BIOL 1800 - The Digestive System 1 Intro to Digestion and the Oesophagus PDF

Summary

This document provides lecture notes on the digestive system, covering the introduction to the gastrointestinal tract and the oral cavity. It outlines learning objectives, functions of the digestive system and its parts, like the organs and their roles in the digestive process, and the mechanisms.

Full Transcript

Lecture 9:
Introduction to the Gastrointestinal
Tract
The Oral Cavity and Oesophagus
BIOL 1800
Dr Marie Conway
Learning Objectives
At the end of this lecture you should be able to do the following:

Provide an overview of the gastrointestinal tract (GIT)
Describe the functions of the GIT
Describe the layers of the GIT
Provide an overview of the functions of the oral cavity
Describe to anatomy of the oesophagus
Discuss the stages of swallowing
 got⑨Getting I.Edge Yeates!*5.Is :P:*#◦Egest

The Digestive System
particular elements (liver = lipid)

tubes
 making decisions and choices

Functions of the Digestive System
- to digest and absorb food/nutrients, excrete the waste products

Ingestion – active process - taking food in month (voluntary-making decisions and choices)
Mechanical processing - structural - crushing the food, propeling it further to the tract (swallowing),
prepares food for the chemical digestion

Digestion – chemical breakdown - breaking down food → large molecules → smaller fractures → absorbtion to blood

Secretion – H2O, enzymes, buffers, acid - glandular organs/cells → secret → tract

Absorption - CHO, lipid, protein, ions, vitamins, water, minerals → from interstitial
fluid to cells

Excretion - Removal of waste
Cavities

7 L of fluid is moved in/out of
peritoneum each day, only small volume
(20 ml) there at any one time
Peritoneum
A serous membrane encapsulating with
peritioneal fluid membranes (enables movement without friction)
- lubricates, separates the parietal and visceral

Outer parietal membrane lines the inner
surface of the body wall

Inner visceral membrane covering the
organs of the peritioneal cavity (aka
serosa)
7 L of fluid is moved in/out of
peritoneum each day, only small volume
(20 ml) there at any one time
Peritoneum & Disease
Peritonitis - result of surgery or appendicitis (→ inflammation)

Abnormal accumulation of peritoneal fluid
associated with liver disease/cirrhosis, renal disease,
heart failure & infection (laparoscopy)
Clinical signs
Abdominal swelling/redness
Clinical symptoms
Severe abdominal pain
Heartburn/indigestion
Mesentery =" holds everything together"

Doubled sheets of “sandwiched”
- fold of membrane that attaches the
peritoneum intestine to the wall around the
stomach area and holds it in place

Forms access route for
blood/lymph vessels & nerves

Organs of GIT suspended/fixed by
mesentery’s within peritoneal
cavity

Martini Fig 24.2
Histological organisation of the digestive tract
Layers of the GIT (alimentary canal)
1. Mucosa
2. Submucosa
3. Muscularis Externa
4. Adventitia / Serosa
Layers of the GIT (alimentary canal)
1. Mucosa
Inner lining; epithelium
(enterocytes) & underlying lamina
propria
Epithelium; simple or stratified
Lamina propria; loose irregular CT,
blood/lymph vessels, nerves &
muscularis mucosa

Martini Fig 24.3
Layers of the GIT (alimentary canal)
1. Mucosa
- enterocytes = intestinal absorptive cells
Inner lining; epithelium - simple columnar, line intestines

(enterocytes) & underlying lamina
propria - supplier, mucosal glands

- differs along the tract → secretory goblet cells, microvilli

Epithelium; simple or stratified
Lamina propria; loose irregular CT,
blood/lymph vessels, nerves &
muscularis mucosa ⇒ mucosa is folded

Martini Fig 24.3
Layers of the GIT (alimentary canal)
2. Submucosa
Dense irregular connective tissue
Larger blood/lymph vessels
Exocrine glands (buffers & mucus)
Submucosal nerve plexus

Martini Fig 24.3
Layers of the GIT (alimentary canal)
2. Submucosa
Dense irregular connective tissue
Larger blood/lymph vessels
Exocrine glands (buffers & mucus)
Submucosal nerve plexus - controls musoca
- nerve fibres network

Martini Fig 24.3
Layers of the GIT (alimentary canal)
3. Muscularis Externa
Transverse (circular) & longitudinal
smooth muscle

layers of SM
Peristalsis (motility) &
segmentation
Myenteric intrinsic nerve plexus
- controls the motility

Regional differences - it'
motility

Martini Fig 24.3
Layers of the GIT
(alimentary canal)
3. Muscularis Externa
Muscle layers in the Muscularis
The combination of circular and
longitudinal smooth muscle gives
the tube an ability to perform
complex movements that squeeze
and propel ingesta in the lumen
Layers of the GIT (alimentary canal)
4. Serosa - covers the muscular layers

Outermost layer
Visceral peritoneum
Loose irregular CT covered by simple
squamous epithelia
Double layered mesentery, houses
vascular and nervous supplies to the
GIT
+ colon, rectum
Adventitia at oesophagus - outer layer of connective tissue that surrounds the tubular organs
- from collage nous and elastic fibres Martini Fig 24.3
- not covered with peritoneum
Layers of the GIT (alimentary canal)
4. Serosa
Outermost layer
Visceral peritoneum
Loose irregular CT covered by simple
squamous epithelia
Double layered mesentery, houses
vascular and nervous supplies to the
GIT
Adventitia at oesophagus Martini Fig 24.3
Histological organisation of the digestive tract
Summary
Mucosa lines digestive tract (mucous epithelium)
– Moistened by glandular secretions
– Lamina propria and epithelium form mucosa
Submucosa
– Layer of dense irregular connective tissue
Muscularis externa
– Smooth muscle arranged in circular and
longitudinal layers
– Adventitia 2 -
Serosa
– Serous membrane covering most of the
muscularis externa
Control of digestive function
Control of digestive function…
Motility
Rate of digestion / absorption

Coordinated via
Enteric nervous system - division of the autonomic nervous system
- neurons around - peristalsis
Submucosal & Myenteric plexes ↗

Long & Short reflexes - control the digestion

Enterogasterones
by the mucosa
Hormone “like” chemicals secreted
locally that impact digestion/absorption
Motility
Rhythmic cycles of contraction induced by pace-setter cells within the muscularis externa (basal electrical
rhythm; BER) - colon expands and elongate → segmentation
- does not push food in any direction
Peristalsis Segmentation Haustral
Esophagus, stomach & SI SI - mixing bolus with intestinal secretions LI - compaction

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Martini Fig 24.4 Germann & Stanfield Fig 30 Moore Fig 12.45
Control of the digestive system
Movement of materials along the digestive tract
is controlled by:
1. Local mechanisms
– Coordinate response to changes in pH
or chemical stimuli
2. Neural mechanisms
– Parasympathetic and local nervous
reflexes
3. Hormonal mechanisms
– Enhance or inhibit smooth muscle
contraction
 NEURAL CONTROL

SHE'S"
trig:&abettors

LOCAL CONTROL

HORMONAL CONTROL

peptides from endocrine cells
Control of digestive function
Short & Long reflexes

(enteric)
Short reflexes - intrinsic nerve-motality, growth

Local stimulus & local effectors (smooth muscle & glands)
Enterogasterones (gastrin, secretin, CCK, motilin, ghrelin)

Long reflexes
Cephalic reflexes (smell etc) - response to stimuli from outside the GIT (sensory neurons)

Afferents from GIT to CNS (chemo/mechano/osmo etc)
sensitive to sensitive to sensitive to the osmolarity
chemicals stretch/tention of the lumenal content
central and
autonomic his.
Long & short reflexes
Submucosa

Germann & Stanfield Fig 22

Enterogasterones
 ENTEROGASTERONES
Gastroenterones / Gastric Hormones
The Oral Cavity and Oesophagus
Oral/ buccal cavity → PHARYNX
Functions
Analysis of food
sensory analysis of food before swallowing

Mechanical digestion
through the actions of the teeth, tongue, and
palatal surfaces;
= chewing
includes mechanical processing and mastication
Lubrication
by mixing with mucus and saliva epithelium: stratified squamous
keratinized - hard palate,tongue

Limited digestion non-Keratin lips, cheeks

limited chemical digestion of carbohydrates and
lipids
Martini Fig 24.6
The Oesophagus - 25cm, narrow point-C6 → empties to the stomach-T7

Anatomically and functionally, the Oesophagus is the least complex section of
the digestive tube.

Its role in digestion is simple:
– to convey boluses of food from the pharynx to the stomach.

The oesophagus begins as an extension of the pharynx in the back of the oral
cavity
– It then courses down the neck behind the trachea,
– through the thoracic cavity,
– and penetrates the diaphragm
– to connect with the stomach in the abdominal cavity
Oesophagus & Stomach Normal
Location of Oesophagus
aorta
oesophagus

trachea
diaphragm

THORACIC CAVITY

ABDOMINAL CAVITY stomach
The Oesophagus
Carries solids and liquids from the pharynx (mouth) to the stomach
The wall of the oesophagus contains mucosal, submucosal, and muscularis
layers.

Histology of the Oesophagus
Distinctive features of the oesophageal
wall include:
– Non-keratinized, stratified squamous
epithelium
– Folded mucosa and submucosa
– Mucous secretions by oesophageal glands
– A muscularis with both smooth and skeletal
muscle portions soft palate-keeps the pharynx closed
– Lacks serosa
– Anchored by an adventitia
Muscle Layers in the Oesophagus

= cardiac sphincter
Histology of lower 2/3 of oesophagus

circular muscle

long..- muscle
Deglutition
2400 times per day - unconscious

every 40s !

Voluntary & involuntary
1. Buccal phase
2. Pharyngeal phase
3. Oesophageal phase

Martini Fig 24.11
Deglutition
1. Buccal phase chewing and mixing
food with saliva → bolus

Voluntary
Compression of bolus (hard
palate)
Tongue pushes bolus
posteriorly
Soft palate lifts (nasopharanx)
Bolus enters oropharynx

Martini Fig 24.11
Deglutition
2. Pharyngeal phase
Involuntary/reflex
Pre-programmed all or none
sequence
Bolus contacts palatal arches
and uvula
Receptors relay afferents via
trigeminal & glossopharyngeal
nerves to swallowing centre in
medulla.

Martini Fig 24.11
Deglutition
2. Pharyngeal phase
Efferents to pharyngeal constrictor
muscles move the bolus into the
oesophagus by constricting the
pharyngeal wall
Elevation of larynx, folding of
epiglottis direct bolus past trachea
Respiration inhibited

Martini Fig 24.11
Deglutition
3. Esophageal phase
Involuntary/reflex
Primary peristaltic waves
drives bolus down esophagus
(10 s).
Secondary stronger peristaltic
waves may be required.

Martini Fig 24.11
Deglutition
3. Oesophageal phase
Local stretch receptors detect
distension and peristaltic
contractions are modified
(submucosal & myenteric plexus)

Martini Fig 24.11
Swallowing (deglutition)
Buccal phase -→completion of bolus against the
lift of the soft palate
hard palate

Pharyngeal phase -- bolus contacts the pharyngeal arches
enter oesophagus through upper
oesophageal sphincter

Oesophageal phase - bolus enters the stomach through
the lower oesophageal sphincter
Dysphagia
Difficulty swallowing
Oropharyngeal / esophageal
– Genetic (cleft palate)
– Obstructive (tumor)
– Neurological (stroke)
– Muscular (scleroderma)
Nasogastric tube

Hammil 2017
Dysphagia
Difficulty swallowing
Oropharyngeal / esophageal
– Neurological (stroke)
– Genetic (cleft palate)
– Obstructive (tumor)
– Muscular (scleroderma)
Nasogastric tube
PEG (percutaneous endoscopic
gastrostomy) tube
Schwarts 2015
Oesophagus
Barrett's Oesopagus

Gastroesophageal reflux disease (GERD)

Caused by adaptation to chronic acid
exposure from reflux esophagitis

Mucosa replaced by metaplastic
columnar epithelium

Strong association with esophageal
cancer
Spechler et al., 2013 JAMA