral oedema

Question 12

Hepatic encephalopathy Westhaven Classification [4]

Ix [3]

Answer 12

• I (confused): irritable, mild confusion, sleep inversion
• II (drowsy): increased disorientation, slurred speech, asterixis
• III (stupor): rousable, incoherent
• IV (coma): unarousable +/- extensor plantars

Ix: MOCA, ammonia (raised), EEG

Question 13

Hepatic encephalopathy precipitants [4]

Answer 13

constipation haemorrhage
infection, electrolyte imbalance, hypoglycaemia,(hyponatraemia, hypokalaemia)
poisons (alcohol, diuretics, sedatives, anaesthetics)
HCC

Question 14

Hepatic encephalopathy Mx [3]

Answer 14

Avoid sedation
Lactulose +/- phosphate enema
Rifaximin prophylaxis - reduces small bowel bacteria ammonia production

Question 15

Portal hypertension pathophysiology [2[

Answer 15

• increased intrahepatic pressure causes increased hepatic portal pressure
• When this exceeds 12mmHg, collateral circulation form between portal and systemic circulation

Question 16

Portal hypertension features [4]

Answer 16

• Oesophageal and gastric varices: portal long and short gastric veins anastomose with systemic inferior oesophageal veins
• Caput medusae: portal peri-umbilical veins anastomose with superior abdominal wall veins
• Prominent abdominal veins (more common): portal HTN if ABOVE umbilicus (IVC obstruction if below)
• Haemorrhoids: portal superior rectal veins anastomose with systemic middle and inferior rectal veins

Question 17

Portal hypertension presentation [5]

Answer 17

• varices
• caput medusae
• haemorrhoids
• splenomegaly
• ascites, encephalopathy (NOT a cause of hepatomegaly)

Question 18

Esophageal and gastric varices causes
Prehepatic
Hepatic [3]
Post hepatic [3]

Answer 18

• Pre-hepatic: portal vein thrombosis
• Hepatic: cirrhosis, schistosomiasis, sarcoidosis
• Post-hepatic: Budd-Chiari, RHF, constrictive pericarditis

Question 19

Esophageal and gastric varices Pathophys

Answer 19

Px: portal HTN leads to dilated veins at sites of porto-systemic anastomosis (left gastric and inferior oesophageal veins)

Question 20

Esophageal and gastric varices prevention [2]

Answer 20

o Non-cardio selective beta blocker: PROPRANALOL
o Endoscopic variceal band ligation (EVL): performed as PRIMARY GI BLEED PREVENTION at 2 weekly intervals until all varices eradicated (with PPI cover to prevent EVL induced ulceration)

Question 21

Esophageal and gastric varices prophylactic or acute refractory management [5]

Answer 21

trans jugular intrahepatic Porto-systemic shunt (TIPSS)

• where IR used to create artificial channel between hepatic vein and portal vein
• to reduce portal pressure; involves using colapinto needle
• to create tract through liver parenchyma
• which is expanded using a balloon and maintained via stent placement

Question 22

Hereditary haemochromotosis
Ep
Ax [2]
Px [3]

Answer 22

Ep: 40-60y/o
Ax: autosomal recessive mutation in HFE gene on chromosome 6
Px:
- inherited multisystem disorder due to abnormal iron metabolism
- where increased intestinal absorption (increased enterocyte DMT and reduced hepatocyte hepcidin)
- leading to deposition in multiple organs

Question 23

Hereditary haemochromotosis - which organs can it affect? [6]

Answer 23

• Myocardial: dilated cardiomyopathy, arrythmias
• Endocrine: pancreas (DM), pituitary (hypogonadism causing amenorrhoea and infertility), parathyroid (hypocalcaemia, osteoporosis)
• Arthritis: 2nd and 3rd MCP joints, knees and shoulders
• Liver: chronic liver disease leading to cirrhosis and HCC, hepatomegaly
• Skin: slate grey/bronze discolouration
• Other: erectile dysfunction

Question 24

Investigations for hereditary hemochromatosis [5]

Answer 24

• Bloods: LFT (ALT>AST), haematinics (increased ferritin and transferrin saturation (>55% in M and >50% in F) and iron and reduced total iron binding capacity)
• XR: chondrocalcinosis
• ECG and echo
• Liver biopsy: pearl stain to quantify Fe and severity
• MRI: estimates iron loading

Question 25

Wilson’s disease
Ep
Ax
Px [3]

Answer 25

Ep: presents between childhood and 30y/o (NEVER >56y/o)
Ax: autosomal recessive mutation in ATP7B gene on chromosome 13
Px:
- mutation in copper transporting ATPase
- means there is impaired hepatocyte incorporation into caeruloplasmin and excretion into bile
- which results in copper accumulation in liver and later in other organs

Question 26

Presentation: Wilson's disease
Eyes
Neurology
Psychiatry
Haematology

Answer 26

• Eyes: corneal Kayser Fleischer rings (may require slit lamp to see)
• Neurology: parkinsonism, spasticity, dysarthria, dysphagia, ataxia, asterixis
• Psychiatry: depression, dementia, psychosis
• Haematology: Coombs’ negative haemolytic anaemia

Question 27

Presentation: Wilson's disease
Liver [2]
Renal [2]
Gynae
MSK [2]

Answer 27

• Liver: childhood acute hepatitis, fulminant necrosis may occur leading to cirrhosis
• Renal: renal tubular acidosis causing osteomalacia
• Gynae: recurrent miscarriage
• Arthritis: chondrocalcinosis and osteoporosis

Question 28

What is type 1 hepatorenal

Answer 28

<2 weeks

Usually following acute event e.g. acute GI bleed

Question 29

What is type 2 hepatorenal

Answer 29

Gradual decline in renal function

Usually in combination with refractory ascites

Question 30

Define jaundice [2]

Clinical significant level of serum bilirubin [2]

Answer 30

Jaundice is yellowish discoloration of the sclera and mucous membrane

It is clinically manifest when serum bilirubin > 3mg/dL (51 µmol/L)

Question 31

How can we classify jaundice [3]

Answer 31

Haemolytic jaundice
Hepatocellular jaundice
Obstructive jaundice

Question 32

How can obstructive jaundice be classified further and differentiate between the two [4]

Answer 32

Medical obstructive jaundice
- Which is caused by intrahepatic biliary obstruction
Surgical obstructive jaundice
- Which is caused by extrahepatic biliary obstruction

Question 33

Classify surgical obstructive jaundice into 2 groups

Answer 33

Calcular obstructive jaundice

Malignant obstructive jaundice

Question 34

Haemolytic jaundice

Answer 34

Unconjugated bilirubin high
ALT, AST, ALP normal
Urine and stool normal

Question 35

Hepatic jaundice

Answer 35

Mixed bilirubin
ALT+ AST high
ALP mild increase
Dark urine

Question 36

Obstructive jaundice

Answer 36

Conjugated bilirubin raised
ALT and AST mild increase
ALP marked increase
Urine dark / pale stool

Question 37

What are pre-hepatic causes of Jaundice [4]

Answer 37

Haemolysis
Gilbert, Crigler Naajar
Post-transfusion
Drugs

Question 38

What are causes of hepatic [6]

Answer 38

All hepatomegaly causes
Drugs, TPN
3 C’s
Cancer, Cirrhosis, Congestion

3 I’s
Infection, Inflammation, Infiltration

Question 39

What are obstructive causes [6]

Answer 39

CBD stone, Cholangitis
Cholangiocarcinoma
Stricture (iatrogenic)
Pancreatic cancer, Liver mets
PBC
Mirizzi syndrome

Question 40

Cholelithiasis classification [3]

Answer 40

Types of stones

• Cholesterol gallstones 90%
• Bile pigment stones
• Mixed gallstones

Question 41

Cholelithiasis pathogenesis: 2 mechanisms

What are risk factors of cholesterol gallstones [5]

Answer 41

Biliary colic
Acute cholecystitis

RF:

• Female
• Fat
• Forty
• Fertile
• Fair (genetic)

Question 42

Cholelithiasis pathogenesis: difference between biliary colic and acute cholecystitis [5]

Answer 42

1. Biliary colic: transient obstruction of cystic duct
2. Acute cholecystitis:
   - persistent cystic duct obstruction traps bile in the gallbladder
   - causing irritation and increasing pressure
   - trauma by gallstone stimulates prostaglandin release
   - inflammation and secondary bacterial infection causing necrosis and perforation (occasionally acalculous)

Question 43

Cholelithiasis presentation
Biliary colic [4]
Acute cholecystitis [4]

Answer 43

Biliary colic

• RUQ or epigastric pain
• 30min to 6h
• Sudden, dull, colicky
• Worse after meal, fatty foods

Acute cholecystitis

• Intense RUQ pain
• Initially in epigastrium and LLQ, referred to shoulder tip
• Previous episodes of biliary colic
• Fever, nausea, vomiting

Question 44

Cholelithiasis presentation

Signs of acute cholecystitis

Answer 44

Paplable distended gallbladder
Pyrexia
Positive Murphy’s sign

Question 45

What s Murphys sign? [3]

Answer 45

• palpation of the right subcostal region
• produces tenderness which worsens during deep inspiration and causes termination of inspiration
• only +ve if does not occur on LHS; can also be elicited during USS
• Indicates acute cholecystitis

Question 46

Investigations cholelithiasis [3]

Answer 46

• Bloods: FBC (WCC up), CRP, amylase (?pancreatitis), LFT showing obstructive picture
• Abdo USS
• MRCP

Question 47

Management of biliary colic [3]

Answer 47

NSAIDs, opiates as required
Anti-emetic
Elective laparoscopic cholecystectomy

within 6w of first presentation

Question 48

Mx acute cholecystitis [4]

Answer 48

NBM, IV fluids, monitoring, analgesia, anti-emetic
IV abx - coamoxiclav, metronidazole
Laparoscopic cholecystectomy within 1 week
Percutaneous cholecystectomy

Question 49

Window period to do an elective lap. chole. if biliary colic only

Window period to do an lap. chole. if acute cholecystitis

Answer 49

Elective lap chole:
Do within 6w of first presentation

Lap chole for acute cholecystitis:
- within 72h-1w of presentation

Question 50

Complications of cholelithiasis

Answer 50

Gallbladder empyema
Mirizzi syndrome
Acute pancreatitis
Bouveret syndrome
Gallstone ileus

Question 51

Mirizzi syndrome [2]

Answer 51

Gall stone impaction in neck of gallbladder

Causes compression of common bile duct and obstruction jaundice

Question 52

Choledocholithiasis
Epidemiology [2]
Define
Sequelae

Answer 52

F>M, >40yo
Common bile duct stones
Can lead to ascending cholangitis

Question 53

Choledocholithiasis presentation
Symptoms [2]
Signs [4]

Answer 53

Symptoms

• Fluctuating obstructive jaundice
• dark brown urine, pale stools)
• NO weight loss

Signs

• Pale lemon to bright orange jaundice
• Scratch marks
• Bradycardia
• Gallbladder not distended

Question 54

Choledocholithiasis presentation: ascending cholangitis [2]

Answer 54

Charcots triad

Reynolds pentand

Question 55

Describe charcots triad

Describe Reynolds pentand

Answer 55

o Charcot’s triad: RUQ pain, jaundice, fever/rigors

o Reynold’s pentand: Charcots triad + hypotension and confusion

Question 56

Ix cholelithiasis

Answer 56

LFT
CRP, ESR (up)
Abdo USS
MRCP
Pancreatico-billiary EUS

Question 57

Mx choledocholithiasis

Answer 57

• IV antibiotics
• ERCP after 24-48h: Endoscopic sphincterotomy + CBD stone extraction
• Laparoscopic cholecystectomy

Question 58

Benign strictures causing obstructive jaundice:
Describe a typical patient [2]
Ix
Mx

Answer 58

• Typical pt: post-op jaundice if complete, intermittent cholangitis with jaundice if incomplete
• Ix: MRCP
• Mx: biliary stent or Roux-en-Y pancreatojejunostomy

Question 59

Cholelithiasis vs choledolithiasis

Answer 59

Cholelithiasis is the presence of gallstones. Choledocholithiasis refers to the presence of one or more gallstones in the common bile duct (CBD).

Question 60

Cholangiocarinoma
Define
Ep [4]
Symptoms [4]
Signs [3]

Answer 60

Bile duct and gallbladder cancer
Ep: Eastern Europe, Thailand, Japan and Korea
Symptoms: obstructive jaundice, abdominal pain, weight loss, anorexia
Signs:
- Courvoisiers sign
- Sister Mary Joseph nodes
- Virchow node

Question 61

What is courvoisier’s sign?

Answer 61

Palpable painless RUQ mass most likely malignancy in biliary tree
- unlikely to be gallstones because gall stones are formed over a longer period of time, and this results in a shrunken, fibrotic gall bladder which does not distend easily

Question 62

Describe Sister Mary Joseph nodes

Answer 62

Periumbilical lymphadenopathy

Question 63

Cholangiocarcinoma
What type of cancer is it?
Risk factor?
Investigation [3]

Answer 63

Adenocarcinoma
RF: primary sclerosing cholangitis
1. Abdo USS
2. CT
3. MRCP

Question 64

Name the 3 biomarkers elevated in cholangiocarcinoma

Answer 64

CA-19-9, CEA, CA125

Question 65

Mx cholangiocarcinoma [2]

Answer 65

Surgical resection is only curative option
But 80% have inoperable disease so:
- palliate w/ biliary stents or chemo

Question 66

Malignant causes of surgical obstructive jaundice [3]

Answer 66

Cholangiocarcinoma
Pancreatic ca - head
Periampullary tumour

Question 67

Primary sclerosing cholangitis (PSC)
Ax is unknown, what is PSC associated with?
Pathogenesis [2]

Answer 67

Associations:

• HLA-A1, B8 and DR3, autoimmune hepatitis, HIV
• Ulcerative colitis: affecting whole colon, IBD often presenting before PSC, although colitis is usually inactive, colorectal malignancy risk much increased

Patho: progressive cholestasis and intra and extrahepatic bile duct inflammation and strictures

Question 68

PSC presentation [5]

Answer 68

Pruritus
Fatigue
RUQ pain
Ascending cholangitis
End stage hepatic failure (severe cases)

Question 69

PSC Ix

Answer 69

LFT (bilirubin up, ALP up)
Autoab: hypergammaglobulinemia
MRCP (beaded appearance, strictures)
Liver biopsy (onion skin)

Question 70

PSC Ix: describe what autoabs are positive [5]

Answer 70

hypergammaglobulinaemia, AMA NEGATIVE but ANA, SMA and ANCA may be +ve

Question 71

Mx PSC
Medical [2]
Surgical
Monitoring [3]

Answer 71

• Medical: LOW dose UROSEOXYCHOLIC ACID (may improve LFTs and protect against colon cancer), CHOLESTYRAMINE for pruritus
• Transplant: for end stage disease (recurrence in 30%; worse prognosis if IBD as 30% develop colorectal cancer post-transplant)
• Monitoring: annual colonoscopy and USS, cholecystectomy for gallbladder polyps (usually incidental finding on USS and can be left if <1cm but a lot more likely to be malignant in PSC)

Question 72

Complications of PSC [3]

Answer 72

bile duct, gallbladder, liver and colon cancers

Question 73

Ascites

Answer 73

Ascites is defined as the presence of free fluid within the abdomen; in chronic liver disease it develops due to presinusoidal portal hypertension and is associated with:
* Changes in vascular tone: general vasodilatation, raised NO levels.
* Sodium retention (and, therefore, water) due to secondary hyperaldosteronism.
* Decreased ability to excrete free water due to increased antidiuretic hormone (ADH).

Question 74

Ascites
Presentation, examination
Investigations

Answer 74

Presentation is either symptomatic (e.g. abdominal distension, breathlessness due to diaphragmatic splinting) or as an incidental finding on ultrasound. On examination, shifting dullness (>–.5L ascites) or a fluid thrill (tense ascites) may be detectable.
Key investigations when assessing ascites are:
* Abdominal ultrasound with Dopplers to quantify volume, identify appearances of chronic liver disease and portal hypertension, and exclude portal vein thrombosis.
* Fluid should be sampled (tapped) and analysed for WCC to exclude spontaneous bacterial peritonitis (SBP), Gram stain, bacterial culture, and albumin and total protein levels. Fluid LDH, amylase, lipids and cytology may be sent dependent upon appearance and putative causes.
* Calculate serum albumin ascites gradient (SAAG). SAAG = ascitic fluid [albumin] – serum [albumin]; if ≥1.1 g/L suggests ascites secondary to portal hypertension

Question 75

Interpretation of Serum albumin ascites gradient (SAAG)

Answer 75

Question 76

Treatment of ascites

Answer 76

The treatment of ascites includes:
* Sodium (<90 mmol/day) and fluid restriction (<1.5 L/day).
* Diuretics: spironolactone (initially 00 mg/day, but up to 400 mg/day), furosemide may be added.
Treatment should target gradual weight loss of 0.5 kg/day (i.e. 500 mL) and patients must be monitored for complications of therapy (hyponatraemia, hyperkalaemia and renal dysfunction). Failure to respond to or inability to tolerate diuretic therapy should trigger consideration of liver transplantation or TIPSS.

Question 77

Spontaneous bacterial peritonitis
Aetiology [2]
Presentation
Diagnosis

Answer 77

Patients with ascites may develop the complication of SBP due to translocation of bowel organisms into ascites, leading to infection of the fluid.
Causative organisms are typically bowel flora (e.g. E. coli, Klebsiella sp.), though streptococcal and staphylococcal infections may occur.
Fever, abdominal tenderness and an altered mental state
SBP must be considered in any patient with ascites with a deterioration in liver function tests.
Patients with a low ascitic fluid albumin are at highest risk.
Diagnosis is based upon an ascitic fluid WCC >250/mm3 with >50% neutrophils.

Question 78

Management of SBP [4]

Answer 78

Empirical broad-spectrum antibiotics (e.g. piperacillin-tazobactam, ciprofloxacin), after appropriate cultures have been sent.
* Renal failure and hepatorenal syndrome (HRS) may develop. Early plasma expansion with human albumin solution (HAS) reduces the risk, if this fails IV terlipressin is used.
* Recurrence of SBP approaches 70%, patients surviving an episode should receive antibiotic prophylaxis (lifelong or until liver transplantation).
* A single episode confers a poor prognosis and should prompt consideration of transplantation.