Liver and Small Bowel Anatomy PDF

Summary

This document is an outline of the digestive system, describing the liver, its structures, functions, and the small intestine with an outline of components.

Full Transcript

Chapter 16
The Digestive System

Sherwood
Modified, Edited and Presented by Marios Z Panos

Human Physiology by Lauralee Sherwood ©2007 Brooks/Cole-Thomson Learning
 DIGESTIVE SYSTEM

OUTLINE
- Liver
- Structure
- Functions
- Small Intestine
- Secretion
- Digestion
 Liver
Largest and most important metabolic organ in the
body
Body’s major biochemical factory
Importance to digestive system – secretion of bile
salts

Chapter 16 The Digestive System
Human Physiology by Lauralee Sherwood ©2007 Brooks/Cole-Thomson Learning
 Liver
Functions not related to digestion
– Metabolic processing of the major categories of
nutrients
– Detoxifying or degrading body wastes and
hormones, drugs, and other foreign compounds
– Synthesizes plasma proteins
– Stores glycogen, fats, iron, copper, and many
vitamins
– Activates vitamin D
– Removes bacteria and worn-out red blood cells
– Excretes cholesterol and bilirubin
 Liver
Bile
– Actively secreted by liver and actively diverted to
gallbladder between meals
– Stored and concentrated in gallbladder
– Consists of
Bile salts
Cholesterol
Lecithin
Bilirubin
– After meal, bile enters duodenum
Bile salts
– Derivatives of cholesterol
– Convert large fat globules into a liquid emulsion
– After participation in fat digestion and absorption, most are
reabsorbed into the blood
 Types of Cells in the Liver

Hepatocytes (liver cells)
- Specialisation – highly developed organelles

Kupffer cells - macrophages
- immunity
- remove bacteria and worn out red cells
Liver Blood Flow
 Liver Blood Flow
Portal Vein -- > 2/3 liver blood flow
Hepatic Artery -- > 1/3 liver blood flow
(branch of Coeliac axis)

Hepatic Artery - > 3/4 liver Oxygen supply

Portal Vein drains:
Stomach, Small, Large Intestine,
Pancreas & Spleen
 Liver Blood Flow
Facilitates liver function by enabling flow of blood
along rows of hepatocytes
Blood from the portal vein (digestive tract)
enters liver - > passes along rows of hepatocytes
- > central vein
- > hepatic vein (systemic circulation)
- > to IVC -> R Atrium

FIRST PASS
METABOLISM
 Liver histology- Hepatic sinusoids
Hepatocyte plates: 2 layers with bile canaliculus in-between
HEPATIC LOBULE

Portal triad = Portal tract
Liver Sinusoids –Kupffer Cells- Canaliculi
Liver Blood Flow
Peribiliary glands:
serous/mucinous secreting
- > regulate enzyme secretion
DIGESTIVE SYSTEM - SMALL INTESTINE

OUTLINE
- Small Intestine
- Motility
- Secretion
- Digestion
 Small Intestine

Site where most digestion and absorption take place

Three segments
– Duodenum
– Jejunum
– Ileum
Motility includes
– Segmentation
– Migrating Motility Complex (MMC)
 Small intestine

Terminal
Ileum
 Small bowel - enteroclysis (small bowel contrast enema )

Normal
small
bowel

Chapter 16 The Digestive System
Human Physiology by Lauralee Sherwood ©2007 Brooks/Cole-Thomson Learning
 Small Intestine

Segmentation
– Primary method of motility in small intestine
– Consists of ring-like contractions along length
of small intestine
– Within seconds, contracted segments relax
and previously relaxed areas contract
– Action mixes chyme throughout small
intestine lumen
 Segmentation

Chapter 16 The Digestive System
Human Physiology by Lauralee Sherwood ©2007 Brooks/Cole-Thomson Learning
 Small Intestine
Segmentation
– Initiated by pacemaker cells in small intestine
which produce basic electrical rhythm (BER)
– Circular smooth muscle responsiveness is
influenced by distension of intestine, gastrin,
and extrinsic nerve activity

–Functions
Mixing chyme with digestive juices secreted into
small intestine lumen
Exposing all chyme to absorptive surfaces of small
intestine mucosa
 Segmentation (contd.)
Basic Electrical Rhythm (BER)
Distension, gastrin, extrinsic n. activity
- > influence excitability
- > by shifting starting potential of BER away/closer
to threshold
Absent / slight between meals
Vigorous directly after meals
Duodenum + ileum start to segment simultaneously
- Duodenum in response to local distension (chyme)
- Ileum in response to Gastrin secreted by the
stomach (even though ileum is empty)
= Gastro-ileal reflex
 Segmentation (contd.)
Extrinsic n. modify strength of segmental contractions
- Parasympathetic enhances segmentation
- Sympathetic depresses segmental activity

Rate of contractions
- Duodenum 12 / min
- Terminal ileum 9 / min
Net result - > chyme moves along distally
Small bowel transit time 3-5 hours*
*time from entry into the duodenum to exit into the caecum
 Small Intestine
Migrating Motility Complex (MMC)
– Sweeps small bowel clean between meals
Active only during periods of fasting
Repetitive pattern every 1.5 hours
Phase I - Quiet 40-60 min
Phase II - Some contractions, variable intervals
Phase III - Intense peristaltic contractions from
upper stomach to terminal ileum
- > lasts 5-10 mins, pylorus relaxes
 Motility (contd.)
MMC activity
Regulated by motilin – hormone secreted by
endocrine cells of small intestinal mucosa
Released in the unfed state
Release inhibited by feeding

Ileocaecal valve - sphincter
Prevents bacterial contamination of small intestine
by colonic bacteria
Distension on ileal side - > relaxes
Pressure on caecal side - > contracts more strongly
Short bowel syndrome - importance of ileo-caecal valve “brake”
e.g after resection of length of ileum
 Small Intestine
Secretion
– Juice secreted by small intestine does not contain
any digestive enzymes – acqueous salt + mucus solution
– Stimulus = presence of chyme in lumen
-> secretion watery solution, aids absorption

– Synthesized enzymes act within brush-border
membrane of epithelial cells
Enteropeptidase (enterokinase)
Disaccharidases
Aminopeptidases
 Small Intestine
Digestion
– Pancreatic enzymes continue carbohydrate
and protein digestion within the lumen
– Fat is digested entirely within small intestine
lumen by pancreatic lipase

- Fats - > monoglycerides and FFAs
- Proteins - > small peptides + some amino acids
- CHOs - > disaccharides, α-limit dextrins, some
monosaccharides
NB. Pancreatic enzymes act in the lumen, small intestinal enzymes act at the
brush border
Digestion-Absorption – large surface area
Length of small bowel, circular folds, villi, microvilli
 Digestion - Brush border
Brush-border enzymes (microvilli) complete
digestion of carbohydrates and protein
Membrane-bound enzymes
- Enteropeptidase – activates trypsinogen
- Disaccharidases - maltase, sucrase-isomaltase, lactase
Maltase - > Maltose (product of amylases) -> glucose
Sucrase-isomaltase - > -> glucose
- > sucrose - > α-limit dextrins - > glucose
Lactase - > lactose - > galactose
Starch digestion - 2 products: maltose and α-limit dextrins
Dextrins: low-molecular-weight carbohydrates produced by the hydrolysis of starch and glycogen.
Dextrins are mixtures of polymers of D-glucose units linked by α-(1→4) or α-(1→6) glycosydic bonds
Digestion-Absorption – large surface area
Length of small bowel, circular folds, villi, microvilli
 IMAGING OF THE SMALL BOWEL

Barium contrast studies

Magnetic Resonance Enterography

Wireless Capsule Endoscopy
 Small bowel – jejunal folds
“stack of coins” appearance

Arrow - superficial ulceration e.g. in Crohn’s disease
or NSAID mucosal damage
MRI ENTEROGRAPHY

MRI : Magnetic Resonance Imaging
Wireless Capsule Endoscopy
Wireless capsule endoscopy
Wireless capsule endoscopy
 DIGESTIVE SYSTEM

In this lecture we covered
- Liver
- Structure
- Function
- Small Intestine
- Secretion
- Digestion

Chapter 16 The Digestive System
Human Physiology by Lauralee Sherwood ©2007 Brooks/Cole-Thomson Learning
 DIGESTIVE SYSTEM

Next Lecture
- Small Intestine
- Absorption
- CHO, Proteins, Fat
- Vitamins
- Iron, Calcium

- G.I. Hormones
- Review
 Chapter 16
The Digestive System
Sherwood
Modified, Edited and Presented by Marios Z Panos

Thank you for your attention !

Human Physiology by Lauralee Sherwood ©2007 Brooks/Cole-Thomson Learning