the pancreas and small bowel

Question 1

what do liver buds become

Answer 1

the liver lol

Question 2

what forms when the join between the liver and foregut narrows

Answer 2

becomes the bile duct

Question 3

what does the bile duct give rise to

Answer 3

the gallbladder and cystic duct

Question 4

what happens by 11 weeks

Answer 4

the proximal duodenum rotates clockwise and all organs are in place

Question 5

what happens when the ventral and pancreatic ducts and bud have rotated clockwise

Answer 5

fuses with dorsal duct

Question 6

what does part of the dorsal and ventral duct become

Answer 6

becomes the main pancreatic duct

Question 7

what do the bile and pancreatic ducts join to drain together at

Answer 7

at the major papilla

where pancreatic duct emerges at the major papilla - joins up with distal common bile duct to form papilla/ampulla

Question 8

what duct emerges at the minor papilla and what is it known as

Answer 8

dorsal duct

known as accessory pancreatic duct (can degenerate or is absent as adult)

Question 9

what kind of an organ is the pancreas

Answer 9

retroperitoneal organ - behind the posterior peritoneum of the abdomen
and doesn’t exist within abdomen

Question 10

what is in front of the pancreas

Answer 10

transverse colon and stomach (both are anterior to pancreas)

Question 11

where does the head of the pancreas fit

Answer 11

into duodenum (C shaped and is labelled D1/2/3/4)

Question 12

what is the superior edge of the pancreas called

Answer 12

coeliac axis

Question 13

are the main pancreatic duct and the ventral duct fused together

Answer 13

n o

both ducts are separated = pancreas divisum

Question 14

why do patients get recurrent episodes of pancreatitis

Answer 14

as a large flow has to go through minor duct

Question 15

what is angiography used for

Answer 15

used for interventional purposes
patients that are bleeding
accessing femoral artery in groin under local anaesthetic to aorta by inserting wire - dye

Question 16

what does endocrine mean

Answer 16

secretion into the bloodstream to have an effect on distant target organ (autocrine/paracrine) - ductless glands

Question 17

what does exocrine mean

Answer 17

secretion into a duct to have a direct local effect

Question 18

what is insulin and what does it do

Answer 18

an anabolic hormone
promotes glucose transport into cells and storage as glycogen
decreases blood glucose
promotes protein synthesis and lipogenesis

Question 19

what does glucagon do

Answer 19

increases gluconeogenesis and glycogenolysis

increases blood glucose

Question 20

what does somatostatin do

Answer 20

endocrine cyanide

inhibits almost everything

Question 21

what is endocrine % and function relative to pancreas

Answer 21

2% of a gland
islets of langerhans
secrete hormones into blood - insulin and glucagon (also somatostatin and pancreatic polypeptide)
regulation of blood glucose, metabolism and growth effects

Question 22

what is exocrine % and functions

Answer 22

98% of a gland
secretes pancreatic juices into duodenum via MPD (main pancreatic duct)/sphincter of Oddi/ampulla
digestive function

Question 23

what is pancreatic cell differentiation

Answer 23

formation of acini and islets from ducts in various stages of development

Question 24

what are acini

Answer 24

attach to ducts
grape like clusters of secretory units
acinar cells secrete pro enzymes into ducts

Question 25

what are islets

Answer 25

derived from the branching duct system
lose contact with ducts - become islets
differentiate into alpha and beta cells secreting into blood
number of islets is higher in the tail than in the head

Question 26

what is around a duct (of pancreas)

Answer 26

pancreatic acinus

Question 27

what does the pancreatic acinus consist of

Answer 27

consists of pancreatic acinar cells
between cells = intercellular canaliculi
draining into pancreatic ducts > intercalated duct > intralobular duct - joins main pancreatic duct

Question 28

does the islet have connections to ducts and how many capillaries

Answer 28

many capillaries

no connection to duct

Question 29

how much % do alpha cells form of islet tissue and what do they secrete

Answer 29

15-20%

secrete glucagon

Question 30

how much % do beta cells form of islet tissue and what do they secrete

Answer 30

60-70%

secrete insulin

Question 31

how much % do delta cells form of islet tissue and what do they secrete

Answer 31

5-10%

secrete stomatostatin

Question 32

are the islets highy vascularised

Answer 32

yes

ensuring that all endocrine cells have close access to a site of secretion

Question 33

what do exocrine pancreatic units (acini) show

Answer 33

secretory acinar cells - large with apical secretion granules
duct cells - small and pale

Question 34

what are the 2 components of pancreatic juice

Answer 34

produced by acinar cells - low vol and viscous and enzyme rich
produced by the duct and centroacinar cells - high in volume, watery HCO3- rich

Question 35

where is bicarbonate produced

Answer 35

produced by duct and centroacinar cells

Question 36

what juice is high in bicarbonate

Answer 36

pancreatic juice
~120 mM (mmol/L) - (plasma ~ 25 mM)
pH 7.5-8

Question 37

what does bicarbonate do

Answer 37

neutralises acid chyme from stomach
prevents damage to duodenal mucosa
raises pH to optimum range for pancreatic enzymes to work
washes low volume enzyme secretion out of pancreas into duodenum that is produced by acini

Question 38

what happens when duodenal pH <5

Answer 38

• linear increase in pancreatic HCO3- secretion up to pH3

Question 39

what happens when duodenal pH <3

Answer 39

• not much more increase in HCO3- secretion

Question 40

what does bile also contain and what does it do

Answer 40

bile also contains HCO3- and helps neutralise acid chyme (liver functions)

Question 41

what do Brunner’s glands secrete

Answer 41

alkaline fluid

Question 42

how is pancreatic HCO3- secreted

Answer 42

CO2 enters pancreatic cell
catalysed by carbonic anhydrase
separation of H+ and HCO3-
NA+ moves down gradient via paracellular (tight) junctions
H2O follows
CL-/HCO3- exchange at lumen (anion exchanger)
NA+/H+ exchange at basolateral membrane into bloodstream (sodium-hydrogen exchanger antiporter) type 1
exchange driven by electrochemical gradients
high EC (blood) Na+ compared to IC (duct cell)
high Cl- in lumen compared to IC (duct cell)
Na+ gradient into cell from blood maintained by Na+/K+ exchange pump
uses ATP - primary active transport
K+ returns to blood via K+ channel
Cl- returns to lumen via Cl- channel (cystic fibrosis transmembrane conductance regulator)

Question 43

what is the equation for H2O and CO2 and where does this happen

Answer 43

H2O + CO2 ←→ H2CO3 ←→ H+ + HCO3-

same reaction in gastric parietal cells (acid) and pancreatic duct cells (alkaline)

Question 44

what happens in the stomach in terms of HCO3- and H+

Answer 44

H+ secreted into gastric juice
HCO3- secreted into blood
gastric venous blood is alkaline

Question 45

what happens in the pancreas - in terms of HCO3- and H+

Answer 45

HCO3- secreted into pancreatic juice
H+ secreted into blood
pancreatic venous blood is acidic

Question 46

what enzymes break down fats

Answer 46

lipases

Question 47

what enzymes break down proteins

Answer 47

proteases

Question 48

what enzymes break down carbohydrates

Answer 48

amylases

Question 49

where are lipases/amylases/proteases synthesised and stored

Answer 49

in zymogen granules of acinar cells

Question 50

what are zymogens

Answer 50

pro enzymes - inactive forms of subsequent enzymes

Question 51

why are proteases released as inactive proenzymes

Answer 51

to protect the acini and ducts from autodigestion

Question 52

what prevents trypsin activation in the pancreas

Answer 52

trypsin inhibitor

Question 53

where are enzymes activated

Answer 53

duodenum

Question 54

what might blockage of the main pancreatic duct cause

Answer 54

overload protection > auto digestion

acute pancreatitis

Question 55

what does duodenal mucosa secrete

Answer 55

enzyme called enterokinase (enteropeptidase)

Question 56

what does enterokinase/enteopeptidase do

Answer 56

converts trypsinogen to trypsin (active form)

Question 57

what does trypsin do

Answer 57

converts all other proteolytic and some lipolytic enzymes
trypsinogen > trypsin
chymotrypsinogen > chymotrypsin
proelastase > elastase
procarboxypeptidase A > carboxypeptidase A
procarboxypeptidase B > carboxypeptidase B

Question 58

how is lipase secreted and what does it require

Answer 58

it is secreted in its active form but requires colipase (ie secreted as a precursor)

Question 59

what do lipases require for effective action

Answer 59

presence of bile salts

Question 60

what can a lack of pancreatic enzymes (+bile) cause

Answer 60

malnutrition even if dietary input is reasonable

Question 61

what does the anti obesity drug orlistat do and side effects

Answer 61

inhibits pancreatic lipases
side effects:
increased faecal fat
occurs when pancreatic lipase secretion decreased
cystic fibrosis, chronic pancreatitis, orlistat (decreases intestinal fat absorption)
steatorrhoea

Question 62

what happens in the cephalic phase (control of pancreatic juice secretion)

Answer 62

reflex response to sight/smell/taste of food
enzyme rich component only
low volume - mobilises enzymes

Question 63

what happens in the gastric phase (control of pancreatic juice secretion)

Answer 63

stimulation of pancreatic secretion originating from food arriving in the stomach
same mechanisms involved as for cephalic phase

Question 64

what happens in the intestinal phase (control of pancreatic juice secretion)

Answer 64

(70-80% of pancreatic secretion)
hormonally mediated when gastric chyme enters duodenum
both components of pancreatic juice stimulated
enzymes and HCO3- juice flows into duodenum

Question 65

what is pancreatic juice enzyme secretion controlled by in acini

Answer 65

1) vagus nerve (cholinergic and vagal stimulation of enzyme secretion - and communicates info from gut to brain) acetylcholine
2) cholecystokinin (CCK) (Ca2+/PLC)
pancreatic juice bicarbonate secretion controlled in duct and centroacinar cells by:
secretin (cAMP)

Question 66

what are some mechanisms responsible for controlling release of CCK from duodenum cells

Answer 66

protein > amino acids > CCK releasing peptide (stimulatory)
fatty acids > CCK releasing peptide (stimulatory)
ACh and gastrin releasing peptide stimulate trypsin which inhibits release of CCK
CCK in bloodstream stimulates pancreas - negative feedback

Question 67

is acinar fluid isotonic

Answer 67

yes

Question 68

how does acinar fluid resemble plasma

Answer 68

resembles plasma in its concs of Na+, K+, Cl-, HCO3-

Question 69

what is secretion of acinar fluid and the proteins inside the fluid stimulated primarily by

Answer 69

CCK (cholecystokinin)

Question 70

what does secretin do

Answer 70

secretin stimulates secretion of H2O and HCO3- from cells lining extralobular ducts
secretin stimulated secretion is richer in HCO3- cf acinar secretion because of Cl-/HCO3- exchange

Question 71

what does a decrease in pH in the duodenum do

Answer 71

stimulates S cells to release secretin

secretin stimulates pancreatic/ductal HCO3- secretion (alkaline - increases pH)

Question 72

CCK alone has no effect on HCO3- secretion but what can it do

Answer 72

can increase HCO3- secretion that has been stimulated by secretin

Question 73

what has a similar effect to CCK

Answer 73

vagus nerve

Question 74

what has no effect on enzyme secretion from acinis

Answer 74

secretin

Question 75

summarise the steps after having a meal

Answer 75

food mixed and digested in stomach pH2
chyme squirted into duodenum
H+ ions in duodenum > increases secretin > increases pancreatic juice
and bile and Brunner’s gland secretions
the two above increases pH to neutral/alkaline
peptides and fat in duodenum causes sharp increase in CCK and vagal nerve stimulation
stimulation pancreatic enzyme release
peaks by 30 mins continues until stomach is empty
CCK potentiates effects of secretin on aq component
necessary as most of duodenum not at low pH

Question 76

what is the function of the small bowel

Answer 76

absorb nutrients, salt and water

Question 77

how long is the small bowel

Answer 77

approx 6m

Question 78

what is the diameter of the small bowel

Answer 78

3.5cm

Question 79

how long is the duodenum

Answer 79

25cm

Question 80

how long is the jejunum

Answer 80

2.5m

Question 81

how long is the ileum

Answer 81

3.75m

Question 82

is there a sudden transition between the small bowel, duodenum, jejunum and ileum

Answer 82

no

they all have the same basic histological organisation

Question 83

what is the mesentery

Answer 83

its is a fold of membrane
suspends the small and large bowel from posterior abdominal wall
anchoring them in place whilst still allowing some movement
provides a conduit for blood vessels, nerves and lymphatic vessels

Question 84

where does the superior mesenteric artery come from and what does it supply

Answer 84

comes out of the inferior border of the pancreas - supplies the jejunum and the ileal via jejunal and ileal arteries

Question 85

what does the ileocolic artery supply

Answer 85

supplies the terminal ileum and the ascending colon and the caecum

Question 86

what does the right colic artery supply

Answer 86

the ascending colon

Question 87

what does the middle colic artery supply

Answer 87

supplies the hepatic flexure, transverse colon and splenic flexure
sends blood vessels down the descending colon

Question 88

what is the outer covering of the small bowel called

Answer 88

serosa

Question 89

what is underneath the serosa

Answer 89

longitudinal muscle and circular muscle - important for motility

Question 90

describe the layers of the digestive epithelium of the small bowel

Answer 90

serosa
circular and longitudinal muscle
submucosa
mucosa
lumen

Question 91

what does the apex of the villus have

Answer 91

microvilli

at the centre = arteries, veins and lymphatic vessels

Question 92

what do crypts of Lieberkuhn contain

Answer 92

paneth cells

stem cells

Question 93

what are some properties of villi

Answer 93

they only occur in the small intestine
they are motile
rich blood supply and lymph drainage for absorption of digested nutrients
good innervation from submucosal plexus
have simple epithelium
one cell thick
dominated by enterocytes (columnar absorptive cells)

Question 94

what is the villi (mucosa) lined with

Answer 94

simple columnar epithelium consisting of
primarily enterocytes (absorptive cells)
scattered goblet cells
enteroendocrine cells

Question 95

what is the most abundant cell type in the small bowel

Answer 95

enterocytes

Question 96

what are enterocytes

Answer 96

tall columnar cells with microvilli and a basal nucleus
specialised for absorption and transport of substances
short life span 1-6 days

Question 97

what do microvilli make up

Answer 97

0.5-1.5 micrometres high

make up brush border

Question 98

what is the surface of microvilli covered with

Answer 98

glycocalyx

Question 99

what is glycocalyx

Answer 99

rich carb layer on apical membrane
protection from digestional lumen
but allows absorption
traps a layer of water and mucous = unstirred layer
regulates rate of absorption from intestinal lumen

Question 100

what are goblet cells

Answer 100

2nd most abundant epithelial cell type
mucous containing granules accumulate at apical end - goblet shape
increase abundance of goblet cells along entire length of bowel
less in duodenum and more in colon

Question 101

what is mucous

Answer 101

large glycoprotein that facilitates passage of material through bowel

Question 102

what are enteroendocrine cells

Answer 102

columnar epithelial cells
scattered among enterocytes
most often found in lower parts of crypts
hormone secreting
to influence gut motility
can be referred to as chromaffin cells - affinity for chromium/silver salts

Question 103

what are paneth cells

Answer 103

found only in bases of crypts

contain large, acidophilic granules

Question 104

what do the granules in paneth cells contain

Answer 104

antibacterial enzyme - lysozyme (protects stem cells)
glycoproteins and zinc (essential trace metal for a number of enzymes)
also engulf some bacteria and protozoa
may have a role in regulating intestinal flora

Question 105

what are stem cells

Answer 105

undifferentiated cells which remain capable of cell division to replace cells which die

Question 106

what are epithelial stem cells for and what do they do

Answer 106

essential in the GI tract to continually replenish the surface epithelium
continually divide by mitosis
migrate up to the tip of the villus - replace older cells that die by apoptosis > digested and absorbed
differentiate into various cell types (pluripotent)

Question 107

what cells have a rapid turnover rate

Answer 107

enterocytes and goblet cells

due to short lifespan

Question 108

how are enterocytes related to pathogens

Answer 108

enterocytes are first line of defence against GI pathogens and may be directly be affected by toxic substances in the diet
effects of agents which interfere with cell function, metabolic rate etc will be diminished

Question 109

describe the duodenum and its functions

Answer 109

distinguished by Brunner’s glands
submucosal coiled tubular mucous glands secreting alkaline fluid
open into the base of the crypts
alkaline secretions of Brunner’s glands
neutralise acidic chyme from stomach - protecting proximal small bowel
help optimise pH for action of pancreatic digestive enzymes

Question 110

what is more proximal

the jejunum or duodenum

Answer 110

jejunum is most proximal

duodenum > jejunum

Question 111

which is thicker
jejunum or ileum
and why

Answer 111

jejunum is wider and thicker walled than ileum due to plicae circulares - are larger and more numerous and closely set

Question 112

where is the jejunal mesentery

Answer 112

• above and to the left of the aorta

Question 113

where is the ileum mesentery

Answer 113

right and below to the aorta

Question 114

how many arcades do the jejunal mesentery vessels form

Answer 114

form only one or two arcades - long infrequent branches to intestinal wall

Question 115

how many arcades does the ileum have

Answer 115

numerous short terminal - about ¾ arcades

Question 116

what is only found in the lower ileum

Answer 116

Peyer’s patches

Question 117

what are the functions of small bowel motility (3)

Answer 117

to mix ingested food with digestive secretions and enzymes
to facilitate contact between contents of intestine and the intestinal mucosa
to propel intestinal contents along alimentary tract

Question 118

what is the process of segmentation (mixing)

Answer 118

mixes contents of lumen
occurs by stationary contraction of circular muscles at intervals
more freq contractions in duodenum cf. ileum
allow pancreatic enzymes and bile to mix with chyme
although chyme moves in both directions, net effect is movement > colon

Question 119

what is the process of peristalsis (propelling)

Answer 119

involves sequential contraction of adjacent rings of smooth muscles
propels chyme towards colon
most waves of peristalsis only travel about 10cm
segmentation and peristalsis result in chyme being segmented, mixed and propelled > colon

Question 120

what is the process of migrating motor complex

Answer 120

cycles of smooth muscles contractions sweeping through gut
begin in stomach > small intestine > colon > next wave starts in duodenum
prevents migration of colonic bacteria back into ileum

Question 121

in what kind of environment does digestion in small bowel occur

Answer 121

alkaline

Question 122

where do pancreatic enzymes come from and go to

Answer 122

come from MPD and CBD

go to duodenum

Question 123

what does duodenal epithelium also produce

Answer 123

own digestive enzymes

Question 124

does digestion occur in lumen and in contact with the membrane

Answer 124

yes

Question 125

where does digestion begin

Answer 125

digestion begins in mouth by salivary alpha-amylase (destroyed in stomach (acid pH))

Question 126

where does most of digestion of carbohydrates occur

Answer 126

small intestine

Question 127

what are 2 examples of simple carbohydrates

Answer 127

monosaccharides - glucose and fructose

Question 128

what are 2 examples of disaccharides

Answer 128

sucrose and maltose

Question 129

what are some complex carbohydrates

Answer 129

starch, cellulose, pectins

> sugars bonded together to form a chain

Question 130

what is secreted into duodenum in response to a meal

Answer 130

pancreatic alpha-amylase

Question 131

what does pancreatic alpha-amylase do

Answer 131

continues digestion of starch and glycogen in small bowel (started by salivary amylase)

Question 132

what does pancreatic alpha amylase require

Answer 132

needs Cl- for optimum activity and neutral/slightly alkaline pH

Question 133

where does pancreatic alpha amylase work

Answer 133

acts mainly in lumen (some also absorbs to brush border)

digestion of amylase products and simple carbohydrates occurs at the brush border

Question 134

what transport does absorption of glucose and galactose happen by

Answer 134

secondary active transport

Question 135

what are the 2 carrier proteins on apical membranes

Answer 135

SGLT-1

GLUT-5

Question 136

what happens at SGLT-1

Answer 136

absorption of fructose is by facilitated diffusion

Question 137

what happens at GLUT-5

Answer 137

GLUT-2 facilitates exit at basolateral membrane

Question 138

STEPS for digestion of proteins

Answer 138

protein digestion begins in lumen of stomach by pepsin
pepsin is then inactivated in alkaline duodenum
5x pancreatic proteases secreted as precursors > lumen of small bowel (eg trypsinogen)
trypsin activated by enterokinase - an enzyme located on duodenal brush border
trypsin > activates other proteases
hydrolyse proteins > single amino acids and oligopeptides

Question 139

what do a variety of peptidases at brush borders of enterocytes do

Answer 139

progressively hydrolyse multi amino acids > single amino acids

Question 140

what do enterocytes do

Answer 140

directly absorb some of small oligopeptides via action of H+/oligopeptide cotransporter PepT1

Question 141

STEPS for digestion of lipids

Answer 141

lipids are poorly soluble in water - more complicated to digest
4 stages process in small bowel
1) secretion of bile salts and pancreatic lipases
2) emulsification (increases SA for digestion)
3) enzymatic hydrolysis of ester linkages - colipase complexes with lipase - prevents bile
salts displacing lipase from fat droplet
4) solubilization of lipolytic products in bile salt micelles

Question 142

unlike amino acids and simple sugars what happens to lipids at enterocytes

Answer 142

they are transformed as absorbed via enterocytes

Question 143

STEPS for absorption of lipids

Answer 143

1) FAs and MG (monoglycerides) leave micelles and enter enterocytes
2) FAs and MG resynthesized into TGs by 2x pathways :
- monoglyceride acylation (major)
- phosphatidic acid pathway (minor)
3) after resynthesis into chylomicrons - lipoprotein particles synthesised as an emulsion
(80-90% TGs and 8-9% phospholipids, 2% cholesterol, trace carbohydrates) in Golgi
apparatus
4) chylomicrons secreted across basement membrane by exocytosis
5) chylomicrons enter a lacteal (lymph capillary) > lymph transports them away from
bowel

Question 144

how is the ileum and colon separated

Answer 144

ileum is separated from the colon by the ileocaecal valve

Question 145

what does the illeocaecal valve do

Answer 145

relaxation and contraction controls passage of material into the colon
also prevents backflow of bacteria into ileum