ANATOMY OF BLOOD VESSELS

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Tunica Interna – innermost endothelium of simple squamous epithelium + basement membrane
Arteries – have an “internal elastic lamina” of elastic CT to allow for expansion under pressure
Veins – may have “valves” (folds of endothelium + CT) to prevent backflow of blood due to low pr...

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Anatomy of Blood Vessels & their
distribution
Date- 14-11-2017
BY - GAURAV PANDEY

Basic Anatomy of Circulatory routes
Arteries
Arterioles
Capillaries
Venules
Veins
Carry
blood
away from
the heart
Control
blood flow
into
capillaries
& help
regulate BPAllow for “exchange”
(filtration/reabsorption) of
O2/CO2, nutrients/wastes
Connect
capillaries to
veins
Carry blood
towards the
heart

Structure of Blood Vessels

Arteries & Veins
Both are comprised of 3 layers of tissue surrounding “lumen”
through which blood will flow: tunica interna, tunica media &
tunica externa
Structural difference between arteries & veins primarily due
to differences in pressure of blood flowing within

Arteries & Veins
Tunica Interna – innermost endothelium of simple squamous
epithelium + basement membrane
 Arteries – have an “internal elastic lamina” of elastic CT to allow
for expansion under pressure
 Veins – may have “valves” (folds of endothelium + CT) to prevent
backflow of blood due to low pressure

Arteries & Veins
Tunica Media – middle layer containing smooth muscle (for
contractility/vasoconstriction) & elastic CT (for elasticity)
 Arteries – have relatively thick tunica media allowing for
significant vasoconstriction & elasticity
 Elastic/conducting arteries – relatively more elastic tissue than smooth
muscle; ie. aorta, pulmonary trunk, etc.
 Muscular/distributing arteries - relatively more muscle tissue than elastic
tissue; ie. brachial, femoral, etc.
 Veins – relatively thin tunica media therefore no significant
constriction/elasticity

Arteries & Veins
Tunica Externa – made of collagenous CT
 Arteries – thin layer
 Veins – thickest layer of vein, trying to support against gravity &
low pressure

Arteries & Veins

Arterioles & Venules
Very small, almost microscopic vessels with only 2 layers of tissue
surrounding lumen
 Arterioles – endothelium (tunica interna) + very thin layer of smooth
muscle cells (tunica media); regulate blood flow to tissues & affect arterial
blood pressure
 Venules – endothelium (tunica interna) + thin layer of CT (tunica externa)

Capillaries  Microscopic, very thin-walled vessels
comprised of endothelium with
basement membrane; allows for
filtration and reabsorption
 Found in all tissues of the body except
for those that are “avascular”
 Usually form branching networks
(“capillary beds”) within tissues for
increased surface area
 blood flow into capillaries may be
regulated by “pre- capillary sphincters”
 may have a central or “thoroughfare”
channel that provides direct connection
between “metarteriole” (terminal end of
arteriole) & venule
Capillaries can be classified as continuous,
fenestrated, or sinusoids

Circulatory
Routes -
overview

Circulatory Routes – Pulmonary Circuit

Circulatory Routes – Systemic circuit
Ascending aorta
(gives off coronary
arteries)
Aortic arch
Brachiocephalic trunk
Left common carotid artery
Left subclavian artery
Thoracic (descending) aorta
Abdominal aorta
Common iliac arteries
 Arterial blood from left ventricle
into ascending aorta
 Venous return to right atrium
through SVC, IVC & coronary
sinus

Systemic
circuit -
Arteries

Systemic
circuit -
Veins

Cerebral circulation
Cerebral arterial
circle (“circle of
Willis):
Basilar artery
(from union of
vertebral arteries)
+ Internal carotid
arteries

LIVER
Hepatic Portal Vein
Cystic vein
Lt. gastric vein
Splenic vein
I
n
f
e
r
i
o
r

m
e
s
e
n
t
e
r
i
c

v
e
i
nSuperior
m
esenteric vein
A
O
R
T
A
(blood mixes in
sinusioids)
Hepatic Veins
I
V
C
H
epatic artery
Hepatic portal circulation
Venous blood flow from GIT &
spleen to liver – ensures
delivery of nutrients to liver
first

Hepatic portal circulation
 Cystic vein, left gastric
vein, splenic vein,
inferior & superior
mesenteric veins
Hepatic portal vein
 Hepatic portal vein
(deoxygenated/nutrient
rich blood) + Hepatic
artery (oxygenated
blood) sinusoids of
liver
 Sinusoids of liver 
Hepatic veins  IVC

Fetal Circulation
Placenta – O2/CO2 &
nutrient/waste between mom &
baby
Umbilical cord – (2) umbilical
arteries (baby  mom) & (1)
umbilical vein (mom  baby)
Umbilical vein
(O2/nutrient rich blood)
 hepatic portal vein &
ductus venosus  IVC 
Rt. atrium
Rt. Atrium  some blood to rt. Ventricle,
most shunts across foramen ovale in
interatrial septum  lt. atrium  lt.
ventricle

Blood from Rt. Ventricle 
pulmonary trunk  across
ductus arteriosus to aorta
Aorta  systemic arteries
internal iliac arteries 
umbilical arteries  placenta
Fetal Circulation

Fetal Circulation- Changes at Birth
 Umbilical vein  ligamentum teres
(round ligament)
 Umbilical arteries  lateral
umbilical ligaments
 Ductus venosus  ligamentum
venosum
 Foramen ovale  fossa ovalis
 Ductus arteriosus  ligamentum
arteriosum
 Placenta delivered (“afterbirth”)

ANATOMY OF BLOOD VESSELS

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