The Large Intestine Flashcards Preview

LSS 2 - Alim - Laz > The Large Intestine > Flashcards

Flashcards in The Large Intestine Deck (35)
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1
Q

How long is the large intestine and what is its diameter?

A

1.5 m

6 cm

2
Q

What are the principal functions of the large intestine?

A

Reabsorption of electrolytes and water and elimination of undigested food and waste.

3
Q

State a region of the colon that is particularly vulnerable to ischaemia.

A

The area between the area that is perfused by the middle colic artery and the area perfused by the left colic artery.

4
Q

State three features that are unique to the colon.

A

Appendices epiploicae
Taenia coli
Pocketed/segmented appearance - haustra

5
Q

Describe how the distribution of lymphoid tissue is different in the large intestine compared to the small intestine.

A

Lymphoid tissue in the terminal ileum is arranged into peyer’s patches
Large intestine - individual nodules

6
Q

What is the reason for the haustra?

A

The taenia coli are shorter than the intestines so the large intestine is contracted into a pocketed appearance

7
Q

Describe the movement of ions into and out of the large intestine lumen.

A

Na+ and Cl- move out of the lumen
Water follows
K+ moves into the lumen passively

8
Q

How much water can the large intestine absorb?

A

4.5 L/day (usually around 1.5 L/day)

9
Q

How is the histology of the rectum different to the large intestine?

A

No taenia coli

Transverse rectal folds present

10
Q

What are the sphincters in the anal canal and what controls them?

A

Internal anal sphincter - ANS control

External anal sphincter - somatic control (via pudendal nerve)

11
Q

What are the main cells of the large intestine?

A

Enterocytes and goblet cells

Crypts are abundant (goblet cells dominate the crypts)

12
Q

Describe some differences between the epithelium of the large intestine and the small intestine.

A
Large intestine does not have villi
There are no paneth cells
Goblet cells dominate the crypts 
There are stem cells in the crypts (this is a similarity) 
Microvilli are small and irregular
13
Q

What is the role of the goblet cells in the large intestine?

A

Produce mucus which provides lubrication for the movement of the stools down the colon.

14
Q

Describe the distribution of goblet cells in the large intestine.

A

Goblet cells increase in number distally.

15
Q

What stimulates goblet cell secretion?

A

Acetylcholine - they are under parasympathetic control

16
Q

Why are there NO PANETH CELLS in the large intestine?

A

Because the bacteria in the large intestine are integral to its function so you don’t want to be secreting antimicrobial products from paneth cells that will kill the flora.

17
Q

Describe the abundance of enteroendocrine cells in the large intestine.

A

There are FEWER enteroendocrine cells in the large intestine compared to the small intestine.

18
Q

How is the glycocalyx of the large intestine different to the small intestine?

A

There are no digestive enzymes in the large intestine glycocalyx whereas in the small intestine there are carbohydrate digesting enzymes in the glycocalyx.

19
Q

What are taenia coli?

A

The longitudinal muscle layer is concentrated into three bands which are the taenia coli. The longitudinal muscle between these layers is thin.

20
Q

Describe the relationship between the taenia coli and the circular muscle layer? Which is longer?

A

Taenia coli penetrate the circular muscle at irregular intervals. The circular muscle layer is longer which is why you get haustra.

21
Q

What are the different types of contractions in the large intestine?

A

Colonic contractions - not really propulsive, it is a kneading process that promotes absorption of electrolytes and water
In the proximal colon you get ‘antipropulsive’ patterns which try and retain the chyme in that part of the colon to promote more water and electrolyte reabsorption.
You can get localised, haustral contractions that cause back and forth mixing. There are short propulsive movements every 30 minutes.
MASS MOVEMENT - occurs 1 to 3 times a day. Resembles a peristaltic wave and moves the bolus 1/3 to 3/4 of the way along the colon in seconds.

22
Q

Where does the parasympathetic innervation of the colon come from?

A

Vagus nerve and pelvic nerves

23
Q

Where does the sympathetic innervation of the colon come from?

A

Lower thoracic and upper lumbar spinal cord

24
Q

What nerve allows control of the external anal sphincter?

A

External anal sphincter - pudendal nerve - somatic motor

25
Q

What causes Hirschsprung’s disease?

A

Absence of enteric intramural ganglia so you don’t really get proper colonic function.

26
Q

Where are the myenteric plexus ganglia found?

A

Concentrated below the taenia coli.

27
Q

What can stimulate the mass movement?

A

Food in the stomach - by neural and hormonal controls

28
Q

Describe the hormonal control of the colon.

A

Aldosterone stimulates reabsorption of Na+ and water (removes K+ and H+)

29
Q

What causes the defecation reflex?

A

It is controlled by the SACRAL spinal cord

30
Q

Describe the process of defecation.

A

Sudden distension of the walls of the rectum. Pressure receptors send signals via the myenteric plexus to initiate a peristaltic wave from the descending colon, sigmoid colon and rectum.
Internal anal sphincter is inhibited.
External anal sphincter is under voluntary control.

31
Q

What is the significance of the last few centimetres of the rectum?

A

The social part of the rectum can distinguish between solid, liquid and gas. Helps you determine what can be passed appropriately.

32
Q

How much faeces does an adult produce per day? What does it mostly consist of?

A

150 g/day
2/3 water
Bilirubin gives it the brown colour (stercobilin)
Bacterial fermentation gives the smell

33
Q

Describe some of the roles of intestinal flora.

A

Synthesise and excrete vitamin K
Prevent colonisation by pathogens
Antagonise other bacteria through production of substances that inhibit or kill
Stimulate production of cross-reactive antibodies
Stimulate development of certain tissues
Fibre can be broken down by colonic bacteria
Produces short chain fatty acids that can regulate gut hormone release

34
Q

What are the most prevalent bacteria in the large intestine?

A

Bacteroides - Gram-negative, anaerobic, non-sporeforming

Implicated in initiation of colonic cancer and colitis

35
Q

Name a bacterium that is thought to prevent colonisation by potential pathogens.

A

Bifidobacteria - Gram-postive, non-sporeforming, lactic acid bacteria.
Thought to prevent colonisation by host cells.