The document describes the structure and function of the digestive system. It details each part of the gastrointestinal tract from the mouth to the anus. It discusses the layers of the gut wall and the histology of the different regions. It also describes the accessory organs that contribute to digestion like the liver, pancreas and salivary glands. The key processes of the digestive system like ingestion, secretion, digestion and absorption are also outlined.
The digestive system includes the organs of the alimentary canal and accessory structures. The alimentary canal forms a continuous tube that is open to the outside environment at both ends. The organs of the alimentary canal are the mouth, pharynx, esophagus, stomach, small intestine, and large intestine.
Digestion is the breakdown of large insoluble food molecules into small water-soluble food molecules so that they can be absorbed into the watery blood plasma. In certain organisms, these smaller substances are absorbed through the small intestine into the blood stream.
Glands, Types, classification and functions(Anatomy Topic)Swatilekha Das
Anatomy Topic for B.Sc & GNM nursing students- easy explanation.
what is gland? what are the types of glands? classification of glands according to structure,and according to function. functions of exocrine and endocrine glands.
Skeletal system. anatomy and physiology of skeletal system. appendicular skel...mamtabisht10
SKELETAL SYSTEM
bones, cartilage and ligaments are tightly joined to form a strong, flexible framework called skeletal system
anatomy and physiology of axial and appendicular skeletal system
Axial Skeleton: The axial skeleton includes the skull, spine, ribs and sternum.
Appendicular Skeleton:
The appendicular skeleton includes the appendages of the body, which are the shoulders, arms, hips, and legs.
The digestive system includes the organs of the alimentary canal and accessory structures. The alimentary canal forms a continuous tube that is open to the outside environment at both ends. The organs of the alimentary canal are the mouth, pharynx, esophagus, stomach, small intestine, and large intestine.
Digestion is the breakdown of large insoluble food molecules into small water-soluble food molecules so that they can be absorbed into the watery blood plasma. In certain organisms, these smaller substances are absorbed through the small intestine into the blood stream.
Glands, Types, classification and functions(Anatomy Topic)Swatilekha Das
Anatomy Topic for B.Sc & GNM nursing students- easy explanation.
what is gland? what are the types of glands? classification of glands according to structure,and according to function. functions of exocrine and endocrine glands.
Skeletal system. anatomy and physiology of skeletal system. appendicular skel...mamtabisht10
SKELETAL SYSTEM
bones, cartilage and ligaments are tightly joined to form a strong, flexible framework called skeletal system
anatomy and physiology of axial and appendicular skeletal system
Axial Skeleton: The axial skeleton includes the skull, spine, ribs and sternum.
Appendicular Skeleton:
The appendicular skeleton includes the appendages of the body, which are the shoulders, arms, hips, and legs.
Human digestive system structure and function
overview
Major organs
Mouth
Esophagus
Stomach
small intestine
large intestine
Acessory organs:
Liver
gall bladder
Pancreas.
Human digestive system
Major organs
Mouth
Esophagus
Stomach
small intestine
large intestine.
Acessory organs:
Liver
Gall bladder
Pancreas.
MAJOR ORGANSThe Mouth
pH: 7
The first part of the digestive system
the entry point of food.
Structures in the mouth that aids digestion
Teeth – cut, tear, crush and grind food.
Salivary glands – produce and secrete saliva into the oral cavity.
saliva
moistens the food
contains enzymes (ptyalin or salivary amylase)
begins digestion of starch into smaller polysaccharides.
Function:
Mechanical digestion.
increasing surface area for faster chemical digestion.
The Esophagus
a tube connecting the mouth to the stomach
running through the Thoracic cavity.
Location:
lies behind windpipe (Trachea).
The trachea has as an epiglottis
preventing food from entering the windpipe,
moving the food to the esophagus while swallowing.
Food travels down the esophagus, through a series of involuntary rhythmic contractions (wave-like) called peristalsis.
Function:
The lining of the esophagus secretes mucus
lubricating
to support the movement of food.
Esophageal sphincter:
bolus reaches the stomach
must pass through a muscular ringed valve called the esophageal sphincter (Cardiac Sphincter).
Function:
prevent stomach acids from back flowing into the esophagus.
Stomach
J-shaped muscular sac
Has inner folds (rugae)
Increasing surface area of the stomach.
Function:
Stomach performs mechanical digestion
HOW By churning the bolus and mixing it with the gastric juices
secreted by the lining of the stomach.
GASTRIC JUICES HCl, salts, enzymes, water and mucus)
HCL helps break down of food and kills bacteria that came along with the food.
The bolus is now called Chyme.
Enzymes in stomach:
Acidic environment
HCl secreation
kill any microbes that are found in the bolus,
creating a pH of 2.
Mucus prevents the stomach from digesting itself.
Pepsin secreation
responsible for initiating the breakdown of proteins (in )food.
hydrolyzes proteins to yield polypeptides.
pH is 2, the enzyme from the salivary glands stops breaking down carbohydrates.
Pyloric sphincter:
chyme moves from the stomach to the small intestine.
It passes through a muscular ringed sphincter called the pyloric sphincter.
stomach does not digest itselfWhy ?
Protective Mechanism:
three protective mechanisms.
First the stomach only secretes small amounts of gastric juices until food is present.
Second the secretion of mucus coats the lining of the stomach protecting it from the gastric juices.
The third mechanism is the digestive enzyme pepsin is secreted in an inactive protein c
The human skeleton is the internal framework of the human body. It is composed of around 270 bones at birth – this total decreases to around 206 bones by adulthood after some bones get fused together. The bone mass in the skeleton makes up about 14% of the total body weight and reaches maximum density around age 21
A joint is a point where two bones make contact. Joints can be classified either histologically on the dominant type of connective tissue functionally based on the amount of movement permitted. Histologically the three joints in the body are fibrous, cartilaginous, and synovial.
Human digestive system structure and function
overview
Major organs
Mouth
Esophagus
Stomach
small intestine
large intestine
Acessory organs:
Liver
gall bladder
Pancreas.
Human digestive system
Major organs
Mouth
Esophagus
Stomach
small intestine
large intestine.
Acessory organs:
Liver
Gall bladder
Pancreas.
MAJOR ORGANSThe Mouth
pH: 7
The first part of the digestive system
the entry point of food.
Structures in the mouth that aids digestion
Teeth – cut, tear, crush and grind food.
Salivary glands – produce and secrete saliva into the oral cavity.
saliva
moistens the food
contains enzymes (ptyalin or salivary amylase)
begins digestion of starch into smaller polysaccharides.
Function:
Mechanical digestion.
increasing surface area for faster chemical digestion.
The Esophagus
a tube connecting the mouth to the stomach
running through the Thoracic cavity.
Location:
lies behind windpipe (Trachea).
The trachea has as an epiglottis
preventing food from entering the windpipe,
moving the food to the esophagus while swallowing.
Food travels down the esophagus, through a series of involuntary rhythmic contractions (wave-like) called peristalsis.
Function:
The lining of the esophagus secretes mucus
lubricating
to support the movement of food.
Esophageal sphincter:
bolus reaches the stomach
must pass through a muscular ringed valve called the esophageal sphincter (Cardiac Sphincter).
Function:
prevent stomach acids from back flowing into the esophagus.
Stomach
J-shaped muscular sac
Has inner folds (rugae)
Increasing surface area of the stomach.
Function:
Stomach performs mechanical digestion
HOW By churning the bolus and mixing it with the gastric juices
secreted by the lining of the stomach.
GASTRIC JUICES HCl, salts, enzymes, water and mucus)
HCL helps break down of food and kills bacteria that came along with the food.
The bolus is now called Chyme.
Enzymes in stomach:
Acidic environment
HCl secreation
kill any microbes that are found in the bolus,
creating a pH of 2.
Mucus prevents the stomach from digesting itself.
Pepsin secreation
responsible for initiating the breakdown of proteins (in )food.
hydrolyzes proteins to yield polypeptides.
pH is 2, the enzyme from the salivary glands stops breaking down carbohydrates.
Pyloric sphincter:
chyme moves from the stomach to the small intestine.
It passes through a muscular ringed sphincter called the pyloric sphincter.
stomach does not digest itselfWhy ?
Protective Mechanism:
three protective mechanisms.
First the stomach only secretes small amounts of gastric juices until food is present.
Second the secretion of mucus coats the lining of the stomach protecting it from the gastric juices.
The third mechanism is the digestive enzyme pepsin is secreted in an inactive protein c
The human skeleton is the internal framework of the human body. It is composed of around 270 bones at birth – this total decreases to around 206 bones by adulthood after some bones get fused together. The bone mass in the skeleton makes up about 14% of the total body weight and reaches maximum density around age 21
A joint is a point where two bones make contact. Joints can be classified either histologically on the dominant type of connective tissue functionally based on the amount of movement permitted. Histologically the three joints in the body are fibrous, cartilaginous, and synovial.
2. DIGESTION • The process of conversion of complex food substances to simple absorbable forms is called digestion. • Digestion is carried out by our digestive system by mechanical and biochemical methods.
3. PHASES OF DIGESTION • The activities of the digestive system can be grouped under five main headings. • Ingestion :-This is the taking of food into the alimentary tract, i.e. eating and drinking. • Propulsion :-This mixes and moves the contents along the alimentary tract. • Digestion :-This consists of: • Mechanical breakdown of food by mastication(chewing). • Chemical digestion of food into small molecules by enzymes present in secretions produced by glands and accessory organs of the digestive system
GI System by Rupam Bhowmik.pptx help full for NORCET EXAMRupam Bhowmik
digestive system,human digestive system,system,gastrointestinal system,digestive system of human body,gastrointestinal system nursing,digestive system anatomy,digestive system anatomy and physiology,digestive system animation,gi,digestive system for kids,human systems,medical surgical nursing gastrointestinal system,gi tract,the digestive system,digestive system in english,digestive system model,enteric nervous system,digestive system intro
This my original work on Anatomy of digestive system, therefore it is strongly forbidden to copy, share and foreword without the permission of the authors to the third person or anybody else.
1st Semester Anatomy - Digestive System - GIT - By thirumurugan.pptxthiru murugan
Digestive System:
Also known as gastrointestinal tract, digestive tract, digestional tract, GI tract, GIT, gut, or alimentary canal.
Consist of alimentary tract and Accessory organs
It involve in Ingestion, Digestion, Absorption and Excretion
It is started from mouth and ended at anal canal, that is assisted and supported by many parts.
Parts of Digestive System: Primary digestive organs & Accessory organs
Primary digestive organs: Mouth, Pharynx, Esophagus, Stomach, Small Intestine, Large Intestine, Rectum, Anal canal
Accessory organs: Teeth, Tongue, Salivary glands, Liver, Gallbladder, Pancreas.
Mouth
First part of GIT, Also known as oral or buccal cavity, It consist of muscles & bones
Tongue or Lingua:Voluntary muscular structure, Occupies floor of mouth
Superior surface consist of numerous papillae contains taste bud for the sense of taste. Attached inferiorly with hyoid bone, Highly mobile muscular part of GIT.
Teeth: Teeth are the hard and whitish substances present in the mouth Which is essential for chewing & speech. They fixed in socket of alveolar ridge in mandible & maxilla (Jaw). Diphyodont is a type of dentition in which two successive sets of teeth are developed during the lifetime. The first set of teeth is temporary or deciduous or milk and the other set is permanent teeth
Salivary glands: These are exocrine glands found in oral cavity that secrete complex fluid known as saliva
Types: Major & Minor salivary glands
Major salivary gland: Parotid, Submandibular & Sublingual
Minor salivary glands: There are 450 minor salivary glands present in oral cavity, lips, cheeks, palate and floor of the mouth
Pharynx: Wide, muscular tube situated behind the nose, mouth & larynx
Cavity of pharynx divided into nasopharynx, oropharynx and laryngopharynx.
Esophagus: The esophagus is a fibromuscular tube, approximately 25cm in length,
It transports food from the pharynx to the stomach.
Stomach: The stomach is a hollow organ in the GIT.
It is the “J” shaped dilated part, situated in the upper part of the abdomen.
Gross Anatomy of stomach: The stomach has four main anatomical divisions; the cardia, fundus, body and pylorus:
Cardia: surrounds the superior opening of the stomach. it consist cardiac sphincter
Fundus: the rounded, often gas filled portion superior to and left of the cardia.
Body: the large central portion inferior to the fundus.
Pylorus: This area connects the stomach to the duodenum. It is divided into the pyloric antrum, pyloric canal and pyloric sphincter.
Pancreas: The pancreas is a soft, finely lobulated, elongated dual (Exo Endocrine) gland.
Liver: It is the largest gland of the body. It involve metabolic activities
The liver is one of the vital organs of the body, responsible for chemical actions that the body needs to survive.
Small intestine: The intestine which is the longest part of the digestive tube is divided into small intestine and large intestine.
Large Intestine or Colon: It is a last part of the GIT
This topic gives the introduction and need of group of laws that were introduced in the profession of pharmacy-under subject -Pharmaceutical Jurisprudence
DECODING THE RISKS - ALCOHOL, TOBACCO & DRUGS.pdfDr Rachana Gujar
Introduction: Substance use education is crucial due to its prevalence and societal impact.
Alcohol Use: Immediate and long-term risks include impaired judgment, health issues, and social consequences.
Tobacco Use: Immediate effects include increased heart rate, while long-term risks encompass cancer and heart disease.
Drug Use: Risks vary depending on the drug type, including health and psychological implications.
Prevention Strategies: Education, healthy coping mechanisms, community support, and policies are vital in preventing substance use.
Harm Reduction Strategies: Safe use practices, medication-assisted treatment, and naloxone availability aim to reduce harm.
Seeking Help for Addiction: Recognizing signs, available treatments, support systems, and resources are essential for recovery.
Personal Stories: Real stories of recovery emphasize hope and resilience.
Interactive Q&A: Engage the audience and encourage discussion.
Conclusion: Recap key points and emphasize the importance of awareness, prevention, and seeking help.
Resources: Provide contact information and links for further support.
ALKAMAGIC PLAN 1350.pdf plan based of door to door delivery of alkaline water...rowala30
Alka magic plan 1350 -we deliver alkaline water at your door step and you can make handsome money by referral programme
we also help and provide systematic guideline to setup 1000 lph alkaline water plant
LGBTQ+ Adults: Unique Opportunities and Inclusive Approaches to CareVITASAuthor
This webinar helps clinicians understand the unique healthcare needs of the LGBTQ+ community, primarily in relation to end-of-life care. Topics include social and cultural background and challenges, healthcare disparities, advanced care planning, and strategies for reaching the community and improving quality of care.
Cold Sores: Causes, Treatments, and Prevention Strategies | The Lifesciences ...The Lifesciences Magazine
Cold Sores, medically known as herpes labialis, are caused by the herpes simplex virus (HSV). HSV-1 is primarily responsible for cold sores, although HSV-2 can also contribute in some cases.
Rate Controlled Drug Delivery Systems, Activation Modulated Drug Delivery Systems, Mechanically activated, pH activated, Enzyme activated, Osmotic activated Drug Delivery Systems, Feedback regulated Drug Delivery Systems systems are discussed here.
Chandrima Spa Ajman is one of the leading Massage Center in Ajman, which is open 24 hours exclusively for men. Being one of the most affordable Spa in Ajman, we offer Body to Body massage, Kerala Massage, Malayali Massage, Indian Massage, Pakistani Massage Russian massage, Thai massage, Swedish massage, Hot Stone Massage, Deep Tissue Massage, and many more. Indulge in the ultimate massage experience and book your appointment today. We are confident that you will leave our Massage spa feeling refreshed, rejuvenated, and ready to take on the world.
Visit : https://massagespaajman.com/
Call : 052 987 1315
The dimensions of healthcare quality refer to various attributes or aspects that define the standard of healthcare services. These dimensions are used to evaluate, measure, and improve the quality of care provided to patients. A comprehensive understanding of these dimensions ensures that healthcare systems can address various aspects of patient care effectively and holistically. Dimensions of Healthcare Quality and Performance of care include the following; Appropriateness, Availability, Competence, Continuity, Effectiveness, Efficiency, Efficacy, Prevention, Respect and Care, Safety as well as Timeliness.
CHAPTER 1 SEMESTER V PREVENTIVE-PEDIATRICS.pdfSachin Sharma
This content provides an overview of preventive pediatrics. It defines preventive pediatrics as preventing disease and promoting children's physical, mental, and social well-being to achieve positive health. It discusses antenatal, postnatal, and social preventive pediatrics. It also covers various child health programs like immunization, breastfeeding, ICDS, and the roles of organizations like WHO, UNICEF, and nurses in preventive pediatrics.
TEST BANK For Accounting Information Systems, 3rd Edition by Vernon Richardso...rightmanforbloodline
TEST BANK For Accounting Information Systems, 3rd Edition by Vernon Richardson, Verified Chapters 1 - 18, Complete Newest Version
TEST BANK For Accounting Information Systems, 3rd Edition by Vernon Richardson, Verified Chapters 1 - 18, Complete Newest Version
TEST BANK For Accounting Information Systems, 3rd Edition by Vernon Richardson, Verified Chapters 1 - 18, Complete Newest Version
Navigating Challenges: Mental Health, Legislation, and the Prison System in B...Guillermo Rivera
This conference will delve into the intricate intersections between mental health, legal frameworks, and the prison system in Bolivia. It aims to provide a comprehensive overview of the current challenges faced by mental health professionals working within the legislative and correctional landscapes. Topics of discussion will include the prevalence and impact of mental health issues among the incarcerated population, the effectiveness of existing mental health policies and legislation, and potential reforms to enhance the mental health support system within prisons.
5. • The GI tract (gastrointestinal tract)
The alimentary canal
– Mouth
– Pharynx
– Esophagus
– Stomach
– Small intestine
– Large intestine
– Anus
• The accessory digestive organs
Supply secretions contributing to the breakdown of food
– Teeth & tongue
– Salivary glands
– Gallbladder
– Liver
– Pancreas
05/15/19 5
6. Processes of Digestive system
1. Ingestion
2. Secretion
3. Mixing and propulsion (pushing forwards).
4. Mechanical and Chemical Digestion
5. Absorption
6. Elimination
7. • Ingestion
– Taking in food through the mouth
• Propulsion (movement of food)
– Swallowing
– Peristalsis – propulsion by alternate contraction &relaxation
• Mechanical digestion
– Chewing
– Churning(agitation/shaking) in stomach
– Mixing by segmentation
• Chemical digestion
– By secreted enzymes
• Absorption
– Transport of digested end products into blood and lymph
• Defecation
– Elimination of indigestible substances from body as feces
05/15/19 7
11. 1.Mucosa (Innermost)
05/15/19 11
1. Layer of epithelium (Innermost)
2. Layer of connective tissue
(Lamina propia)
3. Layer of smooth muscle
(Muscularis mucosae)
12. • Epithelium:
Mouth, pharynx, esophagus and anal canal :
Nonkeratinised squamous epth.(protective
functn)
Stomach and intestine: Columnar epithelium
(Secretory function)
Tight junctions firmly seal neighbouring simple
columnar (Restricts leakage between the cells)
Rate of renewal of GI tract epithelial cells is rapid.
Among epithelial cells are exocrine cells(secrete
mucus &fluid in the lumen) and endocrine
(secrete hormones)
05/15/19 12
13. • Lamina Propria:
Aerolar connective tissue, contains blood and
lymphatic vessels.
Supports epithelium and binds it to muscularis
mucosa
Also contains majority of cells of MALT(Mucosa
associated lymphatic tissue) Contains immune
system cells.
MALT is present all along GI tract, especially in
Tonsils, S.I, Appendix and L.I
05/15/19 13
14. • Muscularis Mucosae:
Thin layer of smooth muscle fibres. Mucous
membrane of stomach and small intestine has
many small folds (Digestion and Absorption)
Movement of muscularis mucosae ensures that
all absorptive cells are exposed to contents of
GI tract.
05/15/19 14
16. Submucosa is made up of Aerolar connective
tissue.
It binds mucosa to the muscularis.
It contains many blood vessels, glands and
lymphatic tissue.
It has presence of submucosal plexus (extensive
network of neurons)
05/15/19 16
17. 3. Muscularis
05/15/19 17
Two layers of smooth
muscle responsible for
peristalsis and
segmentation
• Inner circular layer
(circumferential)
– Squeezes
– In some places forms
sphincters (act as
valves)
• Outer longitudinal
layer: shortens gut
19. • Muscularis:
Muscularis of mouth, pharynx and superior and
middle part of esophagus contains skeletal
muscle. (voluntary swallowing)
Also forms external anal sphincter (permits
voluntary control of defecation)
Rest of tract, muscularis consists of smooth muscle
generally found in 2 sheets, inner sheet of
Circular fibres and outer longitudinal fibres.
Between the layers of muscularis is second plexus-
mysenteric plexus. (major nerve supply to the
gastrointestinal tract and controls GI tract motility
)
05/15/19 19
20. Serosa :
Outermost Layer
05/15/19 20
Portion of GI tract that
are suspended in
abdominopelvic cavity
have superficial layer
called serosa
Composed of areolar
connective tissue and
simple squamous
epithelium also called
visceral peritoneum
Esophagus lacks serosa,
instead single layer of
aerolar connective tissue
called adventitia forms
superficial layer of the
organ.
21. Peritoneum
• Largest Serous membrane of the body
• Layer of simple squamous epithelium with underlying
aerolar connective tissue.
• Peritoneum:
1. Parietal (lines the wall of abdominopelvic cavity)
2. Visceral (covers some organs in the cavity)
Space between parietal and visceral portion of peritoneum
is peritoneal cavity contains serous fluid.
Some organs lie on the posterior abdominal wall and are
covered by peritoneum only on their anterior surfaces.
Such organs are retro(behind)peritoneal (kidneys and
pancreas)05/15/19 21
24. Mouth: Oral or buccal Cavity
• Formed by Cheeks, hard palate and soft palate and
tongue.
• Cheeks: Form lateral walls of the oral cavity. Covered
externally by skin and internally by mucous membrane.
(nonkeratinised squa ep)
• Buccinator muscles and connective tissue between skin
and mucous membrane.
• Lips or labia are fleshy folds surrounding opening of the
mouth- orbicularis muscle.
• Inner surface of each lip is attached to corresponding
gum by midline fold of mucous membrane called labia
frenulum
05/15/19 24
25. Function:
During chewing, contraction of buccinator muscles in the
cheeks and orbicularis oris muscle in the lips helps keep
food between upper and lower teeth. Also assist in
speech.
Vestibule: of the oral cavity is space bounded externally
by cheeks and lips and internally by gums and teeth.
Fauces is opening between oral cavity and pharynx.
Hard Palate: Anterior portion of the roof of the mouth.
Formed by maxillae and palatine bones covered by
mucous membrane. Bony partition between oral and
nasal cavity.
05/15/19 25
26. Soft Palate: Posterior portion of the roof of the
mouth. Arch shaped muscular partition between
oropharynx and nasopharynx.
Hanging from the free border of soft palate is
conical muscular process called uvula.
Function: During swallowing, the soft palate and
uvula are drawn upward, closing off nasopharynx
and preventing swallowed food to enter the nasal
cavity.
Video
05/15/19 26
27. • Lateral to the base of uvula are 2 muscular
folds that run down lateral sides of soft palate.
1. Palatoglossal arch: Anterior, extends to the
side of base of tongue
2. Palatopharyngeal arch: Posterior, extends to
the side of pharynx
Palatine tonsils are situated between the arches.
05/15/19 27
29. Gland that secretes a secretion called as saliva
into oral cavity.
Function: 1.Keeps the mucous membranes of
mouth and pharynx moist
2. Cleanses mouth and teeth
3. Lubricates, dissolves and begins chemical
breakdown of food
05/15/19 29
30. • Salivary Gland lies beyond oral mucosa, drains
saliva into ducts and leads to oral cavity.
3 pairs of major salivary gland:
1.Parotid (near to ear) Inferior and anterior to ear
Each secrete saliva into oral cavity via parotid duct
that pierces Buccinator muscle to open into
vestibule opposite upper molar teeth.
2. Submandibular gland (Floor of mouth) Medial
and partly inferior to the body of mandible
Submandibular ducts run under mucosa on either
side of midline of the floor of mouth and enter
the oral cavity lateral to lingual frenulum
05/15/19 30
31. • Sublingual glands: (Beneath the tongue):
Superior to Submandibular glands. Sublingual duct
open into the floor of mouth in the oral cavity.
Structure of salivary glands:
Consists of several lobules made from acini ( the
functional unit of the exocrine pancreas)lined
with secretory cells. Secretions poured into
ductules, which join to form large ducts leading
into mouth.
Diagram
05/15/19 31
34. • Urea & Uric acid: helps to remove waste in saliva
• Mucus: Lubrication of food
• IGA: Prevents attachment of microbes, cannot
penetrate the epithelium
• Lysozyme: Kills bacteria
Salivation is controlled by Autonomic nervous
system
Parasympathetic stimulation promotes continuous
secretion of saliva
Sympathetic stimulation dominates during stress,
results in dryness of mouth
05/15/19 34
35. 05/15/19 35
Salivary glands (stops
saliva secretion)
Body is dehydrated
Dryness of mouth
Sensation of thirst
36. Tongue
• Skeletal muscle covered by mucous membrane
consists of intrinsic and extrinsic muscles.
• Extrinsic muscles: originates outside the
tongue and insert in the connective tissue of
tongue.
• Hypoglossus, genioglossus, styloglosssus
muscles
Function: Extrinsic muscles move tongue from
side to side and in and out to maneuver(careful
movemt) food for chewing , shape the food,
force food to the back of the mouth for
swallowing and hold the tongue in position.05/15/19 36
37. • Instrinsic Muscles: originates inside and insert
in connective tissue.
• These muscles alter the shape and size of the
tongue for speech and swallowing.
• Longitudnalis superior, Longitudnalis inferior,
transversus linguae and verticalis linguae
muscle
• Lingual frenulum: Fold of mucous membrane
in the midline of undersurface of the tongue.
Aids in limiting the movement of the tongue
posteriorly.
05/15/19 37
38. Tongue
• The upper surface and the lateral surface of
the tongue are covered with papillae,
projections of lamina propia covered with non
keratinised squamous epithelium.
• Papillae contains taste buds, contain receptors
for touch and also increases the friction
between tongue and food making it easier for
tongue to move food in the oral cavity.
• Lingual glands in the tongue secrete mucous
and serous fluid containing lingual lipase
05/15/19 38
39. Four varieties of papillae
05/15/19 39
1.Vallate: Inverted V
shaped. Towards the
base of the tongue.
Between 8-12
2.Fungiform: Situated at
the edges. More than
Vallate in number.
3. Filliform: Situated in
the anterior 2/3 rd of the
tongue. Smallest and
numerous
4. Foliate: small
trenches, lateral margins
41. Functions of the tongue
• Mastication(chewing)
• Deglutition (swallowing)
• Speech(ability to speak)
• Taste
05/15/19 41
42. TEETH
• Accessory digestive organ embedded in the
sockets of the alveolar ridges of the mandible
and maxillae.
• Alveolar processes covered by gingivae (gums)
which extend slightly into each socket.
• Each individual has 2 set of dentitions, the
temporary or deciduous teeth and the
permanent.
• At birth, both the sets are present in
immature form.
05/15/19 42
43. • There are 20 temporary teeth, 10 in each jaw.
• Dentition consisting of 32 teeth is usually
completed by 24th
year.
Structure of a tooth:
Shape of different teeth vary but the structure is
the same.
05/15/19 43
47. Structure of tooth consists of:
1. The Crown: Part which protrudes from the
gum
2.The Root: The part embedded in the bone
3. The neck: The slightly narrowed region where
the crown merges with the root
In the centre of the tooth is the pulp cavity
containing blood vessels, nerves and lymph
vessels.
Surrounding there is a hard ivory like substance
called dentine. Outside the dentine of the crown
is a thin layer of hard substance , the enamel05/15/19 .47
48. • The root of the tooth is covered with
substance resembling bone called cement
which fixes the tooth in the sockets
• Pulp cavity lies with in crown filled with pulp,
connective tissue containing blood vessels,
nerves and lymphatic vessels.
• Narrow extensions of pulp cavity called root
canals run through the root of the tooth.
• Each root canal has an opening at its base
(apical foramen) through which blood,
lymphatic vessels and nerves extended.
48
49. • Blood vessels bring nourishment and nerve
provide sensation, lymphatic offers
protection.
Function:
• Incisors and Canine : Cutting teeth
• Premolars and Molars: Broad surfaces,
grinding and chewing.
05/15/19 49
50. Pharynx
• Mouth Throat (Pharynx)
Composed of skeletal muscle and lined by
mucous membrane.
It is divided into 3 parts:
Nasopharynx: Functions only in respiration
Oropharynx Muscular contraction of
Laryngopharynx these areas help to propel
food into esophagus05/15/19 50
51. • Esophagus (eating gullet):- is a collapsible
muscular tube-
25 cms long and about 2cms in diameter and lies
in the median plane in the thorax in front of
the vertebral column behind trachea and the
heart
Continues with pharynx above and just below
diaphragm it forms the stomach
It passes between muscle fibres of the diaphragm
behind central tendon at the level of 10 th
thoracic vertebra
05/15/19 51
52. • Immediately, the esophagus has passed
through the diaphragm, it curves upwards
before opening into the stomach.
• This sharp angle is believed to be one of the
factors which prevents the regurgitation of
gastric contents into esophagus
• The upper and lower ends of esophagus are
closed by the sphincter muscles
• Upper sphincter prevents air passing into
esophagus during inspiration and aspiration of
esophageal contents
• Lower esophageal sphincter prevents reflux of
acid, gastric contents into esophagus05/15/19 52
53. Structure:
Four layers of tissue:
Outer Adventitia: Consists of elastic fibrous tissue.
Proximal third is lined by stratified squamous
epithelium. Distal third by columnar epithelium. The
middle third is lined by a mixture of the two.
Function of Pharynx and esophagus:
Formation of bolus
Food is masticated by teeth, moved around by tongue
and muscles of cheeks, mixed with saliva and formed
into soft mass for swallowing
05/15/19 53
54. Swallowing(Deglutition) occurs in 3 steps:
1.Mouth is closed and voluntary muscles of
tongue and cheeks push the bolus backward
into the pharynx
2.The muscles of pharynx are stimulated by a
reflex action initiated in the walls of
Oropharynx and coordinated in medulla and
lower pons in the brain stem. Contraction of
muscles propel the bolus down into the
esophagus. Soft palate rises up and closes off
the Nasopharynx, the tongue and pharyngeal
fold blocks the way back into mouth.
05/15/19 54
55. 3.Presence of bolus in pharynx stimulates a
wave of peristalsis which propels the bolus
through esophagus to the stomach.
Stomach:
J shaped enlargement of GI tract situated in the
epigastric, umbilical and left hypochondriac
region of the abdomen.
It serves as a mixing chamber and holding
reservoir .
Digestion of proteins and triglyceride starts and
the semisolid bolus is converted to a liquid
and certain substances are absorbed.
05/15/19 55
56. • Anatomy of stomach
Cardia: Surrounds the superior opening of the stomach
Fundus: Rounded portion superior to and to the left of
the Cardia
Body: Inferior to the Fundus is the large portion of
stomach
Pylorus: Region of stomach that connects to duodenum
05/15/19 56
57. • Pyloric Antrum: Connects to the body of
stomach
• Pyloric Canal: Leads to duodenum
When the stomach is empty, the mucosae lies in
large folds called rugae.(wrinkles)
Pylorus communicates with duodenum of small
intestine via smooth muscle sphincter called
pyloric sphincter
Concave medial border is lesser curvature
Convex lateral border is greater curvature
05/15/19 57
60. Histology of stomach
Four layers of tissue that comprises the basic
structure of GI are found in stomach with some
modifications
•Mucosa: Simple columnar cells
•Lamina Propria: Aerolar connective tissue
•Muscularis Mucosae: Smooth muscle
Muscle layer: Consists of 3 layers of smooth
muscle instead of 2 found in S.I, L.I, Esophagus.
Outer layer of longitudinal fibres
Middle layer of circular fibres
Inner layer of oblique fibres05/15/19 60
61. Circular muscle is strongest in the pyloric antrum
and sphincter.
Arrangement of muscles allows for churning
motion.
Epithelial cells extend down into lamina propria,
where they form columns of secretory glands
called gastric glands.
Secretions from gastric glands flow into each
gastric pits (gastric glands open into the bottom of
the narrow channel called gastric pits) and then
into the lumen of the stomach
05/15/19 61
62. Gastric glands contains 3 types of exocrine gland
cells:
•Mucous neck cells: Secrete mucus
•Chief cells: secrete Pepsinogen and gastric lipase
•Parietal cells: Secrete Hcl and intrinsic factor
needed for absorption of Vit B12
Secretion from mucus, chief and parietal cells
forms gastric juice. In addition gastric glands
include type of enteroendocrine cells (G cells)
which secrete hormone gastrin into blood stream.
05/15/19 62
63. • Gastrin: Stimulates parietal cells to secrete Hcl
and chief cells for Pepsinogen, contract lower
esophageal sphincter, relaxes pyloric sphincter
and increases stomach motility.
• Composition and function of gastric juice:-
Water: Liquefies food further after it is swallowed
Hcl: Acidifies food and inactivates salivary amylase
Kills ingested microbes, Activation of Pepsinogen
05/15/19 63
64. Pepsinogen: Digestion of proteins (Pepsin)
Intrinsic factor: Absorption of Vit B12
Mucus: Protection from
Mechanical injury by lubricating the contents of
the stomach.
Chemical injury: Barrier between the stomach
walls and juices.
Mucous cells of stomach absorb some water,
ions, short chain fatty acid as well as alcohol and
aspirin.
05/15/19 64
65. Mechanical and chemical digestion in stomach
05/15/19 65
Digestion
proceeds
Food enters
Stomach
Mixing waves pass
over every 15 to 25
secs
Peristalsis
Maceration of
food. Mixing with
secretions
Vigorous mixing
begins at body and
intensifies at pylorus
Pyloric
spincter is
almost closed
Food reaches
pyrolus
Most of the chyme
is forced back into
stomach where
mixing continues
Gastric emptying
Mixing wave forces and
moves food into duodenum
*Mixing
wave
periodically
force 3 ml
of chyme
into
duodenum
*
66. • Food remains in the Fundus for about an hour
without becoming mixed with gastric juice.
During this time, digestion with salivary amylase
continues.
• Churning activity mixes food with acidic gastric
juices inactivating salivary amylase and
activating lingual lipase which starts to digest
triglycerides into fatty acids and diglycerides.
• Within 2 – 4 hrs after eating , stomach empties
its contents into duodenum.
05/15/19 66
67. Secretion of HCl:
Parietal cells secrete H +
ions separately in
stomach lumen, the net effect is secretion of
Hcl
Proton pump powered H+
/K+
ATPases actively
transports H+
into lumen while bringing K+ ions
into the cell. At the same time, Cl-
and K+
ions
diffuse out into the lumen through Cl-
and K+
channels
Enzyme carbonic anhydrase (plentiful in parietal
cells) catalyze formation of carbonic acid from
H2O and CO2
05/15/19 67
68. • H2O + CO2
Carbonic acid dissociates and provides ready
source of H+ for proton pump but also
generates bicarbonate ions HCO3
-
Carbonic acid dissociates and provide ready
source of H+ for proton pump but also
generates bicarbonate ions (HCO3
-
)
HCO3
-
exits the parietal cells in exchange for Cl-
via
Cl-
/ HCO3
-
Antiporters in basolateral membrane
next to lamina propria.
HCO3
-
diffuses into nearby capillaries.
05/15/19 68
H2CO3 H+
+ HCO3
-
70. Function of Stomach:
1. Chemical Digestion: Pepsin converts protein to
polypeptides
2. Mechanical Breakdown:
Churning action: Gastric juice is added and contents are
liquefied.
3. Limited absorption of water, alcohol and some
drugs.
4. Non specific defense against microbes due to Hcl in
gastric juice
5. Production and secretion of intrinsic factor
6. Temporary storage, allowing time for digestive
enzyme to act.
05/15/19 70
71. Acessory Organs:
Not part of the path of food, but play a critical role.
Pancreas , Liver, gall bladder
05/15/19 71
72. Pancreas
Pancreas is a retroperitoneal gland 12-15 cms
long,2.5 cm thick lies posterior to greater
curvature of the stomach.
Pancreas consists of head, body and tail and is
usually connected to duodenum by 2 ducts.
Head is expanded portion of the organ. Superior
to and to the left of the head are central body
and tapering tail
Pancreas is both exocrine and endocrine gland
05/15/19 72
73. Exocrine Pancreas:
Consists of large number of lobules made up of
small alveoli, the walls of which consists of
secretory cells.
Each lobi is drained by a tiny duct and these
unite eventually to form pancreatic duct
which opens into duodenum.
05/15/19) 73
74. 05/15/19 74
There are two ducts; 1. Pancreatic duct (Wirsung duct) Joins
common bile duct to duodenum as common duct.
2. Accessory duct (Santorini) Joins pancreas to duodenum
superior to ( hepatopancreatic ampulla) common duct.
75. • Functions of Exocrine pancreas is to produce
pancreatic juice containing enzyme to digest
carbohydrates, proteins and fats.
Parasympathetic stimulation increases secretion
Sympathetic stimulation decreases secretion.
Endocrine Pancreas: Distributed throughout the
gland are the group of specialized cells called
pancreatic islets of Langerhans.
Islets have no ducts so hormones diffuse directly
into the blood.
Secrete insulin and Glucagon, somatostatin and
pancreatic polypeptide05/15/19 75
76. Histology of Pancreas:
Pancreas is made up of small
clusters(group/bunch) of glandular epithelial
cells.
About 99 % of clusters are called acini,
constitute the exocrine portion of the organ.
The cell within the acini secrete pancreatic
juice remaining 1% of clusters are called
pancreatic islets form the endocrine portion
of the pancreas.
05/15/19 76
77. Composition of Pancreatic juices:
Pancreas produces 1.2 L to 1.5 L of pancreatic
juice daily.
Consists of water, some salts, sodium bicarbonate
and several enzymes
Sodium bicarbonate gives pancreatic juice slightly
alkaline pH (7.1 – 8.2) that buffers acidic gastric
juices in the chyme, stops activation of pepsin
from the stomach and creates proper pH for
activation of enzymes in S.I
05/15/19 77
78. Enzymes:
1.Pancreatic amylase (Starch Digesting)
2.Trypsin (Protein digesting)
Chymotrypsin, Elastase, carboxypeptidase
3. Pancreatic lipase (Lipid digesting)
4. Ribonuclease and Deoxyribonuclease (Nucleic
acid digesting
Trypsin is secreted in inactive form-Trypsinogen.
Pancreatic acinar cells secrete a protein Trypsin
inhibitor which combines with Trypsin formed
accidently in the pancreas and block its
enzymatic activity.05/15/19 78
79. • In the lumen of small intestine, it encounters an
activating brush border enzyme (Brush border
enzymes are the digestive enzymes located in
the membrane of microvilli on intestinal
epithelial cells) called enterokinase which splits
off part of Trypsinogen molecule to form
Trypsin.
• In turn Trypsin acts on chymotrypsinogen,
procarboxy peptidases and Proelastases to
produce Chymotrypsin, carboxypeptidase and
Elastase respectively.
05/15/19 79
80. Liver:
Largest and heaviest gland in the body. It is
situated in upper part of abdominal cavity.
Its upper surface and anterior surfaces are
smooth and curved and fit the under surface of
the diaphragm. Its posterior surface is irregular
in outline.
Liver has four lobes:
1.Largest right lobe
2. Smaller left lobe
The other two, the caudate and quadrate lobes
are seen on the posterior surface05/15/19 80
82. Liver is enclosed in a thin inelastic capsule and
incompletely covered by a layer of peritoneum.
Peritoneum forms supporting ligaments
attaching liver to the inferior surface of the
diaphragm.
It is held in position partly by this ligament and
partly by the pressure of organs in the
abdominal cavity.
05/15/19 82
83. 1.Portal Fissure: is the posterior surface of the
liver where various structures enter and leave
the gland
2.Portal Vein: Carrying blood from stomach,
spleen, pancreas and small intestine and large
intestine
•Hepatic artery : carrying arterial blood
•Right and left hepatic ducts carrying bile from
liver to gall bladder.
05/15/19 83
86. Structure:
The lobe of the liver are made up of tiny functional units
called lobules.
Liver lobules are hexagonal in shape and are formed by
cubical shaped cells, the hepatocytes arranged in pair of
columns radiating from central vein.
Between 2 pairs of the column cells are sinusoids (A liver
sinusoid is a type of sinusoidal blood vessel (with
fenestrated, discontinuous endothelium) that serves as a
location for mixing of the oxygen-rich blood from the
hepatic artery and the nutrient-rich blood from the
portal vein) containing blood from tiny branches of the
portal vein and hepatic artery.
This arrangement allows arterial blood and portal venous
blood to mix and come in contact with the liver cells.
05/15/19 86
87. Amongst the cells lining the sinusoids are hepatic
macrophages(Kupffer cells) whose function is to
ingest and destroy worn out blood cell and any
foreign particles present in the blood flowing
through the liver.
Blood drains from the sinusoids into central vein.
These then join with the veins from the other
lobules forming larger veins which leave liver and
empty into inferior vena cava.
Bile Canliculi run between the columns of liver cells.
These canliculi join up to form larger bile canals
until eventually they form the right and left hepatic
ducts which drain bile from liver.05/15/19 87
88. Functions of liver:***
1. Carbohydrate metabolism: Liver has an
important role in maintaining plasma glucose
levels. After meal, when glucose level rises,
glucose is converted to glycogen for storage
under influence of insulin. Glucose levels falls,
hormone glucagon stimulates conversion of
glycogen into glucose again keeping glucose
levels in the normal range.
05/15/19 88
89. 2. Fat metabolism: Stored fat is converted into
fat, which can be used by the tissues to
provide energy, synthesizes cholesterol to bile
salts, synthesize lipoproteins, transports fatty
acids, TGs and cholesterol to and from body
cells.
3. Protein Metabolism:
Deamination of amino acids: Removes
nitrogenous portion of amino acids. Urea
formed is excreted in urine. Breakdown of
nucleic acid to form uric acid.
05/15/19 89
90. • Trasamination: Removes the nitrogenous
portion of amino acids and attaches it to other
carbohydrate molecule forming non essential
amino acids.
Synthesis of plasma and most blood clotting
factors from amino acids
4. Breakdown of erythrocytes and defense
against microbes carried out by the phagocytic
hepatic macrophages in sinusoids
5. Detoxification of drugs and noxious
substances e.g., Alcohol, Penicillin
05/15/19 90
91. 6. Processing of hormones: Insulin,
glucagon,aldosterone chemically alter/excrete
thyrohormone and steroid hormone.
7. Secretion of Bile: Hepatocytes secrete
constituent of bile (bile salt)
8. Storage of Glycogen, fat soluble vitamins A, D,
E, K, Iron, copper, some water soluble vitamins
9. Activation of Vit D: Skin, liver and kidney
synthesize active form of Vit D
05/15/19 91
92. • Composition of bile:-
500 ml of bile is secreted by liver daily.
Consists of water, mineral salts, mucus, bile
pigments mainly bilirubin, bile salts, cholesterol
Bile acids, cholic, chenodeoxycholic acid are
synthesized by hepatocytes from cholesterol
conjugated with either glycine or laurine and then
secreted into bile as Na+
and K+
salts
In small intestine , they emulsify fats aiding their
digestion.
In terminal ileum, most bile salts are reabsorbed and
return to liver in the portal vein.05/15/19 92
93. • The enterohepatic circulation ensures the large
amounts of bile salts enter small intestine daily
from relatively small bile acid pool.
• Bilirubin is one product of hemolysis of
erythrocytes by hepatic macrophages in liver
and by other macrophages in spleen and bone
marrow.
• Bilirubin is insoluble in water and is carried in
the blood bound to albumin.
• In hepatocytes, it is conjugated with Glucuronic
acid and becomes water soluble before
excretion in bile.
05/15/19 93
94. • Bacteria in the intestine change the form of
bilirubin excreted as stercobilin in faeces and
urobilinogen in urine.
• Jaundice is caused by excess blood bilirubin.
BILE DUCT:
Right and left hepatic ducts form common
hepatic duct by joining just outside the portal
fissure.
Hepatic duct passes downwards, where it joined
at an acute angle by cystic duct from gall
bladder05/15/19 94
95. • Cystic duct and hepatic duct merge forming
common bile duct which passes down wards
behind the head of pancreas.
Structure:
Walls of bile ducts: same layers as GI.
In the cystic duct, the mucous membrane lining is
arranged in irregular circular folds, which have
its effect of a spiral valve.
Bile passes cystic duct twice, once on the way in
gall bladder and again when it is expelled from
the gall bladder in the common bile duct and
then on to the duodenum.05/15/19 95
97. • Gall bladder is a pear shaped sac attached to
the posterior surface of the liver by
connective tissue. It has fundus or expanded
end, a body or main part and a neck which is
continuous with cystic duct.
• Structure:
Same layers as GI with some modifications.
Peritoneum covers only the inferior surface
Gall bladder is in contact with the right lobe of
the liver and is held in place by visceral
peritoneum of the liver
05/15/19 97
98. •Muscle layer: additional layer of oblique muscle
fibre
•Mucous membrane displays small rugae when
the bladder is empty that disappears when it is
distended with bile.
•Functions:
•Reservoir of bile
•Concentration of bile by upto10 or 15 folds, by
absorption of water through the walls of the
gall bladder
•Release of stored bile
05/15/19 98
99. • Muscle wall of gall bladder contracts, bile
passes through the bile duct to duodenum
• Contraction is stimulated by
Hormone cholecystokinin, secreted by
duodenum
Presence of fat and acid chyme in the
duodenum.
05/15/19 99
101. Small Intestine
Most digestion and absorption of nutrients
occurs in long tube called small intestine.
Its length alone provides a large surface area for
digestion and absorption and that area is further
increased by circular folds, Villi, microvilli.
It begins at the pyloric sphincter of the stomach,
coils through the central and the inferior part of
the abdominal cavity and eventually opens into
the large intestine.
05/15/19 101
102. Anatomy of Small Intestine:
Small intestine is divided into 3 regions:
Duodenum, the shortest region, It starts at
pyloric sphincter of stomach and extends until
it merges with jejunum
Jejunum: Abt 3 ft long and extends to ileum
Ileum: The final and longest region of the small
intestine, joins the large intestine at smooth
muscle sphincter
05/15/19 102
105. Histology of Small Intestine:
Walls of small intestine is composed of the same
four layers that make up most of GI tract
1.Mucosa: Composed of a layer of epithelium,
lamina Propia and muscularis mucosae
Epithelial layer: simple columnar cells containing
many cells:
1.Absorptive cells of epithelium digest and
absorb nutrients in the intestinal Chyme
2.Mucus secreting goblet cells are also present
in epithelium
05/15/19 105
106. 3. The SI mucosa, contains deep crevices lined
with glandular epithelium, cells lining the
crevices form intestinal glands (Crypts of
Liberkuhn) and secrete intestinal juices
4. Besides absorptive cells and goblet cells , the
intestinal glands also contain paneth cells and
endo endocrine cells.
Paneth cells secrete lysozyme, a bactericidal
and are capable of Phagocytosis.
05/15/19 106
107. Three types of enteroendocrine cells are found
in intestinal glands of the SI
S cells, CCK cells, K cells which secrete hormone
secretin, cholecystokinin or CCK and glucose
dependant insulin tropin peptide respectively
Lamina Propia of the small intestine mucosae
contains Aerolar connective tissue and has
abundance of MALT. Solitary lymphatic nodules
are most numerous in the distal part of the
ileum. Group of lymphatic nodules referred to
as aggregated lymphatic follicles(Peyers patch)
are also present in ileum
05/15/19 107
108. • Muscularis mucosae of SI consists of smooth
muscle
• Sub mucosa of duodenum contains duodenal
gland (Brunner's gland) which secrets alkaline
mucus that neutralizes acidic chyme
• Muscularis: Smooth muscles
Inner: circular, Outer: Longitudinal
Except for the major portion of duodenum, the
serosa (Visceral peritoneum ) completely
surrounds the SI
05/15/19 108
109. Structural features include circular folds, Villi and
microvilli
Circular Folds: Folds of mucosa and sub mucosa.
These enhance absorption by increasing the surface
area and causing the chyme for spiral rather than
move in straight line as it passes through the SI.
Villi: Villi are finger like projections of mucosa.
Larger number of villi vastly increases the surface area
of the epithelium available for absorption and
digestion. Each villus is covered by epithelium and has
a core of lamina propia embedded in connective
tissue of lamina
05/15/19 109
110. • Embedded in tissue of lamina propia are an
arterioles and venules and blood capillaries.
• Nutrients absorbed by the epithelial cells
covering the villus pass through the walls of the
capillaries to enter blood or lymph.
• Besides circular folds and villi, S I also have
microvilli, which are the projections of the
apical membrane of the absorptive cells when
viewed from the microscope. Microvilli are too
small to be seen individually instead they form
fuzzy line called brush border extending into
the lumen of SI
05/15/19 110
111. • Brush border structure has several digestive
functions
Intestinal juice and Brush Border enzyme:
1 -2 lits intestinal juice provide the medium that
aids in absorption of substance from the chyme
Several absorptive cells of intestine synthesize
digestive enzymes , dextrinase, Maltase,
Sucrase, Lactase.
2 types of nucleotide digesting enzymes,
nucleosidases and phosphatases
05/15/19 111
112. • Mechanical Digestion in SI:
2 types of movement of SI
1.Segmentation
2.Migrating motility Complexes (MMC)
05/15/19 112
113. Segmentation: Localized mixing contractions
that occurs in portions of intestine distended by
large volume of chyme.
Segmentation mixes chyme with the digestive
juices and brings the particles of food into
contact with the mucosa for absorption.
05/15/19 113
114. 05/15/19 114
Contraction of circular muscle fibres in
small portion of SI
Muscle fibre encircles the middle of
each segment contracts
Finally Muscle fibre that contracts first . Relaxes
Each small segment unites with the
adjoining small segments
Large segment is formed again
Sequence repeats, chyme slowly sloshes back
and forth
115. After most of the meal has been absorbed which
lessens the distension of the wall of SI,
segmentation stops and peristalsis begins
Type of peristalsis occurring in SI is MMC
Begins in the lower part of the stomach and
pushes chyme forward along a short starch of
intestine.
MMC slowly migrates down the SI reaching the
end of the ileum in 90 – 120 mins
Chyme remains in SI for 3 – 5 hrs
05/15/19 115
116. Chemical Digestion in SI:
Chyme entering the SI contains partially
digested carbohydrates, proteins and lipids.
Completion of the digestion of carbohydrates,
proteins and lipids is a collective effort of
pancreatic juice, bile and intestinal juice in SI
Digestion of Carbohydrates:
Few starches are broken down by the time
chyme leaves the stomach. Those which are
not broken are cleaved by pancreatic amylase.
05/15/19 116
117. • It acts on both glycogen and starch, has no effects
on polysaccharide called cellulose, an indigestible
plant fibre commonly referred as roughage. It
moves through the digestive system unaffected.
• Pancreatic amylase converts all the digestible
polysaccharide (starches) not acted by salivary
amylase to disaccharides.
• Starch smaller fragments Dextrin
Brush border enzymes digest disaccharides to
monosaccharides05/15/19
Amylase
Dextrinase
Removes
1 glucose
at a time
118. • Digestion of Protein:
Protein digestion starts in stomach, where it is
fragmented by the action of pepsin.
Pancreatic juices contains enzymes, Trypsin,
chymotrypsin, carboxypeptidase, Elastase
continues to breakdown proteins into
peptides (tripeptides, dipeptides and amino
acids)
Trypsin, Elastase, chymotrypsin cleave peptide
bond between amino acid and its neighbour
Carboxypeptidase splits off amino acids at
caroxyl end of a peptide05/15/19 118
119. • It is important that they are produced in
inactive form and are activated only upon
arrival in the duodenum, otherwise they would
digest pancreas.
• Digestion of Lipids:
Enzymes that split triglycerides and phospholipids
are called lipases. Some lipid digestion occur in
stomach, most occur in SI through activation of
pancreatic lipase.
Large lipid globules undergoes emulsification
before it is digested in SI. Emulsification causes
large lipid molecule to be broken down into
05/15/19 119
120. Several small globules formed provide large
surface area that allows pancreatic lipases to
function more effectively.
Digestion of nucleic acids:
Pancreatic juice contains 2 nucleases
Ribonuclease : Digests RNA
Deoxyribonucleases: Digests DNA
Nucleotides that result from the activation of 2
nucleases are further digested by brush border
enzymes called phosphatases and nucleosidases
into pentoses, phosphates and nitrogenous
bases.05/15/19 120
122. Absorption in SI:
Passage of digested nutrients from the GI tract
into blood or lymph is called absorption.
All chemical and mechanical phase of digestion
from mouth through the small intestine are
directed towards changing food into the form
that can pass through the absorptive
epithelial cells lining the mucosa and into the
underlying blood and lymphatic vessels.
05/15/19 122
123. Absorption:
All carbohydrates are absorbed as
monosaccharides
Starch Maltose, Maltotriose, Dextrin cleaved by
dextrinase.
After amylase action, brush border enzymes called
dextrinase acts on dextrins, clipping off one
glucose unit at a time.
Ingested molecules of Sucrose, lactose, maltose are
acted when they reach SI.
3 brush border enzymes digest disaccharides to
monosaccharides.
05/15/19
123
124. • Monosaccharides pass from the lumen through
the apical membrane via active transport
• Glucose and Galactose transported into the
absorptive cells of villi via secondary active
transport that is coupled to the active transport
of Na+.
• Transporter has binding site for one glucose
and 2 Na+ ions. Unless all 3 sites are filled,
neither substance is transported.
• Galactose competes with glucose to ride the
same transporter. As both Na+ and glucose
move in the same direction it is symporter.
05/15/19 124
125. Fructose is transported via facilitated diffusion.
Monosaccharides move out of the cells through
their basolateral surface via facilitated diffusion
(spontaneous passive transport)and enter the
capillaries of the villi.
Absorption of amino acids, Dipeptides and
Tripeptides:
Most proteins are absorbed as amino acids via
active transport occurs mainly in duodenum and
jejunum
Half of amino acids are present in food, the other
half comes from body itself as proteins in
05/15/19 125
126. Normally 95-98% of protein is digested and
absorbed in SI.
Some amino acids enter absorptive cells of villi via
Na+ dependant secondary active transport, other
amino acid actively transport by themselves.
One symporter brings in Dipeptides and
Tripeptides together with H+, peptides are then
hydrolyzed into single amino acids inside the
absorptive cells.
Amino acids move out of absorptive cells via
diffusion and enter capillaries of villi.
05/15/19 126
127. • Absorption of Lipids:
Dietary lipids are absorbed via simple diffusion.
Short chain fatty acids are hydrophobic but
small in size and therefore can dissolve in watery
intestinal chyme, pass through the absorptive
cells via simple diffusion and follow same route
as monosaccharides and amino acids into blood
capillary of a villus
05/15/19 127
128. • Long chain fatty acids and monoglycerides are
large hydrophobic and have difficulty in being
suspended in watery enviornment of intestinal
chyme.
• Bile salts in the intestinal chyme surround long
chain fatty acids and monoglycerides forming
tiny spheres called miscelles
• Miscelles move from the interior of SI lumen to
the brush border of absorptive cells. At that
point, long chain fatty acid and monoglycerides
diffuse into the absorptive cells, leaving the
miscelles behind in the chyme
05/15/19 128
129. • Miscelles also solubilises other hydrophobic
molecules such as fat soluble Vit A,D, E and K ,
cholesterol and aids in their absorption .
• Once inside absorptive cells, long chain fatty
acids and monoglycerides are recombined to
form triglyceride which aggregate into globules
along with phospholipids and cholesterol and
become coated with proteins. These spherical
masses are called chylomicrons. They leave
absorptive cells via exocytosis
05/15/19 129
130. • Chylomicrons are large, bulky and cannot
enter blood capillary wall instead they enter
lacteals which have larger pore size than blood
capillaries.
• From lacteals, chylomicrons are transported by
the way of lymphatic vessels to thoracic duct
and enter the blood at left subclavian vein.
• After absorption , half of the chylomicrons are
removed from the blood. As they pass through
blood capillaries in liver and adipose tissue
05/15/19 130
132. Enzymes lipoprotein lipase breakdown TG in
chylomicrons and other lipoprotein into fatty acid
and glycerol
Fatty acid diffuses hepatocytes and adipose cells
and combine with glycerol during resynthesis TGs
After emulsification and absorption of lipids, 90-
95% of bile salts are reabsorbed by SI and
returned by blood to the liver through hepatic
portal system.
This cycle of bile salts secretion by the
hepatocytes into bile and reabsorption and
resecretion into bile is enterohepatic circulation
05/15/19 132
133. Absorption of Electrolytes:
Na+ ions actively transport out of absorptive cells
via Na+ /K+ ATPase pumps
Negatively charged ions like bicarbonate ,
chloride, iodide passively follow Na+ ions.
Others like iron, K, Mg and phosphate are
transported via active transport mechanism.
Absorption of Vitamins: Fat soluble Vit A, D, E, K
are absorbed via simple diffusion.
Water soluble vitamins also by simple diffusion
Vit B12 Plus intrinsic factor absorbed in ileum by
active transport. 133
134. • Absorption of Water:
SI absorbs about 8.3 lts of fluid out of 9.3. lts
0.9L is absorbed in LI and 0.1l lost in feces.
Water absorption occurs via osmosis.
Absorbed electrolytes, monosaccharides, amino
acid establish conc. gradient that promotes
water absorption via osmosis.
05/15/19 134
136. Large Intestine
• Terminal portion of GI tract
• About 5 feet long and 6.5 cm in
diameter, extends from ileum to anus
• Rectum (short term storage which
holds feces before it is expelled).
• Overall function of large intestine are
completion of absorption, produce
certain vitamins, formation of feces
and expulsion of feces from the body.
132
137. Large Intestine
• Functions
– Bacterial digestion
• Ferment carbohydrates
• Protein breakdown
– Absorbs more water
– Secretion of Vitamin K
& Folic acid
138. Four main regions of large intestine are:
Cecum, colon, Rectum and Anal Canal
Opening from ileum into LI is guarded by fold of
mucous membrane called ileocecal sphincter,
allows material from SI to pass into LI.
Hanging inferior to the ileocecal valve is cecum,
a small pouch. Attached to cecum is twisted
coiled tube called appendix.
This open end of cecum merges with a long tube
called colon which is divided into ascending,
transverse, descending , sigmoidal portion.
05/15/19 138
139. • Rectum ,the last 20 cm of GI tract, lies anterior
to the sacrum.
• The terminal end of the rectum is called the
anal canal
• Mucous membrane of the anal canal is arranged
in longitudinal folds which have network of
arteries and vein .
• Opening of anal canal is arranged in longitudinal
folds which have network of arteries and veins
• Opening of anal canal to exterior is anus
guarded by internal anal sphincter (involuntary)
and external anal sphincter (voluntary)05/15/19 139
140. Histology of LI:
LI walls has 4 layers
Mucosa: Simple columnar, Lamina Propia: Aerolar
connective tissue, Muscularis mucosae: Smooth
muscle.
Epithelium contains mostly absorptive cells (water
absorption) and goblet cells (Mucus secretion)
Compared to SI, mucosa of LI does not have many
structural adaptations.
No circular folds or villi, however microvilli are
present on the absorptive cells
05/15/19 140
141. Muscularis consists of external layer of
longitudinal smooth muscle and internal layer of
circular smooth muscle.
Unlike other parts of GI, portions of longitudinal
muscles are thickened forming three bands
called tenae coli. Puckered (wrinkle)appearance
of LI is because of haustra.(Series of pouches)
Serosa is a part of visceral peritoneum filled with
fat are attached to tenae coli called fatty
appendages
05/15/19 141
142. Function of LI, Rectum and Anal Canal:
Absorption: Contents of ileum which passes
through ileocaecal valve into the caecum are
fluid, even though some water has been
absorbed in SI (osmosis)
Absorption continues in LI until semisolid
consistency of faeces is obtained.
Minerals, vitamin and some drugs are also
absorbed
05/15/19 142
143. • Microbial activity:
LI is heavily colonised by certain type of bacteria
which synthesize Vit K and folic acid.
They include E coli, enterobacter aerogans,
Streptococcus faecalis, Clostridium perfringens
They may become pathogenic if transferred to
another part of body.
Gases in the bowel consists of some constituents
of air, nitrogen, hydrogen, CO2 and methane
produced by bacterial fermentation of
unabsorbed nutrients especially carbohydrates.
Large number of microbes are present in faeces.05/15/19 143
144. Chemical Digestion in LI
Chyme carbohydrates
05/15/19 144
Bacterial
fermentation
Hydrogen, Co2
and Methane
gas (flatulence)
Remaining
Proteins
Hydrogen
sulphide
(odour to
faeces)
Amino acid
Indole,
Bilirubin
Hydrogen
sulphide
Bacteria
decomposes
Stercobilin
brown
colour to
faeces
Simpler
bilirubin
145. Mass Movement:
LI does not exhibit peristaltic movement as it is
seen in other parts of the digestive tracts.
At a fairly long interval a wave of strong
peristalsis sweep along the transverse colon
forcing its content into descending and
sigmoidal colon. This is mass movement.
Characteristic movement of LI is haustral
churning
Haustra is relaxed distended when it is filled
After certain point walls contract and squeeze
the content to next haustrum.05/15/19 145
146. • Defecation: Usually rectum is empty, mass
movement forces the content of sigmoid colon
into rectum, nerve endings in the walls are
stimulated (stretch receptors initiates
defecation reflex)
• Infant defecation occurs by reflex action.
Sometimes in the 2nd
or 3rd
year of life, the
ability to override(disallow) the defecation
reflex is developed i.e., brain can inhibit reflex
until such time it is convenient to defecate
• Receptor sensory NI sacral spinal cord
Motor NI colon, rectum, anus
05/15/19 146
147. Defecation involves involuntary contraction of
muscle of rectum and relaxation of internal anal
sphincter.
Contraction of abdominal muscle and lowering
of diaphragm increases intraabdominal pressure
and assists the process of defecation .
External anal sphincter is voluntarily controlled .
Whenever relaxed, defecation occurs
05/15/19 147
148. Phases of Digestion***:
Digestive activities occur in three overlapping
phases:
1.Cephalic Phase
2.Gastric Phase
3.Intestinal phase
05/15/19 148
149. Cephalic Phase:
• Smell, sight, thought or initial taste of food
activates neural centers in the cerebral cortex,
hypothalamus and brain stem.
• Brain stem activates facial(VII),
glossopharangeal (IX) and vagus nerves.
• Facial and glossopharangeal stimulates salivary
gland to secerte saliva and vagus stimulates
gastric glands to secerte gastric juices
05/15/19 149
150. Gastric Phase:
• Food reaches stomach, gastric phase begins.
• Neural and hormonal mechanisms regulate the
gastric phase of digestion to promote gastric
secretion and gastric motility.
Neural regulation:
Food distends the stomach which stimulates stretch
receptors in its walls
pH of the stomach Chyme is monitored by
chemoreceptors
Distended stomach and increased pH (proteins
entered the stomach and buffered some stomach150
151. • Strch receptors and chemoreceptors are activated and
a neural negative feedback is set.
• From stretch and chemoreceptors nerve impulses
propagate to submucosal plexus which stimulates
parasympathetic and enteric neurons causes waves
of peristalsis and stimulates flow of gastric juice from
the gastric gland.
• Peristalsis wave mixes the food with gastric juice.
• Strong waves undergoes gastric emptying into
duodenum
• pH of stomach Chyme and distension of stomach wall
lessens (Chyme passes into SI, suppressing the
secretion of gastric juices
05/15/19 151
152. Hormonal Regulation:
• Gastric secretion during gastric phase is
regulated by hormone gastrin.
• G cells of gastric gland release gastrin
Stimuli for gastrin release:
1.Distension of stomach by chyme
2.Partially digested proteins in the chyme
High pH of the chyme (Presence of food, caffeine
and Ach released by parasympathetic neurons)
05/15/19 152
153. Gastrin stimulates
1. gastric gland to secrete large amounts of
gastric juices
2. Strengthens the contraction of lower
esophageal sphincter (Prevents reflux)
3. Increases motility of stomach
4. Relaxes pyloric sphincter (Gastric emptying)
Gastrin is inhibited when the pH of gastric juice
drops below 2.0 and stimulated when pH rises
05/15/19 153
154. Intestinal Phase:
Begins when food enters into SI
Reflexes initiated during cephalic and gastric
phase, increases stomach secretion activity
and motility
Intestinal phase shows inhibitory effects i.e.
slows the exit of chyme from stomach
(Prevents duodenum from being overloaded)
05/15/19 154
155. • Neural Regulation:
Distension of duodenum causes enterogastric
reflex.
Stretch receptors in the duodenal wall send
nerve impulse to medulla oblongata to inhibit
parasympathetic stimulation and stimulates
the sympathetic nerves of the stomach.
Results in decreased gastric motility, increased
contraction of pyloric sphincter, decreased
gastric emptying
05/15/19 155
156. Hormonal Regulation:
Intestinal phase of digestion is mediated by two major
hormones secreted by SI: CCK & Secretin
1. CCK stimulates secretion of pancreatic juice rich in
digestive enzymes
2. Contraction of wall of gall bladder (bile out of gall
bladder into cystic duct)
3. Relaxation of sphincter of hepatopancreatic ampulla
which allows pancreatic juice and bile to flow into
duodenum
4. Slows gastric emptying by promoting contraction of
pyloric spincter
5. Enhances the effect of secretin
05/15/19 156
157. Acidic chyme entering duodenum stimulates the
release of Secretin from S cells:
1.Secretin stimulates the flow of pancreatic juice
rich in bicarbonate ions to buffer the acidic
chyme that enters the duodenum from
stomach
2.Inhibits secretion of gastric juice, promotes
normal growth and maintenance of the
pancreas and enhances the effect of CCK
3.Secretin causes buffering of acid in chyme that
reaches duodenum and slows production of
acid in stomach
05/15/19 157
Absorption of Alcohol:
The intoxicating and incaapacitating effect of alcohol depends on blood alcohol level.
Alcohol absorption begins in stomach. However the surface area in SI is greater than stomach, so when alcohol passes duodenum it is absorbed rapidly.
The longer alcohol is in stomach blood alcohol level rises slowly.
Enzyme Alcohol dehydrogenase present in gastric mucosa, breaks down alcohol to acetaldehyde.
Alcohol dehydrogenase activity is lower females than males.
Also Asian males have lower level of this enzyme
Depending on the maturity of the group, you can talk about the feces leaving via the anus.
Mention the appendix at the bottom of the ascending colon and that it might have been used long ago but is not today
Mention the portions of the large intestine, ascending, transverse, descending, sigmoid, and rectum (last one if the audience is mature enough)