Chapter 18 part 4: Cholestatic diseases

Question 1

Two functions of bile

Answer 1

• 1) emulsification of dietary fat and
• 2) elimination of bilirubin, excess cholestrol, and other hydrophobic waste products that cannot be excreted into urine

Question 2

Excess bilirubin (the end product of heme degradation) leads to?

Answer 2

• jaundice and icterus (yellow skin and sclera discoloration respectively)
• common causes are bilrubun overproduction, hepatitis, and bile outflow obstruction

Question 3

Cholestasis

Answer 3

-systemic retention of all bile solutes, including bilirubin, bile salts and cholestrol

Question 4

Bilirubin and bile formation

Answer 4

• Degredation of heme throughout the body progresses from biliverdin to bilirubin; bilirubin is bound to albumin delivered to liver
• After carrier mediated uptake, bilirubin is conjugated with 1-2 molecules of glucuronic acid by the hepatic endoplasmic transferase UGT1A1
• Resulting water-soluble bilirubin glucuronides are excreted in bile and deconjugated by gut bacteria and degraded to urobilinogens that are primarily fecally eliminated
• 20% of urobilinogens are resorbed and recycled to the liver with a small fraction excreted in the urine

Question 5

Bile acids

Answer 5

• water soluble modifications of cholesterol (mostly cholic acid and chenodeoxycholic acid) that act as detergents to solubilize dietary and biliary lipids
• Bile salts (bile acids conjugated to taurine or glycine) constitue 2/3 of bile organic compounds
• More than 95% of bile acids and salts are reabsorbed from gut and recirculate back to liver (enterohepatic circulation)

Question 6

Pathophysiology of Jaundice

Answer 6

-occurs when bilirubin production exceeds hepatic uptake, conjugation, and and/or excretion

Question 7

Unconjugated vs. conjugated hyperbilirubinemia

Answer 7

• Excess production or diminished uptake and/or conjugation causes UNCONJUGATED HYPERBILIRUBINEMIA
• defective excretion (intrahepatic or bile flow related) causes CONJUGATED HYPERBILIRUBINEMIA

Question 8

Unconjugated bilirubin

Answer 8

• insoluble in water
• circulates tightly bound to albumin and cannot be excreted in urine
• small amount circulates as free anion that can diffuse into tissues (esp neonatal brain) and cause injury–this unbound fraction can increase with severe hemolysis or when drugs displace bilirubin from albumin

Question 9

Conjugated bilirubin

Answer 9

-water-soluble, non-toxic and only loosely bound to albumin; excess conjugated bilirubin can be renally excreted

Question 10

Neonatal jaundice (Physiological Jaundice of the newborn)

Answer 10

• Since hepatic metabolic machinery is not matue until 2 weeks, every newborn develops transient, mild unconjugated hyperbilirubinemia
• can be exacerbated by breast-feeding due to bilirubin-deconjugating enzymes in breast milk

Question 11

Heriditary Hyperbilirubinemias can be of what two types

Answer 11

• conjugated hyperbilirubinemia

- unconjugated hyperbilirubinemia

Question 12

Heriditary hyperbilirubinemia–unconjugated

Answer 12

• Crigler-Najjar syndrome type I
• Crigler-Najjar syndrome type II
• Gilbert syndrome

Question 13

Heriditary hyperbilirubinemia-conjugated

Answer 13

• Dubin-Johnson syndrome (autosomal recessive)

- Rotor Syndrome

Question 14

Crigler-Najjar type I

Answer 14

• unconjugated
• autosomal recessive
• total absence of UGT1A1 causes jaundice with high serum levels of unconjugated bilirubin and a histologically normal liver
• without liver transplantation, fatal neurological damage (kernicterus) occurs

Question 15

Crigler-Najjar type II

Answer 15

• unconjugated
• autosomal dominant
• Less severe UGT1A1 deficiency
• Although kernicterus can occur, condition is not usually lethal

Question 16

Gilbert syndrome

Answer 16

• unconjugated
• autosomal recessive
• Mild fluctuating unconjugated hyperbilirubinemia, with 30% reduction in UGT1A1 activity attributable in most cases to a mutation that affects gene transcription
• Hyperbilirubinemia (and jaundice) may be exacerbated by infection, strenuous exercise or fasting

Question 17

Dubin-Johnson syndrome

Answer 17

• conjugated
• autosomal recessive
• Defective hepatocyte secretion of bilirubin conjugates due to absent bilirubin glucuronide transport protein (multidrug resistant protein 2)
• Liver is brown, with accumulated pigment granules (polymers of epinephrine metabolites, not bilirubin pigment)
• Patients are jaundiced but have normal life expectancy

Question 18

Rotor syndrome

Answer 18

• conjugated
• autosomal recessive
• defective hepatocellular bilirubin uptake or excretion
• liver is not pigmented; patients are jaundiced with normal life spans

Question 19

Cholestasis

Answer 19

• impaired bile formation or flow, leading to accumulation of intrahepatic bile pigments
• can be extrahepatic (due to obstruction) or intrahepatic (due to hepatocellular dysfunction or canalicular obstruction)

Question 20

Consequences of cholestasis

Answer 20

• jaundice, pruritus from bile salt retention, xanthomas (skin accumulations of cholestrol) and intestinal malabsorption with nutritional deficiencies due to poor uptake of fat soluble vitamins (A, D, and K)
• serum alkaline phosphatase and y-glutamyl transpeptidase (GGT) are elevated!!

Question 21

Morphology of cholestasis

Answer 21

-both intra or extrahepatic cholestasis= bile pigment accumulates in hepatic parenchyma leading to dilated bile canaliculi and hepatocyte degeneration

Question 22

Large bile duct obstruction

Answer 22

-most commonly due to extrahepatic cholelithiasis (gallstones), followed by pancreatic or biliary malignancies and post-surgical strictures

Question 23

Causes of large bile duct obstruction in children

Answer 23

• biliary atresia, cystic fibrosis, choledochal cysts, or insufficient intrahepatic bile duct formation
• Initial morphologic features of cholestasis are reversible with correction of obstruction but prolonged obstruction can lead to billiary cirrhosis
• Cholestasis may lead to feathery degeneration of periportal hepatocytes, cytoplasmic swelling with Mallory-Denk bodies and infarcts caused by detergent effects of extravasated bile

Question 24

Chlestasis of sepsis–how sepsis affects the liver

Answer 24

• Direct effects of intrahepatic infection (abscess formation or cholangitis)
• Ischemia due to hypotension
• Respose to circulating microbial products: canalicular cholestasis and Ductular cholestasis

Question 25

Canalicular cholestasis

Answer 25

• with canalicular bile plugs

- associated with activated Kupffer cells and mild portal inflammation

Question 26

Ductular cholestasis

Answer 26

-more ominous finding with dilated canals of Hering and bile ductules and often accompanies septic shock

Question 27

Primary Hepatolithiasis

Answer 27

• disorder of intrahepatic gallstone formation causing recurrent ascending cholangitis, progressive inflammatory destruction of hepatic parenchyma, and increased incidence of biliary neoplasia
• high prevalence in east Asia
• stones are pigmented calcium bilirubinate

Question 28

Neonatal Cholestasis

Answer 28

• prolonged conjugated hyperbilirubinemia

- present w/ jaundice, dark urine, light stools and hepatomegaly

Question 29

Major causes of neonatal cholestasis

Answer 29

• cholangiopathies (primarily biliary atresia)
• disorders collectively called neonatal hepatitis (but not all are inflammatory)
• Neonatal infections, a1-AT deficiency, toxic exposures and metabolic diseases (Niemann-Pick) may be responsible
• No cause identified in 10-15% of cases
• Establishing etiology is important bc biliary atresia requires surgical intervention

Question 30

Biliary atresia

Answer 30

• causes 1/3 of neonatal cholestasis
• is extrahepatic biliary tree obstruction within 1st 3 months of life
• single most frequent cause of death from liver disease in early childhood and accounts for majority of children referred for liver transplants

Question 31

Pathogenesis of Biliary atresia–what are the two forms?

Answer 31

• severe early fetal form (20%)

- perinatal form

Question 32

Pathogenesis of Biliary atresia–severe early fetal form

Answer 32

-due to aberrant intrauterine development of biliary tree and is frequently associated with other anomalies

Question 33

Pathogenesis of Biliary atresia–perinatal form

Answer 33

-presumed secondary to viral infections and/or autoimmunity–results from postnatal destruction of a normal biliary tree

Question 34

Morphology of biliary atresia

Answer 34

• both forms= inflammation and fibrosing stricture of extrahepatic biliary tree, progressing into intrahepatic biliary system
• Liver shows features of duct obstruction: marked bile duct proliferation, portal tract edema and fibrosis progressing to cirrhosis within 6 months

Question 35

Clinical features of Biliary atresia

Answer 35

• Neonatal cholestasis is seen in an infant of normal birth weight and post natal weight gain
• if untreated (liver transplantation), death occurs within 2 years of birth

Question 36

Autoimmune cholangiopathies

Answer 36

• 2 main autoimmune disorders of intrahepatic bild ducts:
• Primary Biliary Cirrhosis
• Primary Sclerosing Cholangitis

Question 37

Table 18-5 PBC

Answer 37

• median age: 50 (30-70)
• gender: 90% female
• Clinical course: progressive
• Associated conditions: Sjogren syndrome, scleroderma, thyroid disease
• Serology: 95% AMA positive, 50% ANA positive, 40% ANCA positive
• Radiology: Normal
• Duct lesions: Florid duct lesions and loss of small ducts only

Question 38

Table 18-5 PSC

Answer 38

• median age: 30
• gender: 70% male
• Clinical course: Unpredictable but progressive
• Associated conditions: IBD, Idiopathic fibrosing diseases (retroperitoneal fibrosis)
• Serology: 0-5% AMA positive (low-titer), 6% ANA positive, 65% ANCA positive
• Radiology: Strictures and beading of large bile ducts; pruning of smaller ducts
• Duct lesions: Inflammatory destruction of extrahepatic and large intrahepatic ducts; fibrotic obliteration of medium and small intrahepatic ducts

Question 39

Primary Biliary Cirrhosis

Answer 39

• disorder causing nonsuppurative inflammatory destruction of small and medium sized intrahepatic bile ducts
• middle aged women and does not lead inexorably to cirrhosis

Question 40

Primary Biliary Cirrhosis–autoimmunity

Answer 40

• antimitochondrial Abs that recognize the E2 component of the pyruvate dehydrogenase complex (PDC-E2) occur in 90% to 95% of patients and are most characteristic lab finding!!
• PDC-E2-specific T cells and Abs against other cellular components (nuclear pore proteins and centromeric proteins) also present

Question 41

Morphology of PBC

Answer 41

• lesions of varying severity throughout liver
• dense chronic portal tract inflammation with focal non-caseating granulomas–associated with interlobular bile duct obstruction and generalized cholestasis
• Intrahepatic biliary obstruction leads to progressive secondary upstream damage with ductular proliferation and inflammation and necrosis of periportal hepatocytes often with prominent Mallory-Denk bodies
• At end stage, PBC is indistinguishable from other forms of cirrhosis

Question 42

Clinical features of PBC

Answer 42

• insiduous onset with pruritis, hepatomegaly, jaundice and xanthomas (from retained cholestrol)
• with progression to cirrhosis, see variceal bleeding and encephalopathy
• increase in alkaline phosphatase, y-glutamyltransferase and cholestrol levels

Question 43

Extrahepatic autoimmune manifestations of PBC

Answer 43

-Sjogren syndrome, scleroderma, thyroiditis, Raynaud phenomenon, and membranous glomerulonephritis

Question 44

Consequences for untreated patients with PBC

Answer 44

-either hyperbilirubinemia or portal hypertension

Question 45

Tx of early stage PBC

Answer 45

-oral ursodeoxycholic acid–greatly slows progression presumably through altering biochemical composition of bile

Question 46

Primary sclerosing cholangitis

Answer 46

• chronic cholestatic disease distinguished by inflammation and obliterative fibrosis of both the extrahepatic and intrahepatic biliary tree
• dilation of the preserved segments yields a characteristic “beading” of injected radiologic contrast material

Question 47

PSC–facts that suggests it is an autoimmune condition

Answer 47

• associated with ulcerative colitis (70%)
• presence of circulating autoantibodies (ANA, anti-SMA, rheumatoid factor and atypical p-antineutrophil cytoplasmic Ab (p-ANCA) against a nuclear evelope protein

Question 48

Morphology of Primary scelorsing cholangitis

Answer 48

• Bile ducts exhibit periductular inflammation and concentric (onion-skin) fibrosis with progressive atrophy and eventual luminal obliteration
• obstruction culminates in biliary cirrhosis and hepatic failure

Question 49

Clinical features of Primary sclerosing Cholangitis

Answer 49

• most common in middle aged men
• follows protracted course (5-15 years)
• severe disease associated with weight loss, ascites, variceal bleeding and encephalopathy
• increased incidence of chronic pancreatitis and HCC
• 7% of patients will develop CCA
• Definitive Tx=liver transplant

Question 50

Structural anomalies of Biliary Tree

Answer 50

• Choledochal cysts

- Fibropolycystic Disease

Question 51

Choledochal cysts

Answer 51

• congenital dilations of the common bile duct present in most often in children under 10 with non-specific symptoms of jaundice and recurrent colicky abdominal pain
• female to male ratio is 3 to 4:1
• cysts predispose to stone formation, stenosis and stricture, pancreatitis, obstructive biliary complications and bile duct carcinoma in adults

Question 52

Fibropolycystic disease

Answer 52

• heterogenous group of lesions where primary abnormalities are congenital malformations of biliary tree
• lesions only found incidentally or can present as hepatosplenomegaly and portal HTN

Question 53

All lesions of Fibropolycystic disease are related to what?!?

Answer 53

• persistence of fetal periportal ductal plate!!!
• the caliber of involved portal tracts determines the different size, morphology and distribution of lesions
• often occurs with autosomal recessive polycystic renal disease involving protein polycystin
• increased risk for CCA!!

Question 54

Fibropolycystic disease–Disease list

Answer 54

• Von Meyenberg complexes (bile duct hamartomas)
• Intrahepatic or extrahepatic biliary cysts
• Congenital hepatic fibrosis

Question 55

Von Meyenberg complexes (bile duct hamartomas)

Answer 55

-small clusters of dilated bile ducts or cysts within a fibrous stroma; extremely common but usually clinically insignificant

Question 56

Intrahepatic or extrahepatic biliary cysts

Answer 56

• In isolation these may lead to ascending cholangitis, so called Caroli disease
• When biliary cysts occur in association with congenital hepatic fibrosis, the lesion is called CAROLI syndrome!
• Congenital hepatic fibrosis–caused by incomplete involution of embryonic ductal structures with ensuing portal tract fibrosis, which can cause portal HTN