Blood Vessels Part I Anatomy 4.pptx

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The Cardiovascular System:
Anatomy of Blood Vessels

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 Video: Why This Matters
Understanding how the body controls blood pressure helps to measure
a patient’s blood pressure accurately

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Angiogram of the Brain

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Blood Vessel Structure and Function

Blood vessels: delivery system of dynamic structures that begins and
ends at heart
Arteries: carry blood away from heart; oxygenated except for
pulmonary circulation and umbilical vessels of fetus
Capillaries: direct contact with tissue cells; directly serve cellular
needs
Veins: carry blood toward heart; deoxygenated except for pulmonary
circulation and umbilical vessels of fetus

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Structure of Blood Vessel Wall
All vessels consist of a lumen, central blood-containing
space, surrounded by a wall
Walls of all vessels, except capillaries, have three layers, or
tunics(coverings):
1. Tunica intima
2. Tunica media
3. Tunica externa
Capillaries
– Endothelium with sparse basal lamina

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Structure of Blood Vessel Wall

1. Tunica intima
 Innermost layer that is in “intimate” contact with
blood
 Endothelium: simple squamous epithelium that
lines lumen of all vessels
– Continuous with endocardium
– Slick surface reduces friction
 Subendothelial layer: connective tissue basement
membrane
– Found only in vessels larger than 1 mm

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Structure of Blood Vessel Wall

2. Tunica media
 Middle layer composed mostly of smooth
muscle and sheets of elastin
 Sympathetic vasomotor nerve fibers
innervate this layer, controlling:
– Vasoconstriction: decreased lumen
diameter
– Vasodilation: increased lumen diameter
 Bulkiest layer responsible for maintaining
blood flow and blood pressure

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Structure of Blood Vessel Wall
3. Tunica externa
 Outermost layer of wall
 Also called tunica adventitia (coming from outside)
 Composed mostly of loose collagen fibers that
protect and reinforce wall and anchor it to
surrounding structures
 Infiltrated with nerve fibers, lymphatic vessels
– Large veins also contain elastic fibers in this
layer
 Vasa vasorum (vessels of the vessels): system of
tiny blood vessels found in larger vessels
– Function to nourish outermost external layer

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Arteries
Arteries divided into three groups, based on size and
function
– Elastic arteries
– Muscular arteries
– Arterioles

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Elastic Arteries
Elastic arteries: thick-walled with large, low-resistance lumen
– Aorta and its major branches: also called conducting arteries
because they conduct blood from heart to medium sized
vessels
Elastin found in all three tunics, mostly tunica media
Contain substantial smooth muscle, but inactive in vasoconstriction

Act as pressure reservoirs that expand and recoil as
blood is ejected from heart
– Allows for continuous blood flow downstream even
between heartbeats

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Muscular Arteries

Elastic arteries give rise to muscular arteries
Also called distributing arteries because they deliver
blood to body organs
– Diameters range from pinky-finger size to
pencil-lead size
Account for most of named arteries
Have thickest tunica media with more smooth muscle,
but less elastic tissue
– Tunica media sandwiched between elastic membranes
Active in vasoconstriction

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Arterioles
Arterioles: smallest of all arteries
– Larger arterioles contain all three tunics
– Smaller arterioles are mostly single layer of smooth
muscle surrounding endothelial cells
Control flow into capillary beds via vasodilation and
vasoconstriction of smooth muscle
Also called resistance arteries because changing
diameters change resistance to blood flow
Lead to capillary beds

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Capillaries
Microscopic vessels; diameters so small only single
RBC can pass through at a time
Walls just thin tunica intima; in smallest vessels, one cell
forms entire circumference
Pericytes: spider-shaped stem cells help stabilize capillary
walls, control permeability, and play a role in vessel repair
Supply almost every cell, except for cartilage,
epithelia, cornea, and lens of eye
Functions: exchange of gases, nutrients, wastes,
hormones, etc., between blood and interstitial fluid

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Types of Capillaries
All capillary endothelial cells are joined by tight
junctions with gaps called intercellular clefts
– Allow passage of fluids and small solutes
Three types of capillaries
1. Continuous capillaries
 Abundant in skin, muscles, lungs, and CNS
– Continuous capillaries of brain are unique
Form blood brain barrier, totally
enclosed with tight junctions and no
intercellular clefts

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Types of Capillaries
2. Fenestrated capillary
 Found in areas involved in active filtration
(kidneys), absorption (intestines), or
endocrine hormone secretion
 Endothelial cells contain Swiss cheese–like
pores called fenestrations (windows)
– Allow for increased permeability
– Fenestrations usually covered with thin
glycoprotein diaphragm

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Types of Capillaries

3. Sinusoidal capillaries
 Fewer tight junctions; usually fenestrated with larger
intercellular clefts; incomplete basement
membranes
– Usually have larger lumens
 Found only in the liver, bone marrow, spleen,
and adrenal medulla
 Blood flow is sluggish—allows time for
modification of large molecules and blood cells
that pass between blood and tissue
 Contain macrophages in lining to capture and
destroy foreign invaders

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 Capillary Beds
Capillary bed: interwoven network of capillaries between arterioles and
venules
Microcirculation: flow of blood through bed from arteriole to venule
Terminal arteriole: branch off arteriole that further branches into 10 to 20
capillaries (exchange vessels) that form capillary bed
– Exchange of gases, nutrients and wastes from surrounding tissue takes
place in capillaries
Capillaries then drain into postcapillary venule
Flow through bed controlled by diameter of terminal arteriole and upstream
arterioles
– Arteriole and terminal arteriole dilated when blood needed;
constricted to shunt blood away from bed when not needed

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Anatomy of a Typical Capillary Bed

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 Capillary Beds

Capillaries found in serous membranes of intestinal
mesenteries have two additional features that form a
special arrangement of capillaries:
1. Vascular shunt: channel that directly connects
arteriole with venule (bypasses true capillaries)
- consists of metarteriole and thoroughfare
channel
2. Precapillary sphincter: cuff of smooth muscle
surrounding each true capillary that branches off
metarteriole; acts as valve regulating blood flow
into capillary bed

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Anatomy of a Special (Mesenteric) Capillary Bed

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 Veins
Veins: carry blood toward the heart

Formation begins when capillary beds unite in postcapillary venules and merge into
larger and larger veins
Venules

Have all tunics, but thinner walls with large lumens compared with
corresponding arteries
Large lumen and thin walls make veins good storage vessels
– Called capacitance vessels (blood reservoirs) because they contain up to 65%
of blood supply

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Veins
Blood pressure lower than in arteries, so adaptations
ensure return of blood to heart
– Large-diameter lumens offer little resistance
Other adaptations
– Venous valves
 Prevent backflow of blood
 Most abundant in veins of limbs
– Venous sinuses
 Flattened veins with extremely thin walls
 Composed only of endothelium
 Examples: coronary sinus of the heart and dural
sinuses of the brain

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Generalized Structure of Arteries, Veins, and Capillaries

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Relative Proportion of Blood Volume Throughout the
Cardiovascular System

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Anastomoses (union of parts)
Vascular anastomoses: interconnections of blood vessels
Arterial anastomoses: provide alternate pathways
(collateral channels) to ensure continuous flow, even if
one artery is blocked
– Common in joints, abdominal organs, brain, and heart;
none in retina, kidneys, spleen
Arteriovenous anastomoses: shunts in capillaries;
example: metarteriole–thoroughfare channel
Venous anastomoses: so abundant that occluded veins
rarely block blood flow

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 Circulatory Routes

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