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NBA2 Basic aspects of the small intestine: anatomy and physiology

34 important questions on NBA2 Basic aspects of the small intestine: anatomy and physiology

Paristalsis: the organised propulsion of material within the intestinal lumen

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Gastrointestinal blood flow - splanchnic circulation

Blood through gut, spleen, pancreas --> portal vein --> liver

Liver: filters blood, then --> vena cava

the blood vessels of the gastrointestinal system are part of a more extensive system called the splanchnic circulation: receives ± 30% of cardiac output

What are the functions of the digestive system?

Ingest the food
break food down into small molecules that can cross plasma membranes (digestion)
absorb these nutrient molecules (absorption)
eliminate non-digestible wastes
tube <-> motility

Arterial blood supply to the intestines through the mesenteric web

Mesenteric web: fine grained web of arteries that split and become smaller and smaller

What are the regions of the small intestine?

The duodenum is attached to the stomach. The jejunum leads to the ileum, which is attached to the large intestine.

The average length/inner diamater of the small intestine averages 6m resp. 2.5 cm

duodenum - 25 cm
jejunum - 1m
ileum - 2 m

How is the regulation of blood flow

During active absorption of nutrients, blood flow in the villi and adjacent regions of the submucosa is increased as much as eightfold
likewise, blood flow in the muscle layers of the intestinal wall increases with increased motor activity in the gut
returns to the resting level over another 2 to 4 hours after a meal
precise causes of the increased blood flow during increased gastrointestinal activity are still unclear, but peptide hormones (CCK, VIP), kinins (kallidin), and oxygen play a role

Our of what does the wall of the digestive tract consist?

Four different types of tissues are found in the wall of the alimentary canal (epithelial, muscle, nervous, connective tissue)

From inside to outside

mucosa
submucosa
muscularis (externa)

circular
longitudinal

serosa

What is part of the wall of the small intestine?

Surface area of the small intestine is approximately that half of a badminton court (30m^2), maximising nutrient absorption. Amplification ± 60-120x

three features contribute to increasing its surface area:

circular folds
villi
microvilli

What are the cells in the small intestine

Enterocyte

digests and absorbs nutrients [ absorptive cells]

goblet cell

secretes mucus

enter-endocrine cell

secretes the hormones secretin, cholecystokinin, or GIP

paneth cell

secretes lysozyme and is capable of phagocytosis

Where are the cells of the small intestine come from?

The stem cell - that are in the crypts

and can make

paneth cell
goblet cell
enter-endocrine cell
enterocyte

Differentiation of cells: role of growth factors

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What needs to be know about the muscular layers in the gastrointestinal tract? (+function)

Function: motility and structure
Smooth muscle cells
Contractions of mammalian are preceded by changes in membrane potential differences (mainly Ca2+ in/efflux
Depolarisation of the membrane: contract
Hyperpolarization: opposite effect (relaxation)

two layers

inner circular muscle layer
outer longitudinal muscles

many neural innervations (plexuses)

The possible roles for diet in intestinal cancer initiation

Normal diet
calorie restriction
pro-obesity high-fat diet and obesity

Where/what is the structural relationship of the intestinal musculature and the enteric nervous system

Plexus: a network of many nerves in the body (=many ganglia)

Ganglia: a complex of nerve cells

ICC: interstitial cells of Cajal

myenteric plexus
myenteric ICC
submucosal plexus

Important function is fluid absorption, what is so important?

Fluid load jejunum: ±7-10L/day

1-2 L each of dietary water, saliva, gastric juice, pancreatic juice, intestinal secretion, 0.5L bile

±80% absorbed in small intestine by isometric transport

high permeability for water; osmotic equilibrium

What is part of the autonomic nervous system (CNS)

Sympathetic - fight or flight
Parasympathetic - rest and digest
Enteric nerve system (ENS) - GI-tract has its own nerve system [2nd brain]

How does fluid absorption goes?

Usually a meal is hypertonic and water initially enters the small intestine form the extracellular fluid by osmosis
Subsequent absorption of fluid depends on the active transport of nutrients and electrolytes
Driving force: Na+ gradient, maintained by Na/K-ATPase

What are the characteristics of the interstitial cells of Cajal (ICC) [the basic 'rhythm']

Specialized electrical pacemaker cells associated with the smooth musculature of the GI tract
Four different types
Activate smooth muscle cells to contract
Slow waves of electrical activity spread from one smooth muscle cell to another through gap junctions
connected to NS: many locally synthesised neurotransmitters act though them
Facilitate communication between the nervous system and the smooth muscle of the gut wall!

The frequency of ICC pacemaker activity differs in different regions of the GI tract:
stomach
duodenum
ileum
colon

[interstitial cells of Cajal: slow waves]

stomach

3 per minute

duodenum

11-12 per minute

ileum

8-9 per minute

colon

3-4 per minute

What are the central components of the ENS?

Two networks (plexuses) of neurons (100 million)
Embedded in wall GI-tract, from oesophagus to anus

Myenteric (Auerbach's) plexus
Submucosal (Meissner's) plexus

What is the structure of the exocrine pancreas

Acinar cells produce enzymes in isotonic NaCl solution
Duct cells secrete an isotonic NaHCO3 solution

What are the functions of the two plexuses?

Myenteric (Auerbach's) plexus

controls digestive tract motility (control of gut motility)

Submucosal (Meissner's) plexus

control absorption and secretion

How to prevent pancreatic autodigestion

Enzymes in acing cells sequestered in vesicles
Most enzymes = zymogens (inactive precursors)
Activated in duodenum by (proenzyme) trypsinogen
Pancreas produces trypsin inhibitor

How does the ENS work?

The ENS works in 2 different ways:

Autonomously (using the local reflex)
In communication with the sympathetic and parasympathetic nervous system

What is the cellular model of pancreatic duct cell secretion?

Na+/K+ as in plasma, high HCO3-, low Cl- (1L/day)
HCO3- secretion requires Cl- recycling: role of CFTR!
Na+ secreted following HCO3- secretion (neutral); water follows

The autonomous function of the ENS

Three types of neurons

ascending network of neurons
descending network of neurons
sensory neurons

receives stimuli form long/ muscle
receives stimuli form submucosa

sensory neurones --> submucosal plexus +/ myenteric plexus
--> mouvement of your bowl, independent of your own will

Autonomous function of the ENS: peristalsis [propulsion of food]

After eating a meal:

Bolus stretches muscles --> activation sensory neuron
food constituents --> activation (another type) sensory neuron
interaction with ascending and descending neurons
behind bolus: --> Asc. Neurons: activating neurotransmitters (ACh): -> contraction circle. Muscle
Desc. Neurons: inhibiting neurotransmitters (NO): --> relaxation long. muscle
in front of bolus: vice versa --> Desc. Nuerons: relaxation circle muscle
asc. Neurons: contraction long. Muscle

Synthesis of bile salts

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Agents that are involved in the regulation of intestinal motor activity

Acetylcholine; serotonin; opioid peptides; substance P --> increased Ca2+

CCK; bombesin --> increased release of acetylcholine and substance P

Opioid peptides --> inhibit adenylate cyclase

etc
etc
etc

What are the functions of bile salts: lipid absorption

Detergent (surface area)
Micelle formation

What happens when there is communication of ENS with (para)sympathetic NS

Decreasing: [sympathetic]

peristalsis
blood flow
absorption
local secretion

Increasing: [parasympathetic]

peristalsis
blood flow
absorption
local secretion

Why is enterohepatic circulation of bile salts important?

Relatively small pool provides sufficient bile salts for liquid absorption

When this goes wrong: pseudo obstruction and Hirschsprung's disease

Characterized by symptoms of intestinal obstruction in the absence of a mechanical obstruction
Symptoms: colicky abdominal pain, nausea and vomiting, and abdominal distension
Cause: degenerative changes in the ENS, resulting in too many contractions

Hirschsprung (colon): defecation difficulty or failure, resulting in enlarged proximal colon
Cause: genetic disorder resulting in absence of enteric neurons in colon

Three types of gastrointestinal movement

Segmentation - mixing

movement of chyme in both directions, allowing greater mixing with the secretions of the intestines. (contraction of circular muscles)

Tonic contration - separation (sphincter)

sustained contraction of the muscle

Peristalsis - propulsion

one-way motion (contraction of mainly longitudinal muscles, but also circular muscles)

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Food digestion: nutrient breakdown and absorption

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