Session 5: The Intestines

Question 1

Answer 1

Question 2

Blood supply of the midgut

Answer 2

Superior mesenteric artery

Question 3

Branches of the superior mesenteric artery

Answer 3

Inferior pancreaticoduodenal artery

Middle colic artery

Right colic artery

Ileocolic artery

Jejunal and ileal arteries

Question 4

What does the inferior pancreaticoduodenal artery anastomose with?

Answer 4

The superior pancreaticoduodenal artery

Question 5

What does the inferior pancreaticoduodenal artery supply?

Answer 5

Inferior region of the head of the pancreas

The uncinate process

The duodenum

Question 6

Explain the jujenal and ileal arteries.

Answer 6

The arteries pass between the layers of the mesentery and form what is called anastomotic arcades which is a vast network of arteries.

Fom these anastomoses straight arteries arise called vasa recta to supply the organs.

Question 7

What does the middle colic artery supply?

Answer 7

The transverse colon

Question 8

What does the right colic artery supply?

Answer 8

The ascending colon

Question 9

What does the ileocolic artery supply?

Answer 9

Gives rise to branches for ascending colon, caecum, appendix and ileum.

Question 10

At what vertebral level does the SMA arise?

Answer 10

L1

Question 11

Explain the venous drainage of the small intestines.

Answer 11

The anastomotic loops drain into the jejunal and ileal veins which will join to drain into the superior mesenteric vein.

The inferior mesenteric vein drains into the splenic vein.

The splenic vein and the superior mesenteric vein join to drain into the portal vein. Here blood will go to supply the liver.

The portal vein does not empty into the heart but instead supplies the liver by ending up in the sinusoids. The venous drainage of the liver is then via the hepatic veins.

Question 12

Explain how the surface area of the intestines is maximised.

Answer 12

The intestine folds called valvulae conniventes, plicae circulares or fold of Kerckring.

Lining the epithelium and therefore also the folds are villi.

Each villi will have a brush border which are thousands of microvilli covering the villi.

All of this greatly increases the surface area of the intestines.

Question 13

Give components of the epithelium of the intestines

Answer 13

Enterocytes

Goblet cells

Crypts of Liberkühn

Question 14

Role of the enterocytes.

Answer 14

Absorption

Question 15

Role of the goblet cells.

Answer 15

Mucus producing to protect the small intestines from the acidic chyme and also for lubrication.

Question 16

What cells can be found in the crypts of Lieberkühn?

Answer 16

Stem cells at the base

Paneth cells at the base

Enteroendocrine cells

Question 17

Explain the role of the stem cells of the crypts of Lieberkühn.

Answer 17

Produce new cells that are lost due to abrasion

Question 18

Explain the role of the paneth cells.

Answer 18

Protection from pathogens

Secrete antimicrobial peptides and Peyer’s patches

Peyer’s patches contain mucosal-associated lymphatic tissue (MALT) with white blood cells and lymphocytes.

Question 19

What are the enteroendocrine cells?

Answer 19

Found in the crypts of Lieberkühn.

I cells

S cells

K cells

Enterochromaffin cells.

Question 20

What do I cells produce?

Answer 20

CCK

Question 21

What do S cells produce?

Answer 21

Secretin

Question 22

What do K cells produce?

Answer 22

Gastric-inhibitory peptide (GIP)

Question 23

What do enterochromaffin cells produce?

Answer 23

Stimulated mechanically by the presence of chyme in the intestines.

Release serotonin acting on the enteric nervous system to stimulate CFTR.

This ion channel secretes Cl- into the lumen of the intestines with Na+ and water following.

Question 24

What does starch consist of?

Answer 24

Straight chains of glucose called amylose.

Branches chains of glucose called amylopectin.

Question 25

What kind of bond can be found between amylose?

Answer 25

alpha 1-4 bonds

Question 26

What kind of bond can be found between amylopectin?

Answer 26

alpha 1-6 bonds

Question 27

What breaks the bonds between amylose (alpha 1-4 bonds)?

What does this produce?

Answer 27

Amylase

Produces maltose (disaccharide of glucose)

Question 28

What happens when amylase breaks the alpha 1-4 bonds in amylopectin?

Answer 28

Shorter chains are created but still branched.

They are now called alpha dextrins

Question 29

What breaks the alpha 1-6 bonds?

Answer 29

Isomaltase

Question 30

From where is maltase and isomaltase produced?

Answer 30

From the brush border of the intestines

Question 31

What is lactose broken down by?

Answer 31

Lactase from the brush border

Question 32

What is sucrose broken down by?

Answer 32

Sucrase from the brush border

Question 33

How can lactose intolerance lead to diarrhoea?

Answer 33

In the case of insufficient amounts of lactase lactose will remain in the lumen of the intestines.

Lactose is osmotically active which means if it remains in the intestinal lumen it water will move to the lumen because of the presence of lactose.

Also lactose is ferment in the gut which produce flatus/bloating

Question 34

Explain how glucose and galactose is absorbed.

Answer 34

Along with Na+ through a SGLT-1 transporter. The Na+ moves into the cell because the Na+/K+-ATPase on the basolateral membrane maintains a lower intracellular Na+.

The glucose and galactose is then transported into the blood via a GLUT2 transporter on the basolateral membrane.

Question 35

Explain how fructose is absorbed.

Answer 35

Facilitated diffusion via GLUT5.

Then transported into blood via GLUT2 in same way as galactose and glucose

Question 36

Briefly explain the protein digestion in the stomach.

Answer 36

Pepsinogen released from chief cells gets converted to pepsin by HCl.

The pepsin then digest the proteins into oligopeptides. They then move on to small intestines.

Question 37

Explain the protein digestion in the duodenum.

Answer 37

The pancreas releases zymogens.

Trypsinogen is converted into trypsin via enterokinase.

Trypsin will then activate proelastase, chymotrypsinogen, procarboxypolypeptidase.

The trypsin, chymotrypsin and elastase will digest proteins and oligopeptides into shorter peptides.

The carboxypolypeptidase will then digest the peptides into dipeptides, tripeptides and individual amino acids.

Question 38

Explain the absorption of proteins.

Answer 38

Absorbed mainly as amino acids and not as proteins or peptides.

The amino acids are transported into the enterocytes similarly to glucose with Na+.

Although peptides can be absorbed by peptide transporter 1.

Question 39

What can happen in the rare occassion of absorption of whole protein molecules?

Answer 39

Allergic respone or immunological disturbance

Question 40

Explain the movement of water in the small intestines.

Answer 40

Driven by the movement of sodium into enterocytes both transcellular and paracellular.

Question 41

What is the difference in the water movement between the large intestines and small intestines?

Answer 41

They both have Na+/K+-ATPase on their basolateral membrane in order to set up a gradient for the movement of sodium ions.

On the apical membrane in the small intestines the Na+ is co-transported with glucose, amino acids etc..

On the apical membrane in the large intestines there are Na+ channels which allows the absorption of Na+ and therefore also water.

Question 42

What are the Na+ channels in the large intestines regulated by?

Answer 42

Aldosterone.

Aldosterone upregulates the Na+ channels in the large intestines to enhance Na+ absorption and water absorption similarly to its function in the kidneys.

Question 43

Explain the principle of maximal oral rehydration.

Answer 43

A mixture of glucose and salt will stimulate maximum water uptake.

Question 44

Explain the secretion of water in the intestines.

Answer 44

Driven by chloride movement where cloride enters the the epithelial cells by co-transport with Na+ and K+ (NKCC1).

This leads to an increase in cAMP inside the cells and this activates CFTR.

Cl- ions are secreted via the CFTR.

This leads to a negative enviroment inside the lumen of the intestines. Na+ is drawn into the lumen across tight junctions to make the electrical gradient neutral again.

The NaCl creates an osmotic gradient which allows water movement into the lumen.

Question 45

Complications of vitamin b12 deficiency.

Answer 45

Megaloblastic anaemia and neurological symptoms

Question 46

Causes of vitamin b12 deficiency.

Answer 46

Lack of intrinsic factor which is released by parietal cells in the stomach. Intrinsic factor is essential because it bind the vitamin b12 to be absorbed.

Hypochlorhydria which is inadequate stomach acid. The acid is important in initially releasing vitamin b12. This can happen in gastric atrophy or PPIs.

Inadequate intake of vitamin b12 in food

Inflammatory disorders of the ileum where it is absorbed like Crohn’s disease.

Question 47

Symtpoms of irritable bowel syndrome.

Answer 47

Abdo pain

Bloating

Flatulence

Diarrhoea/constipation

Rectal urgency

Question 48

Causes of IBS.

Answer 48

More common in females than in males

20-40s most affected age range

More comon in association with psychological disorders

Question 49

Explain coeliac disease

Answer 49

Immunological response to the gliadin fraction of gluten.

When gluten is absorbed it is broken down into smaller constituents. One of those constituents is gliadin.

In coeliac disease gliadin is presented to T cells of the immune system as a foreign antigen.

This leads to production of antibodies to gliadin and inflammatory response.

Question 50

Where can gluten be found?

Answer 50

In wheat, rye and barley.

Question 51

Explain the pathogenesis of coeliac disease.

Answer 51

The immunological response causes damage to the mucosa of the intestines.

This leads to absence of intestinal villi and hypertrophy of the intestinal crypts.

Lymphocytes infiltrate epithelium and lamina propria.

This leads to impaired digestion and malabsorption.

Question 52

Symptoms coeliac disease.

Answer 52

Diarrhoea

Weight loss

Flatulence

Abdo pain

Anaemia due to impaired iron absorption

Neurological symptoms due to hypocalcaemia

Question 53

Investigations for coeliac disease

Answer 53

Bloods for IgA antibodies to smooth muscle endomysium and tissue transglutaminase

Upper GI endoscopy and biopsies

Question 54

Treatment of coeliac disease

Answer 54

Strict gluten free diet