1.2 Physiology of the GIT.pptx.pdf

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Physiology of the Digestive System

Human Anatomy and Physiology II HUAP220
Objectives

Define gastrointestinal tract and list its main functions

Identify the nerve supply of the GIT and display the control mechanisms of GIT functions

Describe each organ in GIT tract and mention its function
Objectives
Interpret the causes of some common GIT disorders.

Classify GIT hormones according to its location and function.

Differentiate between different digestive enzymes.

Human Anatomy and Physiology II HUAP220
Gastrointestinal Tract (GIT)
*A long muscular tube of series of complex organs
and glands, starting with the mouth ending with the
anus, working together to digest food. (composed of
alimentary canal and accessory organs)

Main Functions of The GIT
Breaking down the food into its basic forms
(mechanically and chemically) to prepare it for the
body use (Digestion)
Absorption of digestive products
Secretion of digestive juices
Excretion of waste products
Human Anatomy and Physiology II HUAP220
Nerve supply of the GIT
1) Intrinsic innervation (Enteric Nervous System)
2) Extrinsic innervation (Autonomic Nervous System)
Anfaintic
Intrinsic innervation (Enteric Nervous System)
*There are two major networks of nerve (Nerve plexuses) in the wall of GIT.
*Meissner's or submucosal nerve plexus regulates the exocrine and
endocrine secretion of submucosal glands (Secretory function)
*Auerbach's or myenteric nerve plexus regulates the peristaltic activity of
the muscle layer (Motor function)

Extrinsic innervation (Autonomic Nervous System)
a) Parasympathetic innervation through vagus nerve and pelvic nerve
Parasympathetic nerves are almost excitatory to the GIT (stimulate secretion
and motility of GIT)
a) Sympathetic innervation through T5 to L2
Sympathetic nerves are almost inhibitory to the GIT ( (inhibit secretion and
motility of GIT)
Human Anatomy and Physiology II HUAP220
Control of the GIT Functions
Control of the GIT functions
a) Nervous control
1) Local enteric reflexes, they pass to nerve plexus of the enteric nervous system
2) Ganglion reflexes, they pass to prevertebral ganglia
Surfaces
3) Central reflexes, they pass to the CNS

& Borders
b) Hormonal control through GIT hormones
GIT hormones are classified into now 4M

my
1) Gastrin family: includes gastrin and cholecystokinin (CCK)
2) Secretin family: includes secretin, glucagon, Vasoactive intestinal peptide (VIP), gastric
inhibitory peptide (GIP) smallintestaen
3) Others: includes motilin, somatostatin, neurotensin

Human Anatomy and Physiology II HUAP220
Mouth (Oral Cavity)
Mastication (Chewing) is rhythmic opening and closure of the mouth
Functions of mastication:
1. It is essential for digestion of food by breaking large particles into small ones
2. It helps deglutition (swallowing)
3. It stimulates salivary secretion
Surfaces
4. It stimulates taste buds that help in taste sensation

& Borders
Salivary glands
There are 3 pairs of glands in the human being:
1) Parotid glands form 25% of saliva
2) Sublingual glands form 5% of saliva
3) Submandibular glands form 70% of saliva

Human Anatomy and Physiology II
i Ñ HUAP220
Composition & Functions of Saliva
Composition of saliva:
1) Water: represents about 99.5% of salivary secretion
2) Solids: represents 0.5% of salivary secretion, which are subdivided into organic and inorganic
a) The organic components are mainly mucin, ptyalin (salivary amylase), lysosomes and IgA.
b) The inorganic components are mainly less Na, more K, Less Cl & more HCO3 compared to plasma.

Functions of Saliva: FIFE
1. Articulation: It facilities speech through lubrication of the tongue and the buccal mucosa
2. Buffering: it maintains the pH at 7 of the mouth cavity constant by the buffers. At this pH the saliva is
saturated with calcium, so teeth don’t lose calcium in oral cavity.
3. Cleaning: it mechanically clears and cleans the mouth cavity.
4. Digestion: it facilitates the digestion of CHO through salivary amylase enzyme (hydrolysis of starch
into maltose and dextrin)
5. Excretion: it is a route of excretion of heavy metals as arsenic
me
6. Facilitation of deglutition: it lubricates the food bolus making it easier to be swallowed.
7. H2O regulator: it is decreased on dehydration
Human Anatomy and Physiology II HUAP220
Oral Cavity Diseases
Salivary Gland diseases
Mumps: inflammation of the salivary glands
The Mumps virus
Tumors: Salivary adenoma and Carcinoma
adenoma
Pharyngeal Diseases carcehond
Tonsillitis: inflammation of the tonsils
Viruses and Streptococcus pyogenes
Pharyngitis: pharynx infection
Respiratory tract infection
Tonsils
Diphtheria: pharynx infection
Bacteria (Corynebacterium diphthriae)
Thick covering in the back of the throat
Human Anatomy and Physiology II HUAP220
Pharynx
Food passes from the oral cavity to the
pharynx (throat)
101
The soft palate at the top2of the mouth
closes the nasal cavity (respiration is
inhibited) so the food does not get into the
nose
The epiglottis (a flapw̅
like structure at the back of
the throat) closes over the larynx making sure
that the bolus passes into the oesophagus and
not to the larynx and trachea.

Human Anatomy and Physiology II HUAP220
Swallowing (Deglutition)
It is the passage of food from the mouth to
the stomach passing through the pharynx.

It consists of 3 phases:
Buccal phase (voluntary) talcarate
Pharyngeal phase (Involuntary) Barenatal
Esophageal phase (Involuntary)

Human Anatomy and Physiology II HUAP220
Esophagus
Esophagus
Food takes about 4-8 sec. to pass
Its walls contain smooth muscles that

contract in a wave-like motion (peristalsis)

Esophageal Sphincters (Upper UES & Lower
LES) allow the passage of food downwards
and prevent its backflow (regurgitation)

Peristalsis
It is a wave (ring) like motions (contraction behind
the bolus and relaxation in front of the bolus) of
the alimentary canal to push the food contents
forward.

Human Anatomy and Physiology II HUAP220
Esophageal Diseases
Gastro-Esophageal Reflux Disease (GERD): it is
the entry of the gastric contents into the lower end of
esophagus due to incompetence of the lower esophageal GERD
sphincter. Patients complains of heartburn.
GERD is associated with >> increased
intra-abdominal pressure (e.g. pregnancy and
obesity) and low levels of the hormone gastrin
(weak actions of the LES).

Achalasia: a condition where there is failure of X -ray
LES to relax on arrival of the bolus to the lower end
of the esophagus resulting in massive dilatation of
the esophagus above the LES (dysphagia / difficulty
in swallowing)

Human Anatomy and Physiology II HUAP220
Stomach
General functions of the stomach:
1. Storage of food 6-8 hours.

2. Mechanical breakdown of food.

3. Digestion of the protein content of food by pepsin.

4. Sterilization of food by HCL and lysozyme.

5. Secretion of intrinsic factor which is essential for absorption of vit.B12 in
terminal ileum, so patients with gastrectomy develop B12 deficiency anemia. X -ray
6. Absorption of iron (due to the acidic environment) , water

7. Regulation of the passage of the chyme to the duodenum through the pyloric
sphincter
Human Anatomy and Physiology II HUAP220
Gastric Secretion
It has a volume of about 2.5-3 liters and a pH highly acidic of about 1.
Constituents:

GET
1) Gastric HCL (It is secreted from the Oxyntic or the parietal cells).
2) Enzymes e.g. Pepsinogen enzyme (it is secreted from the chief or peptic cells).
3) Mucous.
4) Intrinsic factor which is essential for vit B12 absorption (It is secreted from the
Oxyntic or the parietal cells).
Functions of gastric HCL:
a) Sterilization of food (kills microorganism)
b) stimulation of bile secretion
c) Ionization of calcium so help its intestinal calcium absorption.
d) Reduction of iron from ferric (Fe+3) into ferrous state (Fe+2) so help iron absorption in the
duodenum and upper jejunum.
e) Digestion of proteins through activation of pepsinogen into active pepsin.
Human Anatomy and Physiology II HUAP220
Gastric Mucosal Barrier
It prevents the autodigestion of the gastric mucosa by the acid and pepsin enzyme.
It consists of the following:

I
1. Tight junctions between gastric mucosal cells.
2. Presence of protective thick and alkaline mucous that covers the gastric mucosa.
3. Bicarbonate ions (HCO3) secretion.
4. Synthesis of prostaglandins.
Gastrin Hormone (secreted by G cells in the antrum of the stomach).
Functions:
1. Stimulation of gastric secretion. 2. Stimulation of gastric motility & growth and vascularity.
3. Stimulation of endocrine and exocrine pancreatic secretion.
4. Contraction of the lower part of the esophagus.
Human Anatomy and Physiology II HUAP220
Gastric Diseases
https://youtu.be/mRK6m8RicSM
https://youtu.be/5RMeCgJn730

Gastritis means inflammation of the stomach.
Causes
Irritant drugs (non-steroidal anti inflammatory NSAIDs e.g. aspirin).
Alcohol.
Bacterial infection (Helicobacter pylori).

Peptic ulcer means ulceration of the gastric mucosa by gastric juice
due to disruption of the protective Gastric mucosal barrier.
Causes
1) Stress, smoking, spicy food, alcohol for long time.
2) NSAIDs e.g. aspirin
3) Helicobacter pylori
Human Anatomy and Physiology II HUAP220
Liver
The largest and most important metabolic organ in the
body.
Functions:
1) Vascular Function (for storage and filtration of blood).
2) Metabolic Functions (Carbohydrate metabolism, Fat
metabolism, Protein metabolism).
3) Secretion of bile.
ADKe.g. K, iron, and
4) Storage (glycogen, fat soluble vitamins
some water-soluble vitamins e.g. B12).
5) Detoxification of drugs and toxic substances (alcohol,
microbial toxins, in-activation of some drugs)

Human Anatomy and Physiology II HUAP220
 Bile
Composition of Bile
1- Water: 97.5%
2- Solids: 2.5%
a) Organic constituents:2% : 1. Bile salts. 2. Bile pigments.
3. Cholesterol 4. Fatty acids 5. Lecithin
b) Inorganic constituents 0.5% as: Na, K, Ca & HCO3.

Blood
Bile pigment (Bilirubin)
Is a greenish yellow pigment
Directio
Is a metabolic product of hemoglobin
Is excreted mostly in stool.

n
Functions of bile:
1. Neutralization of acid chyme
2. Digestion of lipids (by emulsification done by bile salts).
3. Absorption of lipids (by Micelle formation done by bile salts).
4. Excretion (bilirubin, cholesterol, some drugs, some dyes and some inorganic substances)

Human Anatomy and Physiology II HUAP220
Jaundice (Icterus)
Yellowish discoloration of the skin and whites of the eyes due to an increased level of BILLIRUBIN and
deposition of Bile pigments.

There are two types of bilirubin:
Unconjugated (insoluble) = Indirect bilirubin
Conjugated (soluble) = Direct bilirubin

Human Anatomy and Physiology II HUAP220
Types of Jaundice

Divided into three categories
Prehepatic
Hepatic
Post-hepatic

Human Anatomy and Physiology II HUAP220
Small Intestine
Functions:
1. Onward movement of food contents (peristalsis)
2. Secretion of intestinal juice (Succus entericus: alkaline secretions
>> water, mucus, and mineral salts) and hormones
cholecystokinin (CCK)
3. Protection against infection by bacteria (solitary lymphatic
follicles in the wall >> Peyer's patches)
4. Completion of the chemical digestion of food
5. Absorption of most nutrients

Human Anatomy and Physiology II HUAP220
Motor Function of Small Intestine
(Mixing and Propulsive movements)

Mixing
Propulsive M Movement
ovement

Human Anatomy and Physiology II HUAP220
Large Intestine
Functions of large intestine
1. Defecation
2. Digestion of cellulose in animals.
3. Excretion of heavy metals as Mg and arsenic.
4. Absorption of water and electrolytes.
5. Synthesis of vitamins as K and vitamin B complex.
6. Secretion of mucous.
7. Storage of the fecal matter.

Large intestinal bacteria
* The Beneficial Bacteria: They synthesize vitamin K, histamine,
biotin and folic acid.
* The Non-Beneficial Bacteria: They consume vitamins C, B12 and
choline and produce cholesterol also they produce histamine,
tyramine and ammonia. The latter is absorbed by the liver clearing it
from blood
Human Anatomy and Physiology II HUAP220
Defecation
It's the evacuation of the contents of the rectum and colon through the anal canal.

Mechanism of defecation
It is automatic reflex in animals and infants of human and become under control in
adult human.

1) The autonomic spinal defecation
Distension of the rectum —> stimulation of the stretch receptors in the rectal walls
—> afferent impulses via the pelvic nerve to the sacral defecation center (S2, S3
& S4) —> Passage of the fecal matter inside the anal canal will stimulate more
contractions of the wall of rectum and the pelvic floor with more relaxation of the
external anal sphincter.

Human Anatomy and Physiology II HUAP220
Defecation
2) The voluntary control via cerebral cortex
If the conditions are not suitable for defecation
to take place, then the cerebral cortex will inhibit
the spinal defecation center.

Common GIT Symptoms
Diarrhea:
The condition of having at least three loose or liquid
bowel movements each day (leads to water and
electrolytes loss)

Constipation:
Bowel movements that are infrequent or hard to pass

Human Anatomy and Physiology II HUAP220
Intestinal Diseases
Appendicitis: inflamed appendix presented with acute
abdominal pain, treated with surgical removal
(appendectomy)

Inflammatory bowel disease (IBD):
a) Crohn’s disease: chronic inflammatory condition
involve the entire thickness of the gastrointestinal wall
(diarrhea, abdominal pain, and weight loss)

b) Ulcerative colitis: chronic inflammatory disease of
the mucosa and submucosa of the colon and rectum
(bloody diarrhea)
Human Anatomy and Physiology II HUAP220
GIT Hormones
GIT Hormone Location Stimuli for Release Function

Gastrin LStomach and StPresence of peptides and amino Stimulates secretion of gastric acid (HCL) and intrinsic
Duodenum acids in the gut factor from parietal cells
Stimulates secretion of pepsinogen from chief cells
Promotes gastric and intestinal motility and mucosal
growth
Increases LES constriction
Cholecystokinin Duodenum Presence of fatty acids and amino - Stimulates gallbladder contractions
(CCK) and Jejunum acids in the small intestine - Stimulates the release of pancreatic enzymes
- Releases bile

Secretin Duodenum Acidic PH in the lumen of small - Stimulates alkaline secretions (HCO3-) from the
and Jejunum intestine pancreas and the bile ducts

Motilin Throughout the Its secretion is associated - Increases gastric and intestinal motility and
gut with fasting emptying
Human Anatomy and Physiology II HUAP220
Digestive Enzymes
Site of Production Site of Action Enzyme Substrate (Acts on) Product (Results of)
Salivary glands Mouth Amylase Starch Maltose
Disaccharide)

Stomach cells Stomach Pepsin Protein Amino acids
Liver Small intestine Bile salts Fat Fat droplets
Pancreas Small intestine Amylase Starch Maltose
Proteases Protein Amino acids
Lipase Lipids Glycerol & fatty acids

Small intestine Small intestine disaccharidases
(eg. Maltase ) Maltose Glucose
Peptidases Peptides Amino acids

Human Anatomy and Physiology II HUAP220