Structure and Motility

Question 1

what is the alimentary canal

Answer 1

series of hollow organs running from mouth to anus (oral to aboral) that are separated by sphincters, controlling movement

Question 2

function of mouth and oropharynx

Answer 2

chops and lubricates food
starts carbohydrate digestions via salivary glands
delivers food oesophagus

Question 3

function of oesophagus

Answer 3

muscular tube that propels food to stomach

Question 4

function of stomach

Answer 4

stores/churns food
continues carbohydrate, initiates protein digestion via gastric glands that contain digestive enzymes
regulates delivery of chyme to duodenum

Question 5

what is chyme

Answer 5

thinly divided particles of food, small enough to leave stomach and enter the duodenum of the small intestine

Question 6

function of small intestine

Answer 6

made up of duodenum, jejunum and ileum

principal site of digestion and absorption of nutrients - in particular the duodenum and jejunum

Question 7

function of large intestine

Answer 7

made up of caecum, appendix and colon
colon - reabsorbs fluid and eelectrolytes (not absorbed in small intestine), stores faecal matter and further digestion by bacteria (vitamin K)

Question 8

function of rectum and anus

Answer 8

regulated expulsion of faeces

Question 9

accessoy structures of alimentary canal

Answer 9

salivary glands - parotid, sublingual and submandibular glands
liver and gallbladder - hepatobiliary system
exocrine pancreas

Question 10

general structure of digestive tract wall - 4 layers

Answer 10

mucosa - inside
submucosa
muscularis externa
serosa - outside

Question 11

general structure of digestive tract wall - mucosa

Answer 11

mucous membrane (epithelial, exocrine gland and endocrine gland cells)
lamina propia (capillaries, enteric neurones, gut associated lymphoid tissue)
muscularis mucosae

Question 12

general structure of digestive tract wall - submucosa

Answer 12

connective tissue
larger blood and lymph vessels
glands
submucous plexus (enteric nervous system)

Question 13

general structure of digestive tract wall - muscularis externa

Answer 13

circular muscle layer
myenteric plexus (controls muscle)
longitudinal muscle layer

Question 14

general structure of digestive tract wall - serosa

Answer 14

connective tissue

Question 15

4 major functions of alimentary canal

Answer 15

motility
secretion
digestion
absorption

Question 16

describe motility of alimentary canal

Answer 16

mechanical activity mostly involving smooth muscle - circular, longitudinal layers and the muscularis mucosa

skeletal muscle at - mouth, pharynx, upper oesophagus and external anal sphincter

Question 17

describe secretion of alimentary canal

Answer 17

into the lumen of the digestive tract occurs from itself and accessory structures in response to the presence of food, hormonal and neural signals
required for - digestion, protection and lubrciation

Question 18

describe digestion of alimentary canal

Answer 18

chemical breakdown by enzymatic hydrolysis of complex foodstuffs to smaller, absorbale, units

Question 19

describe absorption of alimentary canal

Answer 19

transfer the absorbable products of digestion (with water, electrolytes and vitamins) from the digestive tract to the blood, or lymph - mediated by numerous transport mechanisms

Question 20

circular muscle contraction

Answer 20

lumen becomes narrower and longer

Question 21

longitudinal muscle contraction

Answer 21

intestine becomes shorter and fatter

Question 22

muscularis mucosae contraction

Answer 22

change in absorptive and secretory area of mucosa (folding), mixing activity

Question 23

describe electrically coupled smooth muscle cells

Answer 23

adjacent smooth muscle cells are coupled by gap junctions, electrical currents flow from cell to cell
this allows for a slow, synchronous wave of depolarisation to spread across muscle sheets - single unit smooth muscle as opposed to multiunit smooth muscle (do not contract in isolation)

Question 24

describe specialised pacemaker cells of the electrically coupled smooth muscle cells

Answer 24

specialised pacemaker cells drive spontaneous activity across the coupled cells
this is modulated by;
intrinsic (enteric) and extrinsic (autonomic) nerves
numerous hormones

Question 25

describe electrical activity of the stomach, small and large intestine

Answer 25

spontaneous electrical activity occurs as slow waves - rhythmic patterns of membrane depolarisation and repolarisation that spread from cell to cell via gap junctions

Question 26

describe slow wave electrical activity and how it is driven

Answer 26

determines the frequency, direction and velocity of rhythmic contractions
is driven by interstitial cells of Cajal (ICCs) - pacemaker cells (calcium dependent channels)
ICCs are located largely between the circular and longitudinal muscle layers

Question 27

describe ICCs in slow wave electrical activity

Answer 27

ICCs form gap junctions with each other and smooth muscle cells electrically coupling them
slow waves in ICCs drive slow waves in the smooth muscle cells coupled to them - depolarising slow waves do not necessarily result in smooth muscle contraction
some ICCs form a bridge between nerve endings and smooth muscle cells

Question 28

describe contraction in the intestine

Answer 28

occurs only if the slow wave (basic electrical rhythm) amplitude is sufficient to reach a threshold to trigger smooth muscle calcium action potentials
force is related to number of action potentials discharged (driven in turn by the duration of the slow wave that is above threshold)
slow waves vary in frequency along length of GI tract

Question 29

stimuli dependent for slow wave amplitude to meet threshold

Answer 29

neuronal stimuli
hormonal stimuli
mechanical stimuli - e.g. presence of food

generally act to depolarise smooth muscle cells (by changing the starting point - membrane potential) rather than influence slow waves directly - depolarisation shifts slow wave peak to threshold

Question 30

autonomic innervation of GI tract - parasympathetic nerves

Answer 30

vagal nerves (sensory and motor) from medulla oblongata
pelvic nerves from sacral spinal cord
pre-ganglionic fibres (neurotransmitter - ACh) synapse with ganglion cells within the enteric nervous system (ENS)

Question 31

excitatory influences of parasympathetic nerves of GI tract

Answer 31

increased gastric, pancreatic and small intestinal secretion
increased blood flow
increased smooth muscle contraction

Question 32

inhibitory influences of parasympathetic nerves of GI tract

Answer 32

relaxation of some sphincters

receptive relaxation of stomach

Question 33

autonomic innervation of GI tract - sympathetic nerves

Answer 33

functionally less important than parasympathetic
superior cervical ganglion and pre-vertebral ganglia (celiac, superior mesenteric and inferior mesenteric) from thorco-lumbar region
pre-ganglionic fibres (neurotransmitter - ACh) synapse in the pre-vertebral ganglia
post-ganglionic fibres (neurotransmitter - NA) innervate mainly enteric neurones, but also other structures

Question 34

excitatory influences of sympathetic nerves of GI tract

Answer 34

increased sphincter tone

Question 35

inhibitory influences of sympathetic nerves of GI tract

Answer 35

decreased motility
decreased secretion
decreased blood flow

Question 36

describe the enteric nervous system (ENS)

Answer 36

very complex
cell bodies are located in ganglia, connectived by fibre tracts wihtin;
myenteric (Aurebach’s) plexus
submucous (Meissner’s) plexus

intrinsic to GI tissue - reflex circuits operate independently but influenced by hormones and extrinsic nerves
co-ordinates muscular, secretive and absorptive activities

Question 37

function of myenteric plexus

Answer 37

regulates motility and sphincters

Question 38

function of submucous plexus

Answer 38

modulates epithelia and blood vessels

Question 39

how does the ENS co-ordinate its activities

Answer 39

via (in order);
sensory neurones - mechanoreceptors etc.
interneurones
effector neurones

Question 40

example of local reflex (major motility pattern)

Answer 40

peristalsis;
PP - wave of relaxation, followed by contraction that normally proceeds a short distance along the gut in an aboral direction - triggered by distension of the gut wall

Question 41

example of short reflex

Answer 41

intestino-intestinal inhibitory reflex - local distension activates sensory neurones exciting sympathetic pre-ganglionic fibres that cause inhibition of muscle activity in adjacent areas

Question 42

example of long reflex

Answer 42

gastroileal reflex (a vago-vagal reflex) - increase in gastric activity causes increased propulsive activity in the terminal ileum

Question 43

major motility patter - segmentation (mixing or churning movements)

Answer 43

rhythmic contractions of circular muscle layer that mix and divide luminal contents
occurs in small intestine (in fed state) and in large intestine (haustration)

Question 44

major motility patter - colonic mass movement

Answer 44

powerful sweeping contraction that forces faeces into rectum

Question 45

major motility patter - migrating motor complex

Answer 45

powerful sweeping contraction from stomach to terminal ileum

Question 46

major motility patter - tonic contractions

Answer 46

sustained contractions;
low pressure - organs with major storage function
high pressure - sphincters

Question 47

sphincters of GI tract

Answer 47

6 in total
circular, generally smooth, muscle
act as one way valves by maintaining positive resting pressure relative to 2 adjacent structures - e.g. oesophagus and stomach
stimuli (positive) proximal and distal to sphincter cause opening and closing respectively

Question 48

upper oesophageal sphincter

Answer 48

skeletal muscle
relaxes to allow swallowing
closes during inspiration

Question 49

lower oesophageal sphincter

Answer 49

relaxes to permit entry of food to the stomach

closes to prevent reflux of gastric contents to the oesophagus

Question 50

pyloric sphincter

Answer 50

regulates gastric emptying

usually prevents duodenal gastric reflux

Question 51

ileocaecal valve

Answer 51

regulates flow from ileum to caecum

distension of ileum opens, distension of proximal colon closes

Question 52

internal (smooth muscle) and external (skeletal muscle) anal sphincters

Answer 52

regulated by defaecation reflex