GI Topic 3 - Small Intestine, Exocrine Pancreas, Pancreatitis

Question 1

Where do pancreatic juices drain?

Answer 1

• Pancreatic duct runs the full length of the pancreas, unites with the common bile duct to form the pancreatic ampulla of Vater
• The ampulla opens into the 2nd part of the duodenum via the major duodenal papilla, controlled by the sphincter of Oddi

Question 2

List the risk factors for chronic pancreatitis

Answer 2

• Male
• Middle aged
• Afro-carribean

Question 3

Describe the epidemiology of Haemachromatosis

Answer 3

• Males affected more severely than females - lose iron through menstruation/pregnancy
• Most prevelant in celtic (Northern Europe) population

Question 4

Describe the functional adaptations of the walls of the duodenum

Answer 4

• Submucosal Brunner’s glands - produce alkaline mucous in the crypts of Leiberkuhn to neutralise acidic chyme
• Villi and microvilli increase the surface area for absorption

Question 5

Describe movement of fluid in the jejunum and ileum

Answer 5

• Enterocytes responsible for fluid movement - pump sodium into the intestinal lumen, water follows - aids digestion
  
  • Enterocytes are CFTR dependents and cAMP modulated
  • Cl^-, Na⁺ and K⁺ move in, CFTR pumps Cl^- out, Na⁺ follows
• Water also moves by passive diffusion - there is increasing osmotic activity with advancing digestion

Question 6

What is the normal daily iron requirement? Is this usually fulfilled?

Answer 6

1-2mg/day, western diet is 15-20mg/day

Question 7

How are Ferroportin and Hepcidin involved in iron balance?

Answer 7

• Ferroportin - transmembrane protein, essential for release of iron from macrophages
• Hepcidin - responsible for iron homeostasis
  
  • Decreases GI absorption of iron, decreases RES release of iron - decreases iron levels
  • Binds to and degrades ferroportin

Question 8

Describe the structure of the exocrine pancreas

Answer 8

• Lobulated, serous gland
• Composed of approx 1 milion clusters called acini, connected by short intercalated ducts (1 per lobe)
• Intercalated ducts drain to intralobular collecting ducts which drain to the main pancreatic duct

Question 9

Describe the parts of the duodenum

Answer 9

4 parts - superior/1st part, descending/2nd part, transverse/horizontal/3rd part, ascending/4th part

• 1st part - intraperitoneal, level L1, attached to liver by hepatoduodenal ligament
• 2nd - 4th - retroperitoneal
• 2nd part has major duodenal papilla - bile and pancreatic secretions enter from ampulla of Vater
• 3rd crosses vena cava and aorta, posterior to superior mesenteric artery and vein
• 4th - joins jejunum at duodenojejunal flexure

Question 10

Describe carbohydrate absorption in the jejunum and ileum

Answer 10

• Carbohydrates broken down from polysaccharides to monosaccharides
  
  • Glucose and galactose - absorbed by active transport if concentration is low, facilitated transport if concentration is high
  • Fructose - limited absorption, co-absorption with glucose
  • Protein - amino acids absorbed by sodium-gradient facilitated diffusion, small amount of di/tripeptides by active transport

Question 11

List the symptoms of chronic intestinal pseudo-obstruction

Answer 11

Abdominal pain, constipation, vomiting, weight loss

Question 12

What are plicae circularis?

Answer 12

Folds circling the lumen of the jejunum - increase surface area

Question 13

List the enzymes which contain iron

Answer 13

• Cytochromes
• Perioxidases
• Xanthine oxidase
• Catalases
• RNA reductase

Question 14

Describe the gross structure of the small intestine

Answer 14

1. Duodenum
2. Jejunum
3. Ileum

Question 15

What is the function of Gastrin?

Answer 15

Increases stomach motility and gastric acid/enzyme secretion

Question 16

Describe the histological changes which occur in coeliac disease and the affect this has

Answer 16

• Loss of villous height
• Elongation of crypts of Leiberkuhn
• Increased proinflammatory cells
• Decreased surface area of intestine walls
• Decreased absorptive capacity

Question 17

List the endocrine secretions of the jejunum and ileum

Answer 17

• VIP
• GLP-1 and 2
• GHRF
• Neuropeptide Y
• Peptide YY
• Substance P
• Bombesin
• Serotonin (from enterochromaffin cells)

Question 18

What are arcades?

Answer 18

Arterial loops of the small intestines

Question 19

Compare sources of haem and non-haem iron

Answer 19

Haem iron - red meat

Non-haem iron - white meat, green vegetables, cereals

Question 20

Compare normal RBCs to anaemic RBCs

Answer 20

• Normal - healthy outer rim of haemoglobin, paler in the middle
• Anaemic - paler (hypochromic), smaller (microcytic), pencil-like

Question 21

Describe small intestinal motility when fasting

Answer 21

Migrating motor complex

Question 22

Describe the dietary changes which are made in the management of chronic pancreatitis

Answer 22

• Low fat, high protein, high calorie diet
• Fat soluble vitamin supplementation
• Pancreatic enzyme supplementation for steatorrhoea or poor nutritional status

Question 23

How does the pancreas produce bicarbonate?

Answer 23

Secreted by centracinar cells and the epithelial lining of intercalated ducts, supply maintained by cystic fibrosis transmembrane conductance regulator (CFTR)

Question 24

Describe the gross structure of the pancreas

Answer 24

Head, neck, body and tail

Question 25

Describe the iron content of the body

Answer 25

• Total body = 4g
  
  • RBC = 3g
  • Reticuloendothelial system = 200-500mg
  • Myoglobin = 200-300mg
  • Enzymes = 100mg

Question 26

What are the consequences of iron overload in haemochromatosis?

Answer 26

Extra 20g of iron - distributed to other tissues:

• Liver - causes cirrhosis, nodules and fibrosis
• Pancreas - causes diabetes
• Skin - causes bronzing
• Joints - causes arthritis, especially of metacarpophalangeal joint of middle finger

Question 27

Where is the spleen in relation to the pancreas?

Answer 27

Hilum of the spleen sits on the tail of the pancreas

Question 28

Describe the risk of infection associated with coeliac disease

Answer 28

• Increased risk of infection from encapsulated organisms
  
  • Pneumoccocal
  • Haemophilus influenzae
  • Meningoccocus
• Vaccination important

Question 29

What causes haemochromatosis?

Answer 29

• Autosomal recessive disorder, causes iron overload
• Abnormalities of HFE gene (needed for Hepcidin production) usually cause - homozygous C282Y most common

Question 30

What is the function of secretin?

Answer 30

• Increases bile secretion
• Increases buffer secretion by the pancreas
• Decreases gastric motility and secretion

Question 31

What is refractory coeliac disease?

Answer 31

• Persistance malabsorption/villous atrophy after 6-12 months gluten-free diet
• Type 1 - normal immunophenotype
  
  • 96% 5 year survival
  • Treatment - steroids, immunosuppressants
• Type 2 - abnormal immunophenotype
  
  • Ulcerative jejunitis, ulceration in jejunum/ileum
  • 58% 5 year survival
  • 60-80% progression to enteropathy-associated T-cell lymphoma

Question 32

What is the exocrine function of the pancreas?

Answer 32

Produces pancreatic juices - aid digestion

Question 33

Describe the venous drainage of the pancreas

Answer 33

• Head - superior mesenteric vein, drains to HPV
• Rest - pancreatic veins which drain to the splenic vein (joins the superior mesenteric vein to form the HPV)

Question 34

How do erythroblasts use iron?

Answer 34

• Transferrin-iron complex binds to Tf receptor on cell surface
• RBC precursor mitochondria use Iron to produce Haem using ALA-S2

Question 35

List the differences between the jejunum and ileum

Answer 35

• Jejunum
  
  • Upper L quadrant
  • Thick intestinal wall
  • Longer vasa recta
  • Less arcades
  • Red in colour
  • Inner mucosal lining has plicae circularis
• Ileum
  
  • Lower R quadrant
  • Thin intestinal wall
  • Short vasa recta
  • More arcades
  • Pink in colour
  • No plicae circularis

Question 36

What causes bile acid malabsorption and how is it treated?

Answer 36

• Caused by ileal resection/malabsorption
• Treat with bile acid sequestrants

Question 37

Define chronic pancreatitis

Answer 37

Continuing inflammatory disease of the pancreas characterised by morphological changes - pain and loss of exocrine and endocrine functions

Question 38

Describe the location of the jejunum and ileum

Answer 38

• Intraperitoneal
• Attached to posterior abdominal wall by mesentery
• Jejunum begins at duodenojejunal flexure
• No clear demarcation between the jejunum and ileum
• Ileum ends at the ileocaecal valve

Question 39

List the diseases associated with coeliac disease

Answer 39

• Dermatitis herpetiformis
  
  • Itchy rash on extensor surfaces, occurs after 90% villous atrophy
• Other AI diseases - Type 1 diabetes, thyrotoxicosis, Addison’s disease

Question 40

How can the risk of coeliac-related malignancy be reduced?

Answer 40

Adherance to a gluten-free diet

Question 41

Describe the innervation of the pancreas

Answer 41

• Parasympathetic - vagus
• Sympathetic - thoracic splanchnic nerves from superior mesenteric and coeliac plexuses

Question 42

How is iron balance regulated?

Answer 42

Altering GI iron absorption/excretion is the only mechanism for regulating iron balance

Question 43

Describe the treatment of chronic pancreatitis

Answer 43

• Lifestyle - quit smoking and drinking alcohol
• Endoscopic removal of stones/dilate strictures
• Coeliac axis block - manage pain
• Screen for diabetes mellitus
• Analgesia - paracetamol, NSAIDs, opiods

Question 44

What is acute post-operative ileus?

Answer 44

• Constipation and intolerance of oral intake (no mechanical obstruction) after surgery
• Physiological ileus:
  
  • Small intestine - 0-24 hours
  • Stomach - 24-68 hours
  • Colon - 48-72 hours

Question 45

List disorders of iron metabolism

Answer 45

1. Iron deficiency anaemia
2. Iron malabsorption e.g. coeliac disease
3. Haemochromatosis
4. Sideroblast anaemia

Question 46

What is the function of VIP?

Answer 46

Reduces acid secretion in the stomach

Question 47

Describe the venous drainage of the jejunum and ileum

Answer 47

• Superior mesenteric vein
• • splenic vein at neck of pancreas - drains to hepatic portal vein

Question 48

How does recurrent acute pancreatitis cause chronic pancreatitis?

Answer 48

• Inflammatory changes and necrosis - scarring in periductular areas
• Ductules become obstructed - stone formation

Question 49

Describe the functional adaptations of the ileum

Answer 49

• Lymphoid follicles (Peyer’s patches) in submucosa, extends to lamina propria - produce lymphocytes in response to ingested foreign molecules
• Enteroendocrine cells especially in crypts
• Paneth cells deep in crypts - immune granules to destroy microorganisms

Question 50

Describe the arterial supply of the jejunum and ileum

Answer 50

• Superior mesenteric artery
• Arises from aorta at level of L1, immediately inferior to coeliac trunk
• Moves between layers of mesentery, splits into approximately 20 branches
• Branches anastomose to form loops - arcades
• Arcades form long, straight vasa recta

Question 51

Describe the innervation of the duodenum

Answer 51

• Sympathetic - intestinal plexuses along pancreaticoduodenal arteries
• Parasympathetic - coeliac and superior mesenteric plexuses (vagus nerve)

Question 52

Describe the anatomical position of the pancreas

Answer 52

• Mostly posterior to stomach, retroperitoneal
• Extends across posterior abdominal wall from duodenum to spleen
• Epigastric and L hypochondrium regions
• Head is in the ‘C’ of the duodenum

Question 53

Describe steatorrhoea

Answer 53

Fatty stool - loose, pale, floating

Question 54

Describe the presentation of coeliac disease in adults

Answer 54

• Symptomatic - diarrhoea, bloating, flatulence, abdominal pain/discomfort (may be constipated)
• Chronic/recurrent iron deficiency anaemia
• Nutritional deficiency
• Reduced fertility/amenorrhoea
• Osteoporosis
• Elevated AST/ALT
• Neurological/psychiatric symptoms

Question 55

How is iron absorbed in the small intestines?

Answer 55

• Ferrous iron absorbed by mucosal cells into the blood/ECM bound to ferritin
• Low pH aids absorption
• Only absorbed in duodenum and jejunum
• Rate of absorption proportional to requirement

Question 56

How is iron transported in plasma?

Answer 56

• Transferrin - glycoprotein, made in hepatocytes
• High concentration when iron concentration is low
• Low concentration when iron concentration is high
• Two iron atoms per molecule of ferritin
• Normally - 30% saturated with iron, 70% free

Question 57

How is iron stored within cells?

Answer 57

Ferritin (soluble) or Haemosiderin (insoluble)

Question 58

List the zymogens produced by the pancreas and describe their activation

Answer 58

• Trypsinogen, activated to trypsin by enterkinase
• Chymotrypsin, activated to chymotrypsin by trypsin
• Lipase/co-lipase/phospholipase
• Amylase - digests alpha 1-4 glucose to glucose bonds only
• Lipase - digests triglycerides to free fatty acids and monoglycerides

Question 59

What is the consequence of bile acid malabsorption?

Answer 59

Unable to absorb fat soluble vitamins - A, D, E, K

Question 60

Describe the presentation of coeliac disease in infants

Answer 60

• 4-24 months - introduction of cereals
• Impaired growth, diarrhoea, vomiting, abdominal distention

Question 61

How does hereditary pancreatitis develop?

Answer 61

• Gene coding for trypsin overactive, cannot be inactivated
• Autodigestion of pancreatic tissue
• Acute pancreatitis leading to chronic pancreatitis

Question 62

Describe the functional adaptations of the jejunum

Answer 62

• Tallest villi
• No Brunner’s glands

Question 63

How does HFE gene mutation cause iron overload in haemochromatosis?

Answer 63

Mutation causes decreased hepcidin production, increased GI absorption of iron

Question 64

How is coeliac disease diagnosed?

Answer 64

• Serology
  
  • High IgA tTG - sensitive
  • High IgA EMA (antiendomysial antibody) - specific
• Endoscopy
  
  • Scalloping, lack of folds
  • Mosaic pattern
  • Prominent submucosal BVs
  • Nodular muscoa
• Biopsy
  
  • Distal duodenum - 4x, must be on gluten-rich diet

Question 65

List the risks factors for coeliac disease

Answer 65

• Female
• 1st degree relative with coeliac
• HLA-DQ2/DQ8 gene

Question 66

What is the function of GIP?

Answer 66

Decreases gastric activity

Question 67

List the symptoms and treatment of enteropathy-associated T-cell lymphoma

Answer 67

• Weight loss, night sweats, itch, GI bleeding
• Often advanced and incurable

Question 68

What is chronic intestinal pseudo-obstruction?

Answer 68

Signs of mechanical obstruction of the intestines without actual occlusion

Question 69

List the risk factors for acute post-operative ileus

Answer 69

• Open surgery
• Prolonged abdominal/pelvic surgery
• Delayed enteral nutrition
• Peri-operative complications
• Peri-operative opiates

Question 70

Describe the treatment of coeliac disease

Answer 70

Gluten-free diet - avoid wheat, barley, rye

Question 71

How are haem and non-haem iron absorbed?

Answer 71

• Haem iron is easily absorbed
• Non-haem
  
  • Released by acidic digestion and proteolytic gastric enzymes
  • Converted from ferric to ferrous form by duodenal cytochrome b1
  • Influenced by Vitamin C
• Absorbed into enterocytes by divalent metal transporter 1 (DMT1)

Question 72

How long are the jejunum and ileum?

Answer 72

Jejunum = 2.5m

Ileum = 3.5m

Question 73

What happens if an individual with Haemochromatosis is treated with a blood transfusion?

Answer 73

Causes iron overload - bone marrow failure

Question 74

Define coeliac disease and describe its cause

Answer 74

• Gluten-sensitive enteropathy
• Small intestinal villous atrophy - resolves when gluten is withdrawn from diet
• Innappropriate T-cell mediated immune response in the genetically susceptible
• Alpha-gliadin is the most toxic moiety

Question 75

How is Vitamin B12 absorbed in the small intestines?

Answer 75

• Dependent on B12 from diet although intestinal microflora produce B12
• Need low pH, gastric enzymes and intrinsic factor from parietal cells for absorption
• IF-B12 complex is absorbed in the terminal ileum

Question 76

Describe the morphological changes which occur in chronic pancreatitis

Answer 76

• Dilated pancreatic ducts, filled with protein plugs (may be calcified)
• Atrophy of acini and fibrosis - relative preservation of islets
• Increasing concentration of pancreatic proteins and increasing duct pressure = formation of protein plugs with calcium carbonate, leading to calculi formation
• Lack of lipases in advanced disease - malabsorption of fat, reduced absorption of vitamins A, D, E and K, steatorrhoea
• Islets can be lost in advanced disease leading to diabetes mellitus

Question 77

How do contractions of the small intestine change after a meal?

Answer 77

Entry of chyme to duodenum stimulates the gastroenteric reflex - along with vagal stimulation, myenteric plexus action, gastrin, CCK, insulin and serotonin release causes increased intestinal motility

Question 78

List diseases of malabsorption

Answer 78

1. Coeliac disease
2. Pancreatic exocrine insufficiency
3. Steatorrhoea (post-hepatic jaundice)
4. Bile acid malabsorption
5. Zollinger-Ellison Syndrome

Question 79

Describe the histology of the exocrine pancreas

Answer 79

• Functional unit - acinus
  
  • Lined by pyramidal cells joined by apical junction complexes
  • • centroacinar cells, continuous with low cudoidal epithelium of intercalated duct

Question 80

What is the function of CCK?

Answer 80

• Increases pancreatic secretions
• Increases bile and pancreatic secretions release into the duodenum
• Reduces gastric activity
• Reduces hunger

Question 81

Describe the arterial supply of the duodenum

Answer 81

• Before ampulla of Vater - gastroduodenal artery (from coeliac trunk)
• After ampulla of Vater - inferior pancreaticoduodenal artery (branch of super mesenteric artery)
• Change marks the transition from foregut to midgut

Question 82

What is a peristaltic rush and why does it occur?

Answer 82

• If intestinal mucosa is irritated
• Enteric nervous initiation of contraction
• Sweeps chyme from the small intestines into the colon - relieves irritation of the small intestines

Question 83

Name the secretions of the duodenum

Answer 83

• CCK
• Secretin
• GIP
• VIP
• Gastrin
• Alkaline mucous from Brunner’s glands

Question 84

Describe the release of iron from the RES

Answer 84

• Macrophages get iron from breakdown of RBCs
• RES iron stored as ferritin/haemosidin
• Ferroportin/hepcidin control RES macrophage iron release
• If cells don’t require iron - stored as ferritin
• If cells require iron - bound to transferrin, taken to tissues
• RBC recycle iron - released on breakdown, transferrin iron taken up by erythroblasts if they have the transferrin receptor

Question 85

List the symptoms of chronic pancreatitis

Answer 85

• Chronic/recurrent upper or generalised abdominal pain
• Nausea
• Vomiting
• Bloating
• Weight loss
• Steatorrhoea
• Jaundice
• Chronic liver disease

Question 86

Describe Sideroblastic anaemia

Answer 86

RBC takes in iron but iron is trapped in ring sideroblast - can’t synthesise haem

Question 87

Describe the presentation of coeliac in older children

Answer 87

Anaemia, short, pubertal delay, recurrent abdominal pain, behavioural disturbance

Question 88

How is chronic pancreatitis diagnosed?

Answer 88

• Transabdominal ultrasound - shows inflammation of pancreas and gallstones
• MRCP - radiolabelled isotope injected to show pancreas, gallbladder and the pancreatic/bile ducts
• CT
• Blood tests -
  
  • IgG4 - autoimmune
  • Serum amylase, lipase and trypsinogen (will be high in pancreatitis)

Question 89

Which cells are resposible for iron absorption?

Answer 89

Enterocytes

Question 90

What causes chronic pancreatitis?

Answer 90

T - toxic and metabolic (alcohol, smoking, hypercalcaemia, hyperlipidaemia)

I - idiopathic

G - genetic (HP, CFTR, SPINK-1)

A - autoimmune

R - Recurrent and severe acute pancreatitis

O - obstructive (gallstones)

Question 91

Describe the shape and size of the duodenum

Answer 91

• Shortest and widest part - 0.25m long
• C-shaped curve around the head of the pancreas

Question 92

Where does exocrine secretion occur in the jejunum and ileum?

Answer 92

Crypts of Leiberkuhn

Question 93

How quickly do liquids and solids pass through the small intestines?

Answer 93

• Transports liquids and solids at same rate
• Liquids reach caecum earlier due to faster gastric emptying
• Liquids - 30 minutes, solid chyme - 150 minutes

Question 94

How does coeliac disease cause iron malabsorption?

Answer 94

Infiltration of small lymphocytes into the lamina propria of the GI tract causes blunting of villi, causes ineffective absorption

Question 95

Describe the general function of the small intestines

Answer 95

Majority of digestion/absorption, relatively little secretion

Question 96

Describe the arterial supply of the pancreas

Answer 96

• Head - superior and inferior pancreaticoduodenal arteries, branches of the gastroduodenal artery (from the coeliac trunk) and superior mesenteric arteries
• Rest - pancreatic branches of splenic artery

Question 97

Describe the Marsh Classification of Coeliac disease

Answer 97

0 = No changes - <40 lymphocytes per 100 enterocytes, crypts and villi normal

1 = >40 lymphocytes per 100 enterocytes, crypts and villi normal

2 = >40 lymphocytes per 100 enterocytes, crypts elongated, villi normal

3a = >40 lymphocytes per 100 enterocytes, crypts elongated, mild villous atropy

3b = >40 lymphocytes per 100 enterocytes, crypts elongated, marked villous atrophy

3c = >40 lymphocytes per 100 enterocytes, crypts elongated, absent villi

Question 98

List disorders of small bowel transit

Answer 98

1. Chronic intestinal pseudo-obstruction
2. Acute post-operative ileus

Question 99

How is Haemochromatosis treated?

Answer 99

• Venesection (initially up to weekly)
  
  • Monitor ferritin and transferrin saturation
  • Prevent/limit organ damage

Question 100

Describe the layers of the walls of the small intestines

Answer 100

• Mucosa - columnar epithelium, lamina propria, muscularis mucosae
• Submucosa - Brunners glands (produce mucous)
• Muscularis propria - circular and longitudinal smooth muscle
• Serosa - forms visceral peritoneum

Question 101

What is Zollinger-Ellison disease?

Answer 101

• Hyperplasia/tumour - gastrinoma
• Constant hypersecretion of gastrin
• Aggressive recurrent peptic ulcer disease
• Diagnosis - stimulated gastrin level
• Treat with v high doses of PPI, surgery to remove tumour

Question 102

List the potential complications of coeliac disease

Answer 102

• Infection
• Osteoporosis
• Refractory coeliac disease
• Malignancy

Question 103

Describe the contractions which occur in the small intestine

Answer 103

• Prolonged propagated contractions move the chyme intermittently from the ileum to the colon in boluses
• Mixing contractions - segmentation, propulsive contractions due to peristalsis
• Peristalsis is weak in the small intestine - contractile ring around gut moves chyme forwards

Question 104

How does obstruction e.g. due to gallstones cause pancreatitis?

Answer 104

• Uncontrolled activation of trypsin - tissue damage due to autodigestion
• Stones cause scarring, ulceration, obstruction, stasis and atrophy of pancreatic tissue

Question 105

Describe the management of chronic intestinal pseudo-obstruction

Answer 105

• Nutritional - enteral/parenteral feeding
• Antibiotics for small intestinal bacterial overgrowth
• Refractory - small bowel transplantation

Question 106

What causes chronic intestinal pseudo-obstruction?

Answer 106

Primary or secondary to other diseases

• Myopathic - scleroderma, amyloidosis
• Neuropathic - Parkinson’s
• Endocrine - Diabetes mellitus, servere hypothyroidism
• Drugs - Phenothiazines, Parkinson’s drugs

Question 107

What reduces intestinal motility?

Answer 107

Secretin and glucagon

Question 108

What causes iron deficiency anaemia?

Answer 108

• Young women (20%) - menstruation/pregnancy
• Males + post-menopausal females - due to GI blood loss until proven otherwise

Question 109

How are fats absorbed in the small intestine?

Answer 109

Bile acid circulation

Question 110

List the exocrine pancreatic secretions

Answer 110

• Bicarbonate (neutralises chyme)
• Zymogens - enzyme precursors, activated to give functional digestive enzymes

Question 111

Compare transferrin saturation in iron deficiency anaemia and Haemachromotosis to normal

Answer 111

• Normal = 30% saturation
• IDA - high transferrin, low iron
• Haemochromatosis - low transferrin, high iron - up to 100% saturation

Question 112

Describe the pathophysiology of coeliac disease

Answer 112

• Genetic susceptibility and adenovirus 12 infection
• Peptide on alpha-gliadin similar to E1b portion of virus
• Cross reactivity = inappropriate immune response to alpha-gliadin

Question 113

Describe the innervation of the jejunum and ileum

Answer 113

• Sympathetic - T5-9 form the coeliac and superior mesenteric ganglia - gives off greater and lesser splanchnic nerves
• Parasympathetic - preganglionic from posterior vagal trunks, synapse on postganglionic cells in myenteric + submucosal plexus of intestinal wall

Question 114

Which important vascular structures are associated anatomically with the pancreas?

Answer 114

• Splenic vein and superior mesenteric vein unite behind the neck of the pancreas to form the portal vein
• The inferior mesenteric vein joins the splenic vein behind the body of the pancreas
• The aorta becomes the superior mesenteric artery behind the neck of the pancreas
• The splenic artery and vein follow behind the pancreas to the spleen

Question 115

What is absorbed in the jejunum and ileum?

Answer 115

• Carbohydrates
• Peptides
• Fat
• Water
• Vitamins
• Electrolytes
• Minerals

Question 116

Describe the venous drainage of the duodenum

Answer 116

• Follow major arteries, drain into portal vein
• 1st part - prepyloric vein drains into HPV
• 2nd - 4th parts - superior pancreaticoduodenal vein drains into superior mesenteric vein

Question 117

What causes small bowel adenocarcinoma?

Answer 117

Rare - coeliac or Crohn’s disease

Question 118

Describe the pathogenesis of Coeliac disease

Answer 118

1. Alpha gliadin digested and absorbed
2. Exposed to tissue transglutaminase (TTG) which causes deamination, making it more immunogenic
3. Enables binding to HLA-DQ2 and activation of pro-inflammatory T cell response
4. CD4 T cells cause villous atrophy, crypt hyperplasia, intraepithelial lymphocytosis
5. B cellls produce antibodies e.g. antigliadin, antiendomysial and anti-TTG antibodies