Digestive System, Part II, Lecture 1+2, Dr. Hana Abusaida, 2024 PDF

Summary

These lecture notes from Sabha University detail the histological structure of salivary glands, pancreas, liver, and gall bladder. The document covers various types of cells, secretory units, and duct systems; functions and medical applications are also discussed. The lecture was given in 2024.

Full Transcript

ORGANS ASSOCIATED
WITH THE DIGESTIVE
TRACT

Lecture
1
 Salivary
Dr. Hana Abusaida glands
Department of Histology
Faculty of Medicine,
Sabha University
2024
 Learning
Objectives
Study the histological structure of the three types of salivary
glands.
Comparing the secretory units of the salivary glands.
Compare the histology and exocrine function of the
pancreas with that of the parotid salivary gland.
Understand the overall organization of liver structure and
hepatocytes.
Understand the origin of bile and the duct system.
Understand the structure of the gall bladder wall.

Dr.Hana Abusaida, Histology
Department, Sabha University
 Organs Associated With the Digestive Tract

Include: salivary glands, the pancreas, the liver, and the
gallbladder
I- Salivary Glands
Exocrine glands in the mouth.
Salivary glands divided into two groups:
1. Major glands.
Produce 90% of saliva.
Large, capsulated
Produce 0.75 to 1.50 L of saliva daily.

Three pairs of large salivary glands:
1) Parotid
2) Submandibular gland.
3) Sublingual gland.

* 3 types of secretions for salivary glands:
Serous, seromucous, or mucous.
Dr.Hana Abusaida, Histology Department, Sabha
University
 Salivary Glands

2- Minor glands
Small, non capsulated.
Secrete 10% of saliva.
Secretions mainly mucous except for Von
Ebner glands.
Present in mucosa and submucosa of oral
cavity:
a) Von Ebner glands: circumvallate and
folliate papillae of the tongue.
b) Glands of Blandin-Nuhn: on ventral
tongue
c) Palatine glands: in the palates.
d) Weber glands: on sides of tongue.
Dr.Hana Abusaida, Histology
Department, Sabha University
 Functions of Salivary glands:
Produce Saliva

Saliva comprises: 98% water, plus electrolytes, mucus, glycoproteins, enzymes (such as
amylase and lipase), antimicrobial agents such as IgA , peroxidase, lactoferrin and lysozyme.
1. Protection
a) Lubricant, moisturizes the inside mouth to creates smoother speech.
b) formation of salivary pellicle ( protein film for teeth protection).
2. Digestion
a) Converts starch into maltose with salivary amylase.
b) Helps chewing and swallowing.
3. Antimicrobial
a) Lysozyme, peroxidase and lactoferrin fight against pathogenic microorganisms.
4. Tissue repair
a) Saliva accelerates blood coagulation, so bleeding time of oral tissues shorter than other
tissues.
b) Clot less solid than normal.

Dr.Hana Abusaida, Histology
Department, Sabha University
 MEDICAL APPLICATION
Dry mouth or xerostomia
Insufficient secretions of saliva, leading to dry mouth or
xerostomia,
Caused by various factors such as:
 Side effect of certain diseases and infections.
 Dehydration.
 The normal side effect of drugs.
Sialorrhea or excessive saliva production,
Associated with:
 Inflammation of oral cavity,
 Viral infection.

Dr.Hana Abusaida, Histology
Department, Sabha University
Structure of major Salivary glands:

1- A stroma (capsule of connective tissue).
2- A parenchyma consists of lobules,
3- Lobules separated by septa (C.T.).
4- Lobules composed of acini (secretory unit) +
ducts (duct system).
5- Secretory unit composed of cells.
6- Ducts composed of cells connected to acini.
Dr.Hana Abusaida, Histology
Department, Sabha University
 Structure of major
Salivary glands:
Two major kinds of secretory unit cells
1- Serous cells
Watery secretions.
pyramidal in shape, with broad base and a
narrow apical surface.
Round central nucleus.
Well-stained RER.
Basophilic cytoplasm.
Junctional complexes.
Cells forming an acinus (rounded secretory
unit) with a very small lumen.
Apical zymogen granules.
produce digestive enzymes and other proteins.
Ex, Parotid gland & Pancrease.
Dr.Hana Abusaida, Histology
Department, Sabha University
 Two major kinds of secretory unit
cells

2- Mucous cells
Mucus-secreting cells.
More columnar in shape.
With flat, basal nuclei.
Apical granules with hydrophilic
mucins (cause poor cell staining).
Wider lumen.
Organized as acini or tubules.

Dr.Hana Abusaida, Histology
Department, Sabha University
 Dr.Hana Abusaida, Histology
Department, Sabha University
 Submandibular
gland ( Mixed
gland )

Dr.Hana Abusaida, Histology
Department, Sabha University
 Myoepithelial cells

Found inside the basal
lamina of the secretory units.
Well developed and branched
Sometimes called basket
cells).
Spindle-shaped, lie parallel
to the duct's length.
Their contraction accelerates
secretion of the product.

Dr.Hana Abusaida, Histology
Department, Sabha University
 Intralobular duct system of
salivary glands
Secretory acini and tubules empty into:
1- Intercalated ducts
The smallest branches with small diameter.
Lined by small cuboidal epithlial cells.
Nucleus in the center.
Some times secretory granules, few microvilli
Myoepithelial cells are present
2- Striated ducts
lined by columnar cells.
Are cells specialized for ion transport
pink striations in the basal half of the columnar
cells.
The striations produced by mitochondria in the
folds of the cell membrane.
Dr.Hana Abusaida, Histology
Department, Sabha University
 Intralobular duct system
3- Excretory Duct
Increasing size and thicker C.T.
Unusual, combining various epithelial types:
Initially lined with pseudostratified or stratified
cuboidal epithelium.
more distal parts lined with stratified columnar
epithelium.
Reflects many diverse functions: cells for ion
reabsorption, cells for secretion of mucin and
other proteins, enteroendocrine cells, and basal
stem cells, few goblet cells.
4- The main Excretory duct
lined with nonkeratinized-stratified squamous
epithelium.

Dr.Hana Abusaida, Histology
Department, Sabha University
 Intralobular duct system of
salivary glands

Dr.Hana Abusaida, Histology
Department, Sabha University
 Types of major salivary glands

1- Parotid gland
located in each cheek near the ear.
branched acinar gland.
the cells are purly serous with very
small lumens.
Cells secerte amylase which responsible
for the hydrolysis of ingested
carbohydrates.
and proline-rich proteins have
antimicrobial properties.

Dr.Hana Abusaida, Histology
Department, Sabha University
 2- Submandibular gland
(mixed gland)

Branched tubuloacinar gland.
The largest salivary glands, produce two-
thirds of all saliva.
Secretory portions containing
both mucous and mainly serous cells.
About 10% of mucous cells capped with
serous cells called serous demilunes.
Infoldings of the serous cells membrane
increase the ion-transporting surface area.
Secrete amylase, proline-rich proteins and
lysozyme (bacteria hydrolysis).

Dr.Hana Abusaida, Histology
Department, Sabha University
2- Submandibular gland (mixed gland)

Dr.Hana Abusaida, Histology
Department, Sabha University
 3- Sublingual gland
(mixed gland)

The smallest major glands
Branched tubuloacinar gland.
Formed of serous and mainly
mucous cells.
Serous cells demilunes on
mucous tubules.
The major product is mucus.
Cells of serous demilunes
secrete amylase and lysozyme.

Dr.Hana Abusaida, Histology
Department, Sabha University
 Thank you

END OF LECTURE 1

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 ORGANS ASSOCIATED
WITH THE DIGESTIVE
TRACT

Lecture
2
 Pancreas
Dr. Hana Abusaida

Department of Histology
Faculty of Medicine,
Sabha University
2024
 The Pancreas
Characters The main parts of the pancreas
Is behind the stomach in the upper 1. Head is C-shaped curve of
left abdomen. duodenum.
It is spongy, pear shape. 2. Tail extends left to touch spleen.
25 cm long, 5 cm wide, and 1 to 2 cm 3. Body is the middle part.
thick, weighs approximately 150 g 4. Main pancreatic duct runs the length
of the pancreas, joins bile duct.

Dr.Hana Abusaida, Histology Department,
Sabha University
 The pancreas
Is a mixed exocrine-endocrine gland
that produces both digestive enzymes
and hormones.
(95%)of pancreas are exocrine tissue
that produces pancreatic enzymes
for digestion.

The remaining tissue consists of
endocrine cells called islets of
Langerhans to produce hormones
(insulin and glucagon) that regulate
blood sugar, carbohydrate
metabolism and regulate pancreatic
secretions.
Dr.Hana Abusaida, Histology Department,
Sabha University
The pancreas: digestive
enzymes
These enzymes include:
Proteases ( Trypsin and chymotrypsin), break down
proteins, and help keep the intestine free of parasites.
Amylase breaks down carbohydrates (starch) into sugars
which are more easily absorbed by the body, (is also found
in saliva).
Lipase break down fat molecules so they can be easily
absorbed.
Enzymes are produced as inactivate molecules , or
zymogens , to prevent the risk of self digestion within the
pancreas.
Enzymes go to duodenum, where activated.

Dr.Hana Abusaida, Histology Department, Sabha
University
Histological structure of pancreas

Stroma
Capsule of C.T.
Septa separating
pancreatic lobules.
Parenchyma
pancreatic lobules
Pancreatic islets (I)
Pancreatic acini (A)
Pancreatic ducts (D)
Capillary network (V).

Dr.Hana Abusaida, Histology Department, Sabha
University
 Pancreatic exocrine part: Pancreatic acini

Pancreatic acini characters
 Consists of serous cells
 With very small lumen,
 Without myoepithelial cells
The serous acinar cells:
 Are typical protein-secreting cells
 with round basal nucleus
 well developed RER, Golgi
 basophilic cytoplasm
 presence of zymogen granule (contains proenzymes,
inactive precursor of an enzyme). at apex of the cell
whose number decrease after a meal.
Dr.Hana Abusaida, Histology Department, Sabha
University
 Pancreas: Duct system

1) Intercalated ducts
Connected with the acini
Lined by simple squamous epithelium.
penetrate the lumens of the acini forming
larger Centroacinar cell of simple columnar
epithelium, which are small pale-staining
cells.
Cells of the intercalated ducts secrete a large
volume of fluid, rich in HCO3 (bicarbonate
ions), which alkalinizes and transports
enzymes produced in the acini.

Dr.Hana Abusaida, Histology
Department, Sabha University
Pancreas: Duct system

2) Intralobular ducts, is similar to
the intercalated duct of salivary
glands, lined by simple cuboidal
epithelium.
3) Interlobular ducts, lined by simple
columnar epithelia
4) Main pancreatic duct (duct of
Wirsung), branches to accessory
pancreatic duct (duct of santorini),
which joins the common bile duct
before opening in the duodenum at the
ampulla of Vater.
 Secretions into the duodenum are
controlled by a muscular valve (the
sphincter of Oddi). It surrounds
the ampulla of Vater.
Dr.Hana Abusaida, Histology
Department, Sabha University
 Compare of the pancreas & parotid
salivary gland.
Pancreas Parotid salivary
gland
Capsule & Septa of Present Present
C.T.
Lobules Present Present
Secretory portion Serous acini Serous acini
Intercalated ducts Simple squamous Simple cuboidal epith.
epith.
Acini Present Present
Islets Present Absent
Myoepithelial cells Absent Present
Striated duct Absent Present
Centroacinar cells Present Absent
Dr.Hana Abusaida, Histology
Department, Sabha University
 Pancreatic secretions
control
Pancreatic acini secretion is controlled by hormone cholecystokinin
(CCK) produced by enteroendocrine cells of the intestinal mucosa
when chyme enters the duodenum.
CCK promotes the exocytosis of enzymes from the pancreatic acini.
Intercalated duct secretion (Bi-carbonate secretion) is Stimulated by
the hormone secretin produced by enteroendocrine cells of the
intestinal mucosa.
CCK is called pancreozymin.

Innervation of Pancreas
Parasympathetic (vagus) nerve stimulate both exocrine and endocrine
secretions.
Sympathetic nerve inhibit secretions.

Dr.Hana Abusaida, Histology
Department, Sabha University
 Pancreatic endocrine function
(Production of Pancreatic
Hormones)
* Islets of Langerhans “islet cells”
are the hormone secreting cells.
Hormones secreted by 3 types of
cells:

Dr.Hana Abusaida, Histology
Department, Sabha University
 Medical application
Acute pancreatitis, a sudden inflammation of
pancreas that lasts for a short time, happens when the
digestive proenzymes are activated before they are
released into the small intestine and begin digest pancreatic
tissues, leading to very serious complications.
Causes include: infection, gallstones, alcoholism,
drugs, and trauma.
Most people recover completely after getting the right
treatment.
Severe pancreatitis can harm other vital organs such as
the heart, lungs, and kidneys.
Symptoms: severe abdominal pain which radiate to the
back and cause nausea, vomiting and diarrhea.
Chronic pancreatitis, is long-lasting
inflammation of the pancreas. can produce progressive
Dr.Hana Abusaida, Histology Department, Sabha
fibrosis and loss of pancreatic function.
University
 Thank you

END OF LECTURE 2

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