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L8 circulation arteries
1. Blood Vessels of the Systemic
Circulation: Arteries
Dr. Sam Nang
INTERNATIONAL UNIVERSITY
2. Blood Vessels of the Systemic
Circulation: Arteries
The systemic circulation is the
flow of blood through the system of
blood vessels that carry blood
from the left ventricle of the heart
to the tissues of the body and
back to the right atrium.
3.
4.
5. Oxygenated blood from the
pulmonary veins passes from
the left atrium into the left
ventricle and from the left
ventricle into the aorta. Blood is
distributed from the aorta to all
portions of the body.
6.
7. All arteries of the systemic
circulation branch directly or
indirectly from the aorta. The
aorta is usually considered in three
parts: the ascending aorta, the
aortic arch, and the descending
aorta. The descending aorta is
further divided into the thoracic
aorta and the abdominal aorta.
8.
9. The part of the aorta that passes
superiorly from the left ventricle is
called the ascending aorta. The
right and left coronary arteries
arise from the base of the
ascending aorta and supply
blood to the cardiac muscle.
10.
11.
12. The aorta arches posteriorly and
to the left as the aortic arch.
Three major arteries, which carry
blood to the head and upper
limbs, originate from the aortic
arch. They are the
brachiocephalic artery, the left
common carotid artery, and the
left subclavian an artery.
13.
14. The descending aorta is the
longest part of the aorta. It
extends through the thorax and
abdomen to the upper margin of
the pelvis. The part of the
descending aorta that extends
through the thorax to the
diaphragm is called the thoracic
aorta.
15.
16. The part of the descending aorta
that extends from the diaphragm
to the point at which it divides into
the two common iliac arteries is
called abdominal aorta.
17.
18. Arteries of the Head and Neck
The first vessel to branch from
the aortic arch is the
brachiocephalic artery.
19.
20. It is a short artery, and it branches
at the level of the clavicle to form
the right common carotid artery,
which transports blood to the right
side of the head and neck, and
the right subclavian artery, which
transports blood to the right
upper limb.
21.
22. There is no brachiocephalic
artery on the left side of the body.
Instead, the left common
carotid and left subclavian
artery branch directly off the
aortic arch.
23.
24. They are the second and third
branches of the aortic arch.The left
common carotid artery transports
blood to the left side of the head
and neck, and the left subclavian
artery transports blood to the left
upper limb.
25. The common carotid arteries
extend superiorly along each side of
the neck to the angle of the
mandible, where they branch into
internal and external carotid
arteries. The base of each internal
carotid artery is slightly dilated to
form a carotid sinus, which contains
structures important in monitoring
blood pressure (baroreceptors).
26.
27. the external carotid arteries have
several branches that supply the
structures of the neck, face, nose,
and mouth. The internal carotid
arteries pass through the carotid
canals and supply most of the
blood to the brain.
28. Some of the blood to the brain is
supplied by the vertebral arteries,
which branch from the subclavian
arteries and pass to the head
through the transverse foramina
of the cervical vertebrae.
29.
30. The vertebral arteries then
pass into the cranial vault
through the foramen magnum.
Branches of the vertebral
arteries supply blood to the
spinal cord, as well as to the
vertebrae, muscles, and
ligaments in the neck.
31.
32. Within the cranial vault the
vertebral arteries unite to form a
single basilar artery located
along the anterior, inferior
surface of the brainstem. The
basilar artery gives off branches
that supply blood to the pons,
cerebellum, and midbrain.
33.
34.
35. It also forms right and left branches
that connect with the right and left
internal carotid arteries. These
blood vessels form a system of
vessels called the cerebral arterial
circle or the circle of Willis at the
base of the brain. The vessels that
supply blood to most of the brain
branch off of the cerebral arterial
circle
36.
37.
38.
39.
40.
41.
42.
43.
44.
45.
46.
47.
48.
49.
50.
51.
52. Most of the blood supply to the
brain is through the internal
carotid arteries; however, not
enough blood is supplied to the
brain to maintain life if either the
carotid arteries or the vertebral
arteries are blocked.
53.
54. ARTERIES OF THE BRAIN
• ANTERIORR CIRCULATION
I. Introduction: the anterior part of
the brain receives its blood from
the internal carotid aa. (80% of
total cerebral flow); the vertebral-
basilar system (20% total blood
flow) supplies the brain stem,
cerebellum, and parts of the
temporal and occipital lobes.
55. Anatomic connections exist
between vessels of the 2
systems at the circle of Willis,
but functionally, the systems
are almost completely
separate.
56. Cerebral arteries. Are considered to
be end arteries since large
anastomoses are not found
between large branches of the
circle of Willis. The capillary
network of the cortex is dense, and
neurons rarely are more than 50
um from a capillary
57. II.Circle of Willis: a ring of vessels
beneath the hypothalamus,
enclosing the lamina terminalis,
optic chiasm, infundibulum, tuber
cinereum, mamillary bodies, and
posterior perforated substance.
58. It is composed of a single ant.
Communicating artery. and the
paired anterior Cerebral,
internal carotid, posterior
Communicating, and posterior.
Cerebral arteries
59. III. Anterior circulation
A. INTERAL CAROTID enters skull
through carotid canal in petrous
temporal bone, passes along carotid
groove, and exits anteriorly near apex
of petrous bone to enter the posterior
part of foramen lacerum in which it
ascends to a juxtasellar location by
piercing the dural layers of the
cavernous sinus.
60. It has an S-shaped course in the
sinus, called the carotid siphon. As it
pierces the dura, it gives off its 1st
branch, the ophthalmic artery., then
posterior Communicating artery., and
then the anterior choroidal artery.
The artery then bifurcates into
anterior. And middle cerebral
arteries.
61. 1. Anterior cerebral: smaller of 2
terminal branchs.; runs horizontal
and anteromedial between optic
nerve. and anterior Perforated
substance to enter interhemispheric
(longitudinal) fissure at midline,
anastomosing, via the ant.
Communicating artery., with its
counterpart of the opposite side.
Major branches are:
62. a. Prior to anterior Communicating
artery: inferior branchs. To optic
nerve. and chiasm, superior
branchs. (via anterior Perforating
substance) to basal ganglia, internal
capsule, and anterior
Hypothalamus. The largest branch
is the recurrent artery of Huebner to
the head of the caudate nucleus and
anterior Limb of the internal capsule
63. b. Beyond the anterior
Communicating artery
(interhemispheric): anterior Carotid
ascends in cistern of lamina terminalis
and around genu of corpus callosum,
giving rise to:
64. i. Medial orbitofrontal artery: to
orbital gyrus and olfactory tract
and bulb
ii. Frontopolar artery: to
undersurface of frontal lobe and
midline structures
65. iii. Near genu of corpus callosum,
anterior Cerebral divides into a
callosomarginal artery. (runs in
cingulated sulcus) and a pericallosal
artery. (runs above corpus callosum).
They supply the medial and dorsal
surfaces of frontal and parietal lobes,
including the medial part of the motor
and somatosensory cortex
66. 2. Middle cerebral: largest branch;
runs along lateral (sylvian) fissure.
Cortical areas supplied are insula,
claustrum, lateral part of
hemisphere (except for superior
convexity from frontal to occipital
pole), and inferior convexity from
occipital to temporal pole.
67. It gives off 2 groups of ganglionic
branches (3-6 medial and 3-6
lateral striate arteries. Which
enter brain through anterior
Perforated substance to internal
capsule, basal ganglia, and
thalamus); a lateral orbitofrontal
artery.
68. ( to lateral orbital and inferior
frontal gyri); and cortical branchs.
(to lateral surface of frontal,
parietal, and temporal lobes,
including premotor, motor and
somatosensory cortices of
cerebral convexities). The largest
striate branches are:
69. a.Medial lenticulostriates: to
outer segment of the globus
pallidus
b. Lateral lenticulostriates: to
putamen, superior ½ of
internal capsule and adjacent
corona radiate, and much of
the caudate nucleus
70. 3. Posterior communicating: runs
posteriorly to join posterior
cerebral artery of basilar artery
Branches supply: optic tract and
chiasm, hypothalamus, cerebral
peduncle, thalamus, subthalamus,
interpeduncular area, and
hippocampla gyrus
71. 4. Anterior choroidal: passes along
optic tract and around cerebral
peduncle to enter temporal horn of
lateral ventricle to end in glomus of
choroids plexus of ventricle
a. Branches supply: optic tract,
hippocampus, caudate nucleus,
internal capsule, cerebral
peduncles, thalamus, and part of
the midbrain
72. ARTERIES OF THE BRAIN:
• POSTERIOR CIRCULATION
I. Introduction of vertebral-basilar
system: the vertebral arteries Pass up
neck through foramina in transverse
processes of cervical vertebrae 6 to 1.
after looping between atlas and
occipital bone, they penetrate the
atlanto-occipital membrane and dura
and enter skull through foramen
magnum.
73. The left Vertebral is usually larger than
the right. The 2 vertebrals merge at the
pontomedullary junction of form the
basilar artery. which passes in the
midline ventral sulcus of the pons to end
just posterior to the posterior to the
posterior clinoid process. This system
supplies the posterior cerebrum,
midbrain, pons, medulla, and cerebellum
74. II.Vertebral arteries: branches are
A. ANTERIOR SPINAL (single)
descends on cord anteriorly in
anterior Median sulcus to supply
ventral funiculi, ventral horns, and
base of doral horns
75. B. POSTERIOR SPINAL (paired)
descend on cord posteriorly,
associated with doral nerve roots,
and supply doral funiculi and doral
horns
C. POSTERIOR INFERIOR CEREBELLAR
(largest branch): to choroids plexus
of 4th ventricle, lateral medulla,
inferior cerebellar peduncle, and part
of cerebellum
76. III. Basilar artery terminates in
the interpeduncular (crural)
cistern where it divides into the
right. And Ieft. Cerebral arteries
Just superior to the oculomotor
nerves. Branches:
77. A. PONTINE: numerous, small,
penetrating to pons and
ventrolateral cerebellar cortex
and inferior part of the
midbrain
78. B. INTERNAL AUDITORY (labyrinthine)
passes with CN VII and VIII to internal
auditory meatus and supplies dura of
canal, cochlea, labyrinth, and facial
nerve
C. ANTERIOR INFERIOR CEREBELLAR:
to brain stem and superior and middle
cerebellar peduncles and anterior part
of undersurface of cerebellar
hemisphere
79. D. SUPERIOR CERBELLAR:
medial branches to
mesencephalon, pons, medial
cerebellum, and deep cerebellar
nuclei; lateral branches to
anterolateral part of superior ½ of
cerebellar cortex, superior and
middle cerebellar peduncles,
dentate nerve, and roof nuclei.
80. In addition, the more medial
superior vermian branch.
(anastomosis with inferior vermian
branch of posterior, inferior
Cerebellar) supplies the inferior
colliculi, superior cerebellar
peduncles, and dentate nerve.
81. E. POSTERIOR CEREBRAL passes
around midbrain in cisterna
ambiens, then through incisura of
tentorium, along medial surface of
temporal and occipital lobes to
end in the calcarine fissure to
supply the visual cortex.
Branches to:
82. 1. Posteromedial ganglionic:
posterior Hypothalamus, pasts
of thalamus and midbrain, and
the medial choroidal artery to
choroids plexus of the 3rd
ventricle
83. 2. Posterior choroidal branches:
to posterior thalamus,
subthalamus, internal capsule and
choroids plexus of 3rd ventricle,
and body of lateral ventricle
3. Cortical branches: to inferior
surface of temporal and occipital
lobes
84. Arteries of the Upper Limbs
The arteries of the upper limbs are
named differently as they pass into
different body regions, even though no
major branching occurs. The subclavian
artery, located deep to the clavicle,
becomes the axillary artery, in the axilla
(armpit). The brachial artery, located in
the arm, is a continuation of the axillary
artery.
88. Blood pressure measurements are
normally taken from the brachial
artery. The brachial artery branches at
the elbow to form the ulnar artery and
the radial artery, which supply blood to
the forearm and hand.
89.
90. •Branches of Brachial Artery:
- superior ulnar collateral arterry
- inferior ulnar collateral arterry
•Branches of Deep Brachial Artery:
-radial collateral arterry
-middle collateral artery
91.
92.
93. The radial artery is the artery most
commonly used for taking a pulse.
The pulse can be detected
conveniently on the thumb (radial)
side of the anterior surface of the
wrist.
94. • Branches of Radial Artery:
- radial recurrent artery
- princeps pollicis artery
- radial of index finger artery
- dorsal carpal artery
- dorsal carpal network
- dorsal metacarpal arteries
-dorsal digital arteries
-superficial palmar artery
95. • Branches of Ulnar Artery:
- anterior ulnar recurrent artery
- posterior ulnar recurrent artery
- common interosseous artery
- interosseous recurrent artery
- anterior interosseous artery
- posterior interosseous artery
-volar interosseous artery
- common palmar digital arteries
-Proper palmar digital arteries
- deep palmar (arterial) arch
- superficial palmar (arterial) arch
96.
97.
98.
99.
100. The Thoracic Aorta and Its Branches
The branch of the thoracic aorta can be
divided into two groups: the visceral
arteries supply the thoracic organs, and
the parietal arteries supply the thoracic
wall. The visceral branches of the
thoracic aorta supply the esophagus
(Esophageal artery), trachea, parietal
pericardium (Pericardial artery), and part
of the lung (Bronchial artery).
101.
102. The major parietal arteries are the
posterior intercostal arteries, which
arise from the thoracic aorta and
extend between the ribs. They
supply intercostal muscle, the
vertebrae, the spinal cord, and deep
muscles of the back. The superior
phrenic arteries supply the
diaphragm.
104. The internal thoracic arteries are
branch of the subclavian arteries.
They descend along the internal
surface of the anterior thoracic wall
and give rise to branches called the
anterior intercostal arteries, which
extend between the ribs to supply the
anterior chest wall.
105.
106. The Abdominal Aorta
and Its Branches
The branches of the abdominal aorta,
like those of the thoracic aorta, can he
divided into visceral and parietal groups.
The visceral arteries are divided into
paired and unpaired branches. There are
three major unpaired branches: the
celiac trunk, superior mesenteric
artery, and the inferior mesenteric
artery.
107.
108.
109. The celiac trunk supplies blood to the
stomach, pancreas, spleen, upper
duodenum, and liver. The superior
mesenteric artery supplies blood to
the small intestine and the upper
portion of the colon, and the inferior
mesenteric artery supplies blood to
the remainder of the colon.
110.
111. There are three paired visceral
branches of the abdominal aorta. The
renal arteries supply the kidneys and
the suprarenal arteries supply the
adrenal glands. The testicular arteries
supply the testes in males or the
ovarian arteries supply the ovary in
females.
112.
113. The parietal branches of the
abdominal aorta supply the
diaphragm and abdominal wall. The
inferior phrenic arteries supply the
diaphragm, the lumbar arteries
supply the lumbar vertebrae and
back muscles, and the median sacral
artery Supplies the inferior vertebrae.
114.
115. Arteries of the Pelvis
The abdominal aorta divides at the
level of the fifth lumbar vertebra into
two common iliac arteries. Each
common iliac artery divides to form an
external iliac artery, which enters a
lower limb, and an internal iliac
artery, which supplies the pelvic area.
116.
117. Visceral branches of the internal iliac
artery supply organs such as the urinary
bladder, rectum, uterus, and vagina.
Parietal branches supply blood to the
walls and floor of the pelvis; the lumbar,
gluteal, and proximal thigh muscles;
and the external genitalia.
118.
119. Arteries of the lower limps
Like the arteries of the upper limbs,
arteries of the lower limbs are named
differently as they pass into different
body regions, even though there are no
major branches. The external iliac
artery, in the pelvis, becomes the
femoral artery in the thigh, and it
becomes the popliteal artery in the
popliteal space, which is the posterior
region of the knee.
120.
121.
122.
123. The popliteal artery branches slightly
inferior to the knee to give off the
anterior tibial artery and the posterior
tibial artery. The anterior and
posterior tibial arteries give rise to
arteries that supply blood to the feet.
The anterior tibial artery becomes the
dorsalis pedis artery at the ankle.
124.
125.
126. EXTERNAL CAROTID: Anterior: superior thyroid - superior laryngeal
- lingual -sublingual
facial: angular - ascending palatine - submental - inferior labial -
superior labial
Posterior and ascending: occipital - posterior auricular - stylomastoid
- ascending pharyngeal -
meningeal branches of the ascending pharyngeal -
posterior meningeal
Terminal: superficial temporal - transverse facial - middle temporal -
zygomaticoörbital
internal maxillary - 1st part: anterior tympanic - deep auricular -
middle meningeal - superior tympanic - accessory meningeal -
inferior alveolar - lingual
2nd part: masseteric - buccinator - posterior superior alveolar
3rd part: infraorbital - descending palatine -
Arteries of head and neck