Gastrointestinal System 1 Lecture Notes PDF

Summary

These lecture notes cover the Gastrointestinal System, focusing on the anatomy, functions, and layers. Diagrams and illustrations aid in understanding the components. The material is geared towards an undergraduate Biology course at Western Sydney University.

Full Transcript

LECTURE 6
Gastrointestinal System 1
Reference: Amerman; Chapters 22 and 23

Dr. Nancy Haydar
School of Science

[email protected]

1
2
 Objectives

Describe the layers, movements and
functions of the gastrointestinal tract
Describe the functional anatomy of the:
– Mouth
– Oesophagus
– Stomach
– Small intestine
 Gastrointestinal Tract
The continuous muscular digestive tube
that winds through the body digesting and
absorbing foodstuffs.
Organs include:
– Mouth, pharynx, oesophagus, stomach,
small intestine (duodenum, jejunum and
ileum), large intestine (ascending,
transverse, descending and sigmoid colon),
rectum and anus
Accessory digestive organs:
– Teeth, tongue, salivary glands, liver,
gallbladder and pancreas
 Functions
Ingestion
Mastication (mouth) – Mechanical Food
and chemical breakdown Mechanical
breakdown Pharynx
Ingestion of food – Swallowing and Chewing (mouth) Esophagus
Churning (stomach) Propulsion
propulsion Segmentation Swallowing
(small intestine) (oropharynx)
Digestion – Mechanical and Peristalsis
Digestion (esophagus,
chemical breakdown of food stomach,
particles into pieces that can pass small intestine,
large intestine)
through cell membranes Stomach
Absorption
Absorption – Transfer of nutrients
Lymph
from the gut to the blood circulation vessel
Excretion – Expulsion of
Small
undigested material intestine
Large Blood
intestine vessel
Mainly H2O
Faeces

Anus
Defaecation
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 GIT (Alimentary Canal).

Mouth (oral cavity) Parotid gland
Tongue* Sublingual gland Salivary
Submandibular gland glands*

Esophagus Pharynx

Stomach
Pancreas*
(Spleen)
Liver*
Gallbladder*

Transverse colon
Duodenum Descending colon
Small Jejunum
intestine Ileum Ascending colon
Large
Caecum
Sigmoid colon intestine
Rectum
Appendix
Anus Anal canal
 Layers of the GIT
1. Mucosa lines the lumen; composed of:
– Epithelium (different types in different locations → mostly
simple columnar epithelium with mucus-secreting cells).
– Lamina propria (loose areolar connective tissue with
capillaries for nourishment of the mucosa and absorption)
– Muscularis mucosae (smooth muscle that produces local
movements of mucosa)
2. Submucosa: Dense connective tissue; blood/lymph
vessels; glands and the submucosal plexus (neural network)
– controls gland secretion
3. Smooth muscle/Muscularis Externa responsible for
segmentation and peristalsis; also contains myenteric
plexus (neural network) – controls motility
4. Serosa: Visceral peritoneum
Layers of the GIT

(Peritoneum)

Visceral peritoneum
Layers of the GIT
 Movement of the GIT
Peristalsis Segmentation

Adjacent segments of GI tract organs Nonadjacent segments of GI tract
alternately contract and relax, which organs alternately contract and relax,
moves food along the tract distally. moving the food forward then
backward. Food mixing occurs.
 Peritoneum
Serous epithelial membrane that
covers the internal walls of the
abdominal cavity and the outer
surface of the abdominal organs.
Two layers:
- Parietal peritoneum – Covers
internal abdominal walls
- Visceral peritoneum – Covers
outer surface of abdominal organs
Peritoneal cavity – Space between
parietal and visceral peritoneum
Peritoneal folds
- Omentum (suspends stomach)
- Mesentery (suspends SI)
- Mesocolon (suspends LI)
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 Greater Omentum
Two layers of visceral peritoneum - descends from stomach

Pass in front of small intestines, it
then turns upwards and backwards
and ascends to transverse colon.
The two layers separate and
enclose the transverse colon.
Contains adipose tissue, which in
obese people accumulates in
considerable quantity.
Like an apron which covers the
intestines.

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Greater Omentum

© 2013 Pearson Education, Inc.
 Mesentary and Mesocolon
Two layers of visceral peritoneum against each other

Attach small and large intestines
to the posterior abdominal wall
Allow freedom of movement in the
abdominal cavity.
Hold viscera in proper relationship
to each other.
Prevent the intestines from
becoming twisted and tangled by
changes in body position and by
its own contractions.
Provides passage of blood
vessels and nerves that supply
digestive tract.
Contain lymph nodes and vessels. © 2013 Pearson Education, Inc.
Mesentary and Mesocolon
 Intraperitoneal and Retroperitoneal Organs

Retroperitoneal –
Behind the parietal
peritoneum

Intraperitoneal –
Almost entirely covered
in visceral peritoneum.

Infraperitoneal – Below
the parietal peritoneum
 Divisions of the GIT

Embryologically:
– Foregut Celiac Trunk*
Mouth → First half of duodenum
– Midgut Superior Mesenteric Artery
Second half of duodenum →
proximal half of large intestines
– Hindgut
Distal half of large intestine →
rectum Inferior Mesenteric Artery

*supplies foregut abdominal organs only
Proper hepatic artery
IVC
Short
Break
 Mouth

Mouth – oral cavity
Main parts:
– Cheeks
– Hard and soft palate (form
roof)
– Uvula
– Tongue
– Teeth
Oral cavity is lined with
stratified squamous epithelium
which is kept moist by saliva.
Mouth
 Salivary Glands
Saliva - Produced by salivary glands (parotid, submandibular and
sublingual); contain enzyme salivary amylase (starts starch breakdown)
Salivation is triggered by taste, smell, sight or thought of food.
Salivation is stimulated by the parasympathetic nervous system via CN
VII - facial nerve and CN IX -glossopharyngeal nerve.
 Teeth
Primarily composed of dentin (similar
to bone but composed of calcified
connective tissue).
Three parts: Crown, neck and root
Dentin of the crown covered by hard
enamel; dentin of the root covered by
softer cementum.
Inside the tooth is pulp cavity and
pulp (vessels and nerves) – cavity
extends into root canals.
Alveolar processes of upper and lower
jaws are covered by gingiva (gums)
Teeth are fixed to bony sockets of the
alveolar processes of the jaws with
many periodontal ligaments.
 Teeth

20 appear ~6-24 months

 Incisors (8 total)
- Chisel-shaped for biting and cutting

 Canines (4 total)
- Fang-like for tearing

 Premolars (8 total)
- Broad for crushing and grinding

 Molars (12 total)
- Broad for crushing and grinding
32 appear ~6-12 years
3rd molars (wisdom) appear ~17-25 years
Teeth
 Tongue
Muscular organ made of intrinsic muscles that change shape of tongue;
numerous extrinsic muscles alter tongue’s position
Participates in food mixing during
chewing, bolus formation and
initiation of swallowing; also Epiglottis
essential for speech and taste Palatopharyngeal
arch
Sublingual glands produce enzyme
Palatine tonsil
lingual lipase
Lingual tonsil
Tongue papillae: Palatoglossal
– Filiform: Whitish, give the tongue arch

roughness and provide friction. Terminal sulcus

– Fungiform: Reddish, scattered Foliate papillae
over the tongue. Taste buds. Vallate papilla

– Circumvallate (vallate): V-shaped
Medial sulcus
row in back of tongue. of the tongue

Tongue also contains lingual tonsil Dorsum of tongue

(immune tissue). Fungiform papilla

Filiform papilla
 Digestion in the Mouth

Mechanical digestion (mastication or chewing)
– Breaks food into smaller pieces.
– Mixes pieces of food with saliva.

Chemical digestion refers to breakdown of food through enzyme activity
(or acid → stomach).
– The process is called hydrolysis – breakdown of complex molecules
into simpler ones with the addition of a molecule of water.
– The main enzyme in the mouth is amylase – begins starch digestion
into simpler sugars.
This digestion stops in the stomach due to the high acidity (low
pH) of the stomach which neutralises amylase.
 Oesophagus
Muscular tube that connects pharynx and stomach
Located in the mediastinum
– Anterior to the vertebral column
– Posterior to the trachea
– Posterior to the heart
Passes through diaphragm at an opening called
the oesophageal hiatus
Function: Transports food into the stomach during
swallowing.
– Swallowing is aided by the presence of saliva
– Peristalsis moves the bolus → stomach.
Upper and lower oesophageal muscular
sphincters control passage of food; normally
closed, open during swallowing.
 Oesophagus

Four layers:
– Mucosa
– Submucosa
– Muscle layer
– Outer connective tissue
covering (adventitia) →
blends with surrounding
connective tissue.
 Stomach
Parts: Cardia, fundus, body, pyloric antrum, pyloric canal and pylorus
(opening into duodenum with circular pyloric sphincter muscle)
Borders: Lesser curvature (medial) and greater curvature (lateral)
Location: Located under diaphragm in the left upper abdominal area
 Stomach
Stomach wall layers:
− Mucosa - Simple columnar epithelium; has large folds known as rugae that make
the surface rough (to increase the mixing & mechanical breakdown effects)
− Submucosa- Containing submucosal plexus
− Smooth muscle - Several layers, containing myenteric plexus
− Serosa – Smooth visceral peritoneum
Gastric Mucosa
 Gastric Mucosa
Composed of simple columnar epithelium that folds inside the wall containing
numerous gastric glands opening on mucosal surface via gastric pits.

Surface Mucous and Mucous Neck
Cells produce mucus and are the most
numerous in the gastric mucosa

Parietal cells produce hydrochloric
acid (HCl) and intrinsic factor (protein
required for absorption of vitamin B12)

Chief cells produce digestive enzymes;
pepsinogen and gastric lipase
G cells are endocrine – produce
hormone gastrin → stimulates release of
gastric juice and ↑ gastric motility
 Digestion in the Stomach

Mechanical digestion
– Achieved through peristaltic movements (mixing waves)
– Food turned into thick soupy liquid called chyme
Chemical digestion
– Hydrochloric acid from parietal cells:
Kills microbes; denatures (unfolds) proteins from food making
enzymatic proteolysis easier; transforms pepsinogen (inactive
enzyme) into pepsin, inactivates salivary amylase.
– Pepsin (proteolytic enzyme):
Breaks down protein chains into smaller peptide fragments
Most effective in the very acidic environment (pH=2)
 Regulation of Gastric
Secretion and Motility
Cephalic phase
– Starts with sight, smell, taste, thought of food
– Parasympathetic activation leads to stimulation of gastric
secretion and motility (via cranial nerve X – vagus)
Gastric phase
– Activated via stretch receptors and chemoreceptors
(monitor pH) in the stomach after the food comes in
– Outcomes: increased peristalsis (mixing), release of gastrin
→ increased gastric secretions
Intestinal phase
– Enterogastric reflex and hormones (enterogastrones -
secretin, cholecystokinin and vasoactive intestinal peptide)
decrease stomach secretions, motility and emptying.
 Gastric Motility and Empyting
PYLORIC VALVE PYLORIC VALVE PYLORIC VALVE
SLIGHTLY OPENED CLOSED SLIGHTLY OPENED
 Regulation of Gastric Emptying

As chyme enters duodenum →
intestinal phase
– Receptors respond to stretch
and chemical signals.
– Enterogastric reflex occurs
(inhibits gastric motility) and
enterogastrones (inhibits
gastric acid production).
Carbohydrate-rich chyme moves
quickly through duodenum.
Fatty chyme remains in
duodenum 6 hours or more.

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 Small Intestine
~6m long; From pyloric sphincter to
ileocaecal valve
Major organ of digestion and
absorption
Subdivisions:
– Duodenum
Retroperitoneal
– Jejunum
Attached posteriorly by
mesentery
– Ileum
attached posteriorly
by mesentery
Motility: Mostly segmentation with
intermittent peristalsis
 Duodenum (1st part of SI)
Shortest part of the small intestine ~25 cm
Curves around head of pancreas
Receives the bile duct (from gall bladder and liver) and main pancreatic duct
(from pancreas).
Brunner's glands secrete
alkaline mucus to neutralize
acidic chyme

© 2013 Pearson Education, Inc.
 Jejunum and Ileum (2nd and 3rd part
of SI)

Jejunum
– Extends from
duodenum to ileum
– About 2.5 m long
Ileum
– Extends from jejunum
to caecum (1st part of
LI)
– Joins large intestine at
ileocaecal valve
– About 3.6 m long
 Vessels and Nerves of SI

Superior mesenteric artery
(branch of the abdominal aorta)
brings oxygen-rich, nutrient-poor
blood supply

Veins (carrying nutrient-rich,
oxygen-poor blood) drain into
superior mesenteric veins →
hepatic portal vein → liver

Vagus nerve (parasympathetic/rest
and digest) and sympathetics
(fight or flight) from thoracic
splanchnic nerves serve small
intestine
 Histology of SI
Lined with simple columnar epithelium specialised for absorption (called
Enterocytes)
Contains numerous mucus-producing cells (Goblet cells)
Contains Peyer's patches which protect against bacteria
Structures that increase surface area:
– Circular folds of mucosa (plicae circulares)
Permanent folds (~1 cm deep) that force chyme to slowly spiral
through lumen → nutrient absorption
– Villi
Extensions (~1 mm high) of mucosa with capillary bed and lymphatic
vessels (lacteals) for absorption
– Microvilli
Microscopic extensions of cell membrane on the upper surface
Microvilli form so-called brush border which contain some digestive
enzymes (for digesting carbohydrates and proteins)
Histology of Small Intestine
 Intestinal Crypts
Intestinal crypt epithelium renewed every 2-4 days
Contain secretory cells that produce intestinal juice
– 1- 2L secreted daily in response to distension or irritation of mucosa
– Slightly alkaline; isotonic with blood plasma
– Largely water; enzyme-poor (enzymes of SI only in brush border);
contains mucus
– Facilitates transport and absorption of nutrients
Enteroendocrine cells → enterogastrones (inhibits gastric
motility/secretions)
Intraepithelial lymphocytes (IELs)
– Release cytokines that kill infected cells
Paneth cells
– Secrete antimicrobial agents (defensins and lysozyme)
Stem cells divide to produce crypt cells
 Digestion in Small Intestines

Mechanical digestion
– Bile (from liver/gall bladder), peristalsis and segmentation
Chemical digestion
– Enzymes from pancreas and small intestine brush border
enzymes
 Next Week (Week 7)
MONDAY/TUESDAY/WEDNESDAY/THURSDAY
Practical 5: Gastrointestinal System 1
Topics covered:
– Abdominopelvic Cavity
– Organs of the Gastrointestinal Tract (up to the ileum)
– Layers of the GIT
– Peritoneum and Peritoneal Cavity
– Blood Supply and Drainage of the Abdominal Gastrointestinal Organs
Complete before practical:
– Read or listen to Gastrointestinal lecture 1 (week 6)
– Work through your practical notes using the pre-practical activities and
answer the short answer questions
– Reminder: Print your practical notes and come with lots of questions!
MONDAY https://www.youtube.com/watch?v=-1aZj6v6dxc
Lecture 7: Gastrointestinal 2
Pre-reading: Amerman Chapter 22 and 23
50