16 - Pancreas and Liver Microanatomy

Question 1

Describe the endocrine aspect of the pancreas

Answer 1

• islets of langerhan
• only make up 3% of the pancreas
• big and pale staining
• release hormones

Question 2

Describe the exocrine aspect of the pancreas

Answer 2

• pancreatic acini
• are spherical, smaller, dark staining due to zymogen granules
• release pre-enzymes
• need to be inactive until reach SI/target to avoid pancreatic degradation
• ductal cells also release HCO3-
• fluids and electrolytes

Question 3

What do the ductal cells of the pancreas release?

Answer 3

Bicarbonate

Question 4

How is the structure of the salivary glands similar to the pancreas?

Answer 4

The pancreas on histology also as lobules and a CT interlobular septa

Question 5

Describe the structure of the exocrine pancreas cells?

Answer 5

A tubulo-acinar gland with highly branched ducts (similar to the parotid gland - serous)

Question 6

Describe the acini of the pancreas?

Answer 6

• the acini contain 5-8 pyramid shaped cells surrounding a lumen

Question 7

The acinar cells have … nuclei in a … position and …. arranged … to the basal surface

Answer 7

Spherical nuclei in a basal position (like serous acinar cells) and mitochondria arranged perpendicular to the basal surface (i.e. energy to make enzymes)

Question 8

How are the digestive pancreatic enzymes made in the acinar cells?

Answer 8

The protein secretory products are synthesised in the basal rER, packaged at the golgi and accumulate as zymogen granules at the apical cytoplasm towards the lumen - the acini produce a small amount of enzyme-rich fluid

Question 9

How do the ducts of the acini begin (i.e. which are the smallest?)

Answer 9

Intercalated ducts insert into the acini.

Question 10

What do the duct cells of the intercalated ducts produce?

Answer 10

HCO3- and a lagre volume of alkaline fluid (a litre a day)

Question 11

Describe the order of convergence of the pancreatic cells ducts

Answer 11

Intercalated ducts > intraLOBULAR ducts > interlobular ducts > pancreatic duct > hepatopancreatic ampulla of vater (with common bile duct) > duodenum

Question 12

What kind of organ is the liver?

Answer 12

Gland - exo and endocrine

Question 13

What does the liver do to the blood from the gastric and intestinal capillary networks?

Answer 13

Detoxifies and modifies it appropriately. There is a close relationship between the blood and hepatic cells

Question 14

What is the structural problem of the hepatocytes?

Answer 14

To get blood to and then away from them and tp transport bile away form them into the duodenal lumen

Question 15

How are the heptocytes arranged?

Answer 15

In columns radiating away from the centre

Question 16

What is the anatomical/structural division/organisation of the liver?

Answer 16

Hexagonal lobules with a portal area with a portal triad at each corner

Question 17

Is the liver vascularised?

Answer 17

Yes very

Question 18

What is livers function?

Answer 18

forming clotting factors/proteins
makes bile acids
detoxifies bloods

Question 19

What separates the hexagonal lobules of the liver?

Answer 19

CT septa

Question 20

What runs in the CT septa?

Answer 20

Collagen, nervous tissue etc

Question 21

What is at the junctions of the CT/corners and what is it filled with?

Answer 21

Portal area (not space as not empty - filled with CT that binds the components of the portal triad

Question 22

What separates the radiating columns of hepatocytes?

Answer 22

Space filled with BVs (sinusoids)

Question 23

Hepatic lobule?

Answer 23

Classical anatomical division/unit

- doesn’t reflect functional divisons

Question 24

What is in the portal area

Answer 24

CT which surrounds and connects the portal triad

Question 25

What are the 3 structures of the portal triad?

Answer 25

Branches of the …
Portal Vein
Hepatic Artery Proper
Common Bile Duct

Question 26

How can you tell vein?

Answer 26

• less smooth muscle/thin muscular wall compared to large lumen
• weaker as experience less pressure
• de-oxygenated nutrient rich blood

Question 27

How can you tell artery?

Answer 27

Thick muscular wall compared to smaller lumen suggesting under higher pressure (systemic)
Oxygenated (i.e. needs to sustain metabolic function as well as filter)

Question 28

What does the portal vein branch into?

Answer 28

Distributing veins > feed into inlet venules > feed into sinusoids

Question 29

What else is in the sinusoids?

Answer 29

Hepatic artery feeds straight into sinusoids = mixing of nutrient venous rich and o2 rich blood, drained away from hepatocytes and into central vein

Question 30

Where does the sinusoid blood drain into?

Answer 30

The central vein in the centre of the hepatic (hexagonal) lobule

Question 31

How do the sinusoids feed into the IVC?

Answer 31

Sinusoid > intercalated veins > collecting vein > hepatic vein > IVC

Question 32

What is a liver/hepatic acinus?

Answer 32

It is the functional division of the liver. It forms a diamond shape between two portal triads and 2 central veins

Question 33

How is a liver acinus formed?

Answer 33

As the nutrient rich blood and the O2 rich blood travels from the portal triad to the central vein, both O2 and nutrients are given off to the hepatocytes as it passes through the sinusoids due to their leakiness. Because of this as the blood moves away from the triad to the central vein both the nutrient and O2 composition/profile of the blood changes and the hepatocytes closest to the vein have differential access to nutrients compared to the hepatocytes at the triad. This forms 3 zones

Question 34

What are the zones and how are they formed?

Answer 34

The zones are determined by a hepatocytes access to nutrients and O2 i.e. their distance from the central vein or triad. The hepatocytes at the different zones will therefore have different enzyme profiles, different functions, and different sensitivity to disease and pathogens

Question 35

Diff zones…

Answer 35

1. Dif enzyme profile
2. Functions
3. Sensitivities to pathogens and diseases

Question 36

What is the sinusoid lined with?

Answer 36

Endothelium/endothelial cells that are fenestrated/holey and has intercellular openings (wide gap between adjacent endothelial cells)
Also are much WIDER and can hold more than 1 RBC

Question 37

What do the special features of sinusoids achieve?

Answer 37

Fenstrated, intercellular openings, wide

= help to maximise transfer/access to materials from bloodstream to the hepatocytes

Question 38

Considering the function of hepatocytes, what would you expect the basement membrane between the hepatocyte and endothelial cells to be like?

Answer 38

Not thick CT layer. In the region between the endo cells and adjacent hepatocytes the only structural support we have are RETICULAR fibres. Thinner rather than thick collagen. Structure but not enough to obstruct diffusion

Question 39

What lies between the hepatocytes and endothelial cells?

Answer 39

Reticular fibres - thinner than collagen so provide structure to sinusoid but don’t obstruct diffusion

Question 40

What are kuffer cells?

Answer 40

• Macrophage like cells that eat luminal obstructions so there is no obstruction of both blood flow and diffusion
• Keep lumen of sinusoid clean
• anti-bacterial-
• Limit barriers to access to nutrients

Question 41

What cells keep the lumen of sinusoids clean and free of obstructions?

Answer 41

Kuffer cells

Question 42

Are the ends/sides of the hepatocytes straight?

Answer 42

No. They have microvillus extensions/microvili to increase the SA for proteins to be studded in the membrane to increase transport of nutrients

Question 43

What lies between the microvilli and endothelial cells?

Answer 43

• reticular fibres
• the lymphatic SPACE is called the SPACE OF DISSE
• this space contains stellate cells

Question 44

What is the space of disse and what does it contain?

Answer 44

Lymphatic space between the microvili of the edges of the hepatocyte and the endothelial cells. Contain stellate cells

Question 45

What are stellate cells?

Answer 45

Found in the space of Disse
Are fat storing cells
Have a role in vitamin A metabolism
Become activated in disease states as they have a role in fibrosis (make more collagen). Means that the normally and specialised thin barrier is thickened and this can obstruct normal liver function

Question 46

Is the liver cell renewal rate low or high?

Answer 46

High cell turnover rate/division/renewal because it has an important function so actively replacing. Often see bi-nucleate/polyploid hepatocytes under microscope

Question 47

When do the organelles of the hepatocyte differ?

Answer 47

Depending on if they are in zone 1,2,3 as have different functions, needs and profiles.

Question 48

How is bile transported?

Answer 48

Through membranous distensions that create spaces called cannuliculi. Sealed off from adjacent areas through occluding junctions (stops bile leaking between hepatocytes)

Question 49

Where are canuliculi located?

Answer 49

Course around outside of hepatocytes. Found between adjacent hepatocytes of the same column

Question 50

Describe the passage of bile?

Answer 50

Through the cannuliculi which converge > bile ductiles > bile duct (of portal triad)

Question 51

Where do blood and bile flow?

Answer 51

Blood - triad to central vein to form liver acini

Bile - from central vein to triad forming a portal lobule

Question 52

What is a portal lobule?

Answer 52

Formed by the movement of bile from the central vein to the bile duct at the portal triad trough the bile canuliculi and bile ductiles.

Question 53

How can you tell the bile duct?

Answer 53

NOT lined with simple squamous endothelial cells but cuboidal epithelial cells