31.5 GIHEP 05 Liver Biliary System.pptx

Transcript

Liver and
extra hepatic
biliary system
Gastrointestinal tract
Dr Sara Sulaiman
[email protected]
Learning outcomes
By the end of this lecture, you should be able to:
Describe the anatomy of the liver and biliary tree
Describe the peritoneal reflections and ligaments
connected to the liver
Outline the anatomy of the portal venous system
Describe and name the main porto-systemic anastomoses
and explain why these are clinically relevant
Describe the anatomy of the major duodenal papilla
Identify the liver, gallbladder and common bile duct on
radiological imaging
Recommended reading
Abrahams, Peter H. et al.
McMinn & Abrahams’ Clinical Atlas of Human
Anatomy. Seventh edition. Maryland Heights,
Missouri: Elsevier Mosby, 2013. PrintDrake,
Richard L. Gray’s Anatomy For Students. 4th.
ed. Philadelphia: Elsevier, Inc., 2020. Print.
Moore, Keith L., Arthur F. Dalley, and A. M. R.
Agur. Essential Clinical Anatomy. 4th ed.
Philadelphia, Pa.; London: Lippincott Williams
& Wilkins, 2011. Print.
Netter, Frank H. (Frank Henry).
Atlas of Human Anatomy. 5th ed.
Philadelphia, Pa.; London: Saunders, 2010.
Print.
Smith, C., Dilley, A., Mitchell, B. and Drake,
R.L., 2017. Gray’s Surface Anatomy and
Ultrasound: Gray’s Surface Anatomy and
Ultrasound E-Book. Elsevier Health Sciences.
Spratt, J., Salkowski, L.R., Loukas, M.,
Turmezei, T., Weir, J. and Abrahams, P.H.,
2020. Weir & Abrahams' Imaging Atlas of
Human Anatomy. Elsevier Health Sciences.
 Largest gland in the body
Weighs 1500g (2% body weight)
Liver
Receives 1500ml / min blood
Right and central upper abdomen
Functions:
Right Hypochondrium & Epigastric region
Protein synthesis
4th right intercostal space to costal margin
Digestion
Lies deep to ribs 5 to 11(depending of
Metabolism
breathing)
Toxin inactivation
May be palpated on inspiration
Immune
Bile production
5
Cholesterol production
6
7 Glucose storage & release
8 Haemoglobin processing
9
10 Regulation of blood clotting
Clearance of bilirubin
What are
the two
blood
 Largest visceral organ
Two surfaces:
Liver
Diaphragmatic: smooth and associated
with: Left lobe
Subphrenic recess
Right lobe
Hepatorenal recess
Falciform
Visceral: covered with visceral ligament
peritoneum (except for the fossa for the
gallbladder)
Bare area Round ligament of the liver
(part of the
Associated with many organs (fibrous remnant of the
diaphragmatic Porta hepatis (gateway to the liver) umbilical vein at the free
surface of the IVC margin of the falciform
Anterior

liver which is not ligament)
covered by Porta hepatis
peritoneum)
Renal impression
Posterior

Subphrenic recess
(between the
diaphragm and Gastric impression
the superior and
anterior surface Colic impression
of the liver) Oesophageal
What is the impression
clinical
Hepatorenal recess (between Gallbladder
significance the liver and right kidney
of recesses? and suprarenal glands)
Visceral surface
Hepatogastric ligament Falciform
ligament

Left lobe

Right lobe Round ligament of
the liver

Hepatoduodenal ligament

Bare area
Associated ligaments Left triangular ligament
The liver is attached to: Coronary
ligament
Anterior abdominal wall by the falciform
ligament
The round ligament of the liver (ligamentum teres) is at the
free margin Fissure for
The stomach by the hepatogastric ligament ligamentum Right
venosum triangular
The duodenum by the hepatoduodenal
ligament
ligament
The diaphragm by the right and left triangular
ligaments and anterior and posterior Round ligament of
coronary ligaments the liver
 Falciform Coronary
ligament IVC
Hepatic veins Bare area ligament

Coronary
ligament

Left triangular Left triangular
ligament ligament

Right triangular
Round ligament of ligament
the liver
Fissure for
ligamentum
venosum
lobes
Divided into right and left lobes by the
falciform ligament Left lobe
On the visceral surface a H-pattern can be Right lobe
noted:
Right sagittal fissure made by the fossa for Falciform
the gallbladder and the IVC ligament
Left sagittal fissure made by the fissure for
Round ligament of
of ligamentum venosum & fissure of round the liver
ligament (ligamentum teres) Caudate lobe
Right sagittal
fissure

Caudate lobe between the fissure for
Left lobe
ligamentum venosum and the fossa for the
IVC. Right lobe

Quadrate lobe between the fissure for
ligamentum teres and the fossa for the Left sagittal
gallbladder. fissure
Quadrate lobe
Anatomical and functional lobes
Anatomical Functional
Left and right, caudate and quadrate Left and right halves
Further subdivide functional halves into 8
segments
Into four divisions (or sectors/sections) and
Caudate lobe further subdivided into eight hepatic (or
surgical) segments
Independent functional units: on the
Left basis of biliary drainage and blood
lobe supply
Right lobe Caudate lobe

Left
Quadrate lobe half
Right half

Quadrate lobe
 Portal triad

Hepatic artery

Porta hepatis Porta
proper
Hepatic portal
vein
Common
bile duct
hepatis

Hepatoduodenal ligament
Free margin of the lesser
omentum

Epiploic foramen (of
Pringle’s Manoeuvre Winslow)
Image from: Olek Remesz (wiki-pl: Entrance to the
Orem, commons: Orem), CC BY-SA 3.0 omental bursa Lesser
, via Wikimedia Commons
omentum

Lymphatics and
nerves will also
enter the liver at
the porta hepatis
Gallbladder
The fundus of the gallbladder projects on
the lower border of the liver and touches
the parietal peritoneum of the anterior
abdominal wall at the tip of the ninth
costal cartilage
Surface landmark:
At the intersection of the lateral
border of the right rectus abdominis
and the costal margin
Murphy’s point: at the level of the
transpyloric plane and the right
ribcage
Lies in the gallbladder fossa on the
visceral surface of the right lobe of the
liver, adjacent to the quadrate lobe
Storage and concentration of bile secreted
by the liver (Capacity of ~50mL)
 Right hepatic
duct Left hepatic duct
Cystic duct

Gallbladder Common hepatic
duct Right hepatic
duct Left hepatic
Common bile Cystic duct
Pear-shaped structure. duct duct
Fundus, body and neck Neck

The common bile duct courses Common
to the right of the hepatic Body hepatic duct
artery and anterior to the
hepatic portal vein in the free
margin of the lesser omentum. Hepatopancreatic Common bile
ampulla (of Vater) duct
Fundus
The common bile duct joins Main pancreatic
the main pancreatic duct to duct
form the hepatopancreatic
ampulla (of Vater) and
opens into the duodenum at Common bile duct
the major duodenal papilla
surrounded by the sphincter
Main pancreatic duct
of the ampulla (of Oddi).
Sphincter of the hepatopancreatic ampulla (of Oddi) (sometimes called
Major duodenal papilla Glission’s sphincter)
Common bile duct
Infundibulum of the gallbladder
“Hartman’s pouch”
Found as a pouch in the
junction of the neck of the
gallbladder and the cystic duct Supra-duodenal part

Common bile
Retro-duodenal part duct

Para-duodenal part

Main pancreatic duct

Major duodenal hepatopancreatic ampulla
papilla
 Blood to the liver Hepatic portal
vein

Liver receives splenic

blood from:
Hepatic artery Rt. Hepatic Lt. Hepatic
Hepatic artery
a. Superior
proper: a. proper mesenteric vein
oxygenated blood
from the
circulation.
Inferior
mesenteric vein
Hepatic portal
vein:
deoxygenated
blood from the Cystic a.
small intestine, (Usually from the
high in nutrients.
right hepatic artery)

Trace the hepatic
artery proper
back to the aorta.
 Blood from the hepatic portal
vein and hepatic artery will
Hepatic veins
passes through the liver IVC
Blood will be returned to the
IVC by the hepatic veins

Cystic veins drain neck of gallbladder directly
into portal vein, venous drainage of
gallbladder fundus and body flows directly to
the liver (into the hepatic sinusoids)

Hepatic portal
vein
At what level does the
hepatic portal vein form?
Describe the relationship
of the hepatic portal vein
to the pancreas.
 Anastomosis between the small
epigastric veins (systemic)

Porto-caval and the para-umbilical veins
(portal)- can result in caput

anastomosis
medusae
Anastomosis
between the
In normal conditions, blood from oesophageal
veins (drains
the portal vein will pass by the
into the azygos
liver and then goes back to the vein) and the
systemic circulation (IVC) via the left gastric
hepatic veins. vein (portal)-can
result in
If the portal pressure increases oesophageal
(e.g. liver cirrhosis) blood flow to varices
the liver is obstructed which leads
Anastomosis
to blood-taking alternative between the
pathways through: Anastomosis
inferior
between the
Gastroesophageal junction (middle) rectal
retroperiton
veins (drains
The anus eal veins
into the internal
Anterior abdominal wall (systemic) and
iliac vein>IVC)
the colic
Bare areas of secondarily veins (portal)
and the
retroperitoneal organs superior rectal
vein (drains into
Venous enlargement will be the IMV>hepatic
noticed in these sites. portal vein)-can
result in rectal
varices
Lymphatics
Superficial lymphatics from anterior
Phrenic diaphragmatic and visceral surfaces drain
lymph nodes into three or four nodes that lie in the
porta hepatis (hepatic lymph nodes)
Hepatic lymph nodes drain into celiac
lymph nodes
Coeliac lymph nodes drain into
Hepatic lymph
nodes cisterna chyli (then to the thoracic
duct)

Superficial lymphatics from the posterior
diaphragmatic and visceral surfaces drain
to phrenic lymph nodes
Phrenic lymph nodes drain to
Cystic node posterior mediastinal lymph nodes
to the right thoracic duct

Gallbladder drain to hepatic nodes
through cystic node (located at the neck
Celiac lymph of the gallbladder) then to coeliac nodes
nodes
Nerves
Hepatic nerve plexus – derived from
the coeliac plexus and accompanies
the hepatic artery and hepatic portal Vagus nerve
vein
Parasympathetic from the vagus

Nerves to the gallbladder pass along
the cystic artery from the coeliac
nerve plexus
Parasympathetic from the vagus

Remember that the
parasympathatic fibres synapse at
ganglia near or embedded in the
organs. That’s why you cannot see
Nerves
Hepatic nerve plexus – derived from T7

T8
the coeliac plexus and accompanies T9
the hepatic artery and hepatic portal T10
vein
Parasympathetic from the vagus Greater splanchnic
Sympathetic from the celiac nerve

plexus

Nerves to the gallbladder pass along Celiac ganglia
the cystic artery from the celiac
nerve plexus
Parasympathetic from the vagus
Sympathetic from celiac plexus
Contraction of the gallbladder is
hormonally simulated
Cholecystokinin (CCK) → Bile
release
Clinical conditions
related to the liver
Portal hypertension Abscess/infection
Oesophageal varices Hepatomegaly
Caput medusae Dengue
Carcinoma Leishmaniasis
Primary or metastases Malaria
Trauma Storage disorder/enzyme
Pringl’e manoeuvre deficiency
Cirrhosis
Case courtesy of Ayaz
Hidayatov, Radiopaedia.org, rID:
75151
Endoscopic retrograde
cholangiopancreatogram (ERCP)
(catheter from scope passed through major
duodenal papilla into ampulla of Vater with
injected contrast column above).
1. Common bile duct
2. Common hepatic duct
3. Cystic duct
5. Endoscope in duodenum
6. Gall bladder
7. Hepatopancreatic (Vater’s) ampulla*
9. Left hepatic duct
11. Pancreatic duct
12. Right hepatic duct
Magnetic resonance
cholangiopancreatogram
(MRCP).
1. Common bile duct
2. Common hepatic duct
3. Cystic duct
4. Duodenum
6. Gall bladder
8. Jejunum
9. Left hepatic duct
10. Neck of gall bladder
11. Pancreatic duct
12. Right hepatic duct
 A 48-year-old female is admitted to the
ER complaining of abdominal pain over
the last several days. The pain begins
below her ribs and is now located across
her upper abdomen, extending to her
back between her shoulders. The pain is
worse after a meal.
She has been feverish and had chills,
nausea, and vomited twice.
She described her urine as “coca cola”.
Upon physical exam, you notice
yellowing of her skin and eye-sclera.
Imaging is shown.

Describe what you see.
Cholecystitis
Cholelithiasis are the most common cause of
biliary obstruction.
Most gallstones remain in the gallbladder;
however, some may enter the biliary duct
system. If a gallstone blocks the cystic duct,
cholecystitis may occur due to the stasis of
bile within the gallbladder.
Appreciation of anatomy is critical during
laparoscopic cholecystectomy. The Triangle
of Calot and the hepatocystic triangle
must be visualised.
The Critical View of Safety Approach for Lapar
oscopic Cholecystectomy
(for interest only)
Clinical conditions related to
the gallbladder
Gallstones
Present as:
Biliary colic>>>epigastric
pain
Cholecystitis>>> RUQ
pain, Murphy’s sign
Investigations:
Ultrasound
MRCP - Magnetic Resonance Cholecystopancreatography
ERCP - Endoscopic retrograde cholangiopancreatogram (ERCP)
Complications:
Common bile duct stones
Cholangitis: inflammation of the bile duct system
Pancreatitis
What if your patient is dark-
skinned?
Remember
that jaundice
is more
difficult to
note on
darker-skinned
people

What
conditions
would result in
jaundice?